diff --git a/build/tasks/configuration.rb b/build/tasks/configuration.rb index 1700685..50a7a0c 100755 --- a/build/tasks/configuration.rb +++ b/build/tasks/configuration.rb @@ -15,7 +15,7 @@ :specs => { :runner_options => ["-x","example"], - :tools_folder => delayed{File.join("packages","Machine.Specifications.0.5.9","tools")}, + :tools_folder => delayed{File.join("packages","Machine.Specifications.0.5.16","tools")}, :dir => delayed{configatron.artifacts_dir.join('specs')}, :report_dir => delayed{configatron.specs.dir.join('report')}, :assemblies => dynamic{Dir.glob("#{configatron.artifacts_dir}/*specs.dll")}, diff --git a/packages/Castle.Core.3.2.0/Castle.Core.3.2.0.nupkg b/packages/Castle.Core.3.2.0/Castle.Core.3.2.0.nupkg deleted file mode 100644 index 6051310..0000000 Binary files a/packages/Castle.Core.3.2.0/Castle.Core.3.2.0.nupkg and /dev/null differ diff --git a/packages/Castle.Core.3.2.0/lib/net35/Castle.Core.dll b/packages/Castle.Core.3.2.0/lib/net35/Castle.Core.dll deleted file mode 100644 index ccc7d5f..0000000 Binary files a/packages/Castle.Core.3.2.0/lib/net35/Castle.Core.dll and /dev/null differ diff --git a/packages/Castle.Core.3.2.0/lib/net40-client/Castle.Core.dll b/packages/Castle.Core.3.2.0/lib/net40-client/Castle.Core.dll deleted file mode 100644 index 24f4b2f..0000000 Binary files a/packages/Castle.Core.3.2.0/lib/net40-client/Castle.Core.dll and /dev/null differ diff --git a/packages/Castle.Core.3.2.0/lib/net45/Castle.Core.dll b/packages/Castle.Core.3.2.0/lib/net45/Castle.Core.dll deleted file mode 100644 index 777ca82..0000000 Binary files a/packages/Castle.Core.3.2.0/lib/net45/Castle.Core.dll and /dev/null differ diff --git a/packages/Castle.Core.3.2.0/lib/sl4/Castle.Core.dll b/packages/Castle.Core.3.2.0/lib/sl4/Castle.Core.dll deleted file mode 100644 index 5d89826..0000000 Binary files a/packages/Castle.Core.3.2.0/lib/sl4/Castle.Core.dll and /dev/null differ diff --git a/packages/Castle.Core.3.2.0/lib/sl5/Castle.Core.dll b/packages/Castle.Core.3.2.0/lib/sl5/Castle.Core.dll deleted file mode 100644 index e1e42a7..0000000 Binary files a/packages/Castle.Core.3.2.0/lib/sl5/Castle.Core.dll and /dev/null differ diff --git a/packages/Castle.Core.3.2.0/ASL - Apache Software Foundation License.txt b/packages/Castle.Core.3.2.1/ASL - Apache Software Foundation License.txt similarity index 99% rename from packages/Castle.Core.3.2.0/ASL - Apache Software Foundation License.txt rename to packages/Castle.Core.3.2.1/ASL - Apache Software Foundation License.txt index e259b58..9e90f82 100644 --- a/packages/Castle.Core.3.2.0/ASL - Apache Software Foundation License.txt +++ b/packages/Castle.Core.3.2.1/ASL - Apache Software Foundation License.txt @@ -1,57 +1,57 @@ -Apache License, Version 2.0 - -Apache License -Version 2.0, January 2004 -http://www.apache.org/licenses/ - -TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION - -1. Definitions. - -"License" shall mean the terms and conditions for use, reproduction, and distribution as defined by Sections 1 through 9 of this document. - -"Licensor" shall mean the copyright owner or entity authorized by the copyright owner that is granting the License. - -"Legal Entity" shall mean the union of the acting entity and all other entities that control, are controlled by, or are under common control with that entity. For the purposes of this definition, "control" means (i) the power, direct or indirect, to cause the direction or management of such entity, whether by contract or otherwise, or (ii) ownership of fifty percent (50%) or more of the outstanding shares, or (iii) beneficial ownership of such entity. - -"You" (or "Your") shall mean an individual or Legal Entity exercising permissions granted by this License. - -"Source" form shall mean the preferred form for making modifications, including but not limited to software source code, documentation source, and configuration files. - -"Object" form shall mean any form resulting from mechanical transformation or translation of a Source form, including but not limited to compiled object code, generated documentation, and conversions to other media types. - -"Work" shall mean the work of authorship, whether in Source or Object form, made available under the License, as indicated by a copyright notice that is included in or attached to the work (an example is provided in the Appendix below). - -"Derivative Works" shall mean any work, whether in Source or Object form, that is based on (or derived from) the Work and for which the editorial revisions, annotations, elaborations, or other modifications represent, as a whole, an original work of authorship. For the purposes of this License, Derivative Works shall not include works that remain separable from, or merely link (or bind by name) to the interfaces of, the Work and Derivative Works thereof. - -"Contribution" shall mean any work of authorship, including the original version of the Work and any modifications or additions to that Work or Derivative Works thereof, that is intentionally submitted to Licensor for inclusion in the Work by the copyright owner or by an individual or Legal Entity authorized to submit on behalf of the copyright owner. For the purposes of this definition, "submitted" means any form of electronic, verbal, or written communication sent to the Licensor or its representatives, including but not limited to communication on electronic mailing lists, source code control systems, and issue tracking systems that are managed by, or on behalf of, the Licensor for the purpose of discussing and improving the Work, but excluding communication that is conspicuously marked or otherwise designated in writing by the copyright owner as "Not a Contribution." - -"Contributor" shall mean Licensor and any individual or Legal Entity on behalf of whom a Contribution has been received by Licensor and subsequently incorporated within the Work. - -2. Grant of Copyright License. Subject to the terms and conditions of this License, each Contributor hereby grants to You a perpetual, worldwide, non-exclusive, no-charge, royalty-free, irrevocable copyright license to reproduce, prepare Derivative Works of, publicly display, publicly perform, sublicense, and distribute the Work and such Derivative Works in Source or Object form. - -3. Grant of Patent License. Subject to the terms and conditions of this License, each Contributor hereby grants to You a perpetual, worldwide, non-exclusive, no-charge, royalty-free, irrevocable (except as stated in this section) patent license to make, have made, use, offer to sell, sell, import, and otherwise transfer the Work, where such license applies only to those patent claims licensable by such Contributor that are necessarily infringed by their Contribution(s) alone or by combination of their Contribution(s) with the Work to which such Contribution(s) was submitted. If You institute patent litigation against any entity (including a cross-claim or counterclaim in a lawsuit) alleging that the Work or a Contribution incorporated within the Work constitutes direct or contributory patent infringement, then any patent licenses granted to You under this License for that Work shall terminate as of the date such litigation is filed. - -4. Redistribution. You may reproduce and distribute copies of the Work or Derivative Works thereof in any medium, with or without modifications, and in Source or Object form, provided that You meet the following conditions: - - 1. You must give any other recipients of the Work or Derivative Works a copy of this License; and - - 2. You must cause any modified files to carry prominent notices stating that You changed the files; and - - 3. You must retain, in the Source form of any Derivative Works that You distribute, all copyright, patent, trademark, and attribution notices from the Source form of the Work, excluding those notices that do not pertain to any part of the Derivative Works; and - - 4. If the Work includes a "NOTICE" text file as part of its distribution, then any Derivative Works that You distribute must include a readable copy of the attribution notices contained within such NOTICE file, excluding those notices that do not pertain to any part of the Derivative Works, in at least one of the following places: within a NOTICE text file distributed as part of the Derivative Works; within the Source form or documentation, if provided along with the Derivative Works; or, within a display generated by the Derivative Works, if and wherever such third-party notices normally appear. The contents of the NOTICE file are for informational purposes only and do not modify the License. You may add Your own attribution notices within Derivative Works that You distribute, alongside or as an addendum to the NOTICE text from the Work, provided that such additional attribution notices cannot be construed as modifying the License. - -You may add Your own copyright statement to Your modifications and may provide additional or different license terms and conditions for use, reproduction, or distribution of Your modifications, or for any such Derivative Works as a whole, provided Your use, reproduction, and distribution of the Work otherwise complies with the conditions stated in this License. - -5. Submission of Contributions. Unless You explicitly state otherwise, any Contribution intentionally submitted for inclusion in the Work by You to the Licensor shall be under the terms and conditions of this License, without any additional terms or conditions. Notwithstanding the above, nothing herein shall supersede or modify the terms of any separate license agreement you may have executed with Licensor regarding such Contributions. - -6. Trademarks. This License does not grant permission to use the trade names, trademarks, service marks, or product names of the Licensor, except as required for reasonable and customary use in describing the origin of the Work and reproducing the content of the NOTICE file. - -7. Disclaimer of Warranty. Unless required by applicable law or agreed to in writing, Licensor provides the Work (and each Contributor provides its Contributions) on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied, including, without limitation, any warranties or conditions of TITLE, NON-INFRINGEMENT, MERCHANTABILITY, or FITNESS FOR A PARTICULAR PURPOSE. You are solely responsible for determining the appropriateness of using or redistributing the Work and assume any risks associated with Your exercise of permissions under this License. - -8. Limitation of Liability. In no event and under no legal theory, whether in tort (including negligence), contract, or otherwise, unless required by applicable law (such as deliberate and grossly negligent acts) or agreed to in writing, shall any Contributor be liable to You for damages, including any direct, indirect, special, incidental, or consequential damages of any character arising as a result of this License or out of the use or inability to use the Work (including but not limited to damages for loss of goodwill, work stoppage, computer failure or malfunction, or any and all other commercial damages or losses), even if such Contributor has been advised of the possibility of such damages. - -9. Accepting Warranty or Additional Liability. While redistributing the Work or Derivative Works thereof, You may choose to offer, and charge a fee for, acceptance of support, warranty, indemnity, or other liability obligations and/or rights consistent with this License. However, in accepting such obligations, You may act only on Your own behalf and on Your sole responsibility, not on behalf of any other Contributor, and only if You agree to indemnify, defend, and hold each Contributor harmless for any liability incurred by, or claims asserted against, such Contributor by reason of your accepting any such warranty or additional liability. - -END OF TERMS AND CONDITIONS +Apache License, Version 2.0 + +Apache License +Version 2.0, January 2004 +http://www.apache.org/licenses/ + +TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION + +1. Definitions. + +"License" shall mean the terms and conditions for use, reproduction, and distribution as defined by Sections 1 through 9 of this document. + +"Licensor" shall mean the copyright owner or entity authorized by the copyright owner that is granting the License. + +"Legal Entity" shall mean the union of the acting entity and all other entities that control, are controlled by, or are under common control with that entity. For the purposes of this definition, "control" means (i) the power, direct or indirect, to cause the direction or management of such entity, whether by contract or otherwise, or (ii) ownership of fifty percent (50%) or more of the outstanding shares, or (iii) beneficial ownership of such entity. + +"You" (or "Your") shall mean an individual or Legal Entity exercising permissions granted by this License. + +"Source" form shall mean the preferred form for making modifications, including but not limited to software source code, documentation source, and configuration files. + +"Object" form shall mean any form resulting from mechanical transformation or translation of a Source form, including but not limited to compiled object code, generated documentation, and conversions to other media types. + +"Work" shall mean the work of authorship, whether in Source or Object form, made available under the License, as indicated by a copyright notice that is included in or attached to the work (an example is provided in the Appendix below). + +"Derivative Works" shall mean any work, whether in Source or Object form, that is based on (or derived from) the Work and for which the editorial revisions, annotations, elaborations, or other modifications represent, as a whole, an original work of authorship. For the purposes of this License, Derivative Works shall not include works that remain separable from, or merely link (or bind by name) to the interfaces of, the Work and Derivative Works thereof. + +"Contribution" shall mean any work of authorship, including the original version of the Work and any modifications or additions to that Work or Derivative Works thereof, that is intentionally submitted to Licensor for inclusion in the Work by the copyright owner or by an individual or Legal Entity authorized to submit on behalf of the copyright owner. For the purposes of this definition, "submitted" means any form of electronic, verbal, or written communication sent to the Licensor or its representatives, including but not limited to communication on electronic mailing lists, source code control systems, and issue tracking systems that are managed by, or on behalf of, the Licensor for the purpose of discussing and improving the Work, but excluding communication that is conspicuously marked or otherwise designated in writing by the copyright owner as "Not a Contribution." + +"Contributor" shall mean Licensor and any individual or Legal Entity on behalf of whom a Contribution has been received by Licensor and subsequently incorporated within the Work. + +2. Grant of Copyright License. Subject to the terms and conditions of this License, each Contributor hereby grants to You a perpetual, worldwide, non-exclusive, no-charge, royalty-free, irrevocable copyright license to reproduce, prepare Derivative Works of, publicly display, publicly perform, sublicense, and distribute the Work and such Derivative Works in Source or Object form. + +3. Grant of Patent License. Subject to the terms and conditions of this License, each Contributor hereby grants to You a perpetual, worldwide, non-exclusive, no-charge, royalty-free, irrevocable (except as stated in this section) patent license to make, have made, use, offer to sell, sell, import, and otherwise transfer the Work, where such license applies only to those patent claims licensable by such Contributor that are necessarily infringed by their Contribution(s) alone or by combination of their Contribution(s) with the Work to which such Contribution(s) was submitted. If You institute patent litigation against any entity (including a cross-claim or counterclaim in a lawsuit) alleging that the Work or a Contribution incorporated within the Work constitutes direct or contributory patent infringement, then any patent licenses granted to You under this License for that Work shall terminate as of the date such litigation is filed. + +4. Redistribution. You may reproduce and distribute copies of the Work or Derivative Works thereof in any medium, with or without modifications, and in Source or Object form, provided that You meet the following conditions: + + 1. You must give any other recipients of the Work or Derivative Works a copy of this License; and + + 2. You must cause any modified files to carry prominent notices stating that You changed the files; and + + 3. You must retain, in the Source form of any Derivative Works that You distribute, all copyright, patent, trademark, and attribution notices from the Source form of the Work, excluding those notices that do not pertain to any part of the Derivative Works; and + + 4. If the Work includes a "NOTICE" text file as part of its distribution, then any Derivative Works that You distribute must include a readable copy of the attribution notices contained within such NOTICE file, excluding those notices that do not pertain to any part of the Derivative Works, in at least one of the following places: within a NOTICE text file distributed as part of the Derivative Works; within the Source form or documentation, if provided along with the Derivative Works; or, within a display generated by the Derivative Works, if and wherever such third-party notices normally appear. The contents of the NOTICE file are for informational purposes only and do not modify the License. You may add Your own attribution notices within Derivative Works that You distribute, alongside or as an addendum to the NOTICE text from the Work, provided that such additional attribution notices cannot be construed as modifying the License. + +You may add Your own copyright statement to Your modifications and may provide additional or different license terms and conditions for use, reproduction, or distribution of Your modifications, or for any such Derivative Works as a whole, provided Your use, reproduction, and distribution of the Work otherwise complies with the conditions stated in this License. + +5. Submission of Contributions. Unless You explicitly state otherwise, any Contribution intentionally submitted for inclusion in the Work by You to the Licensor shall be under the terms and conditions of this License, without any additional terms or conditions. Notwithstanding the above, nothing herein shall supersede or modify the terms of any separate license agreement you may have executed with Licensor regarding such Contributions. + +6. Trademarks. This License does not grant permission to use the trade names, trademarks, service marks, or product names of the Licensor, except as required for reasonable and customary use in describing the origin of the Work and reproducing the content of the NOTICE file. + +7. Disclaimer of Warranty. Unless required by applicable law or agreed to in writing, Licensor provides the Work (and each Contributor provides its Contributions) on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied, including, without limitation, any warranties or conditions of TITLE, NON-INFRINGEMENT, MERCHANTABILITY, or FITNESS FOR A PARTICULAR PURPOSE. You are solely responsible for determining the appropriateness of using or redistributing the Work and assume any risks associated with Your exercise of permissions under this License. + +8. Limitation of Liability. In no event and under no legal theory, whether in tort (including negligence), contract, or otherwise, unless required by applicable law (such as deliberate and grossly negligent acts) or agreed to in writing, shall any Contributor be liable to You for damages, including any direct, indirect, special, incidental, or consequential damages of any character arising as a result of this License or out of the use or inability to use the Work (including but not limited to damages for loss of goodwill, work stoppage, computer failure or malfunction, or any and all other commercial damages or losses), even if such Contributor has been advised of the possibility of such damages. + +9. Accepting Warranty or Additional Liability. While redistributing the Work or Derivative Works thereof, You may choose to offer, and charge a fee for, acceptance of support, warranty, indemnity, or other liability obligations and/or rights consistent with this License. However, in accepting such obligations, You may act only on Your own behalf and on Your sole responsibility, not on behalf of any other Contributor, and only if You agree to indemnify, defend, and hold each Contributor harmless for any liability incurred by, or claims asserted against, such Contributor by reason of your accepting any such warranty or additional liability. + +END OF TERMS AND CONDITIONS diff --git a/packages/Castle.Core.3.2.0/BreakingChanges.txt b/packages/Castle.Core.3.2.1/BreakingChanges.txt similarity index 97% rename from packages/Castle.Core.3.2.0/BreakingChanges.txt rename to packages/Castle.Core.3.2.1/BreakingChanges.txt index 4ca1787..6f39a7a 100644 --- a/packages/Castle.Core.3.2.0/BreakingChanges.txt +++ b/packages/Castle.Core.3.2.1/BreakingChanges.txt @@ -1,71 +1,71 @@ -=== version 3.0 -================================================================================================ -change - Removed overloads of logging methods that were taking format string from ILogger and - ILogger and IExtendedLogger and didn't have word Format in their name. - For example: - void Error(string format, params object[] args); // was removed - void ErrorFormat(string format, params object[] args); //use this one instead - - -impact - low -fixability - medium -revision - - -description - To minimize confusion and duplication those methods were removed. - -fix - Use methods that have explicit "Format" word in their name and same signature. -================================================================================================ -change - Removed WebLogger and WebLoggerFactory - -impact - low -fixability - medium -revision - - -description - To minimize management overhead the classes were removed so that only single - Client Profile version of Castle.Core can be distributed. - -fix - You can use NLog or Log4Net web logger integration, or reuse implementation of existing - web logger and use it as a custom logger. - -================================================================================================ -change - Removed obsolete overload of ProxyGenerator.CreateClassProxy - -impact - low -fixability - trivial -revision - - -description - Deprecated overload of ProxyGenerator.CreateClassProxy was removed to keep the - method consistent with other methods and to remove confusion - -fix - whenever removed overload was used, use one of the other overloads. - -================================================================================================ -change - IProxyGenerationHook.NonVirtualMemberNotification method was renamed - -impact - high -fixability - easy -revision - - -description - to accommodate class proxies with target method NonVirtualMemberNotification on - IProxyGenerationHook type was renamed to more accurate NonProxyableMemberNotification - since for class proxies with target not just methods but also fields and other member that - break the abstraction will be passed to this method. - -fix - whenever NonVirtualMemberNotification is used/implemented change the method name to - NonProxyableMemberNotification. Implementors should also accommodate possibility that not - only MethodInfos will be passed as method's second parameter. - -================================================================================================ -change - DynamicProxy will now allow to intercept members of System.Object - -impact - very low -fixability - easy -revision - - -description - to allow scenarios like mocking of System.Object members, DynamicProxy will not - disallow proxying of these methods anymore. AllMethodsHook (default IProxyGenerationHook) - will still filter them out though. - -fix - whenever custom IProxyGenerationHook is used, user should account for System.Object's - members being now passed to ShouldInterceptMethod and NonVirtualMemberNotification methods - and if neccessary update the code to handle them appropriately. +=== version 3.0 +================================================================================================ +change - Removed overloads of logging methods that were taking format string from ILogger and + ILogger and IExtendedLogger and didn't have word Format in their name. + For example: + void Error(string format, params object[] args); // was removed + void ErrorFormat(string format, params object[] args); //use this one instead + + +impact - low +fixability - medium +revision - + +description - To minimize confusion and duplication those methods were removed. + +fix - Use methods that have explicit "Format" word in their name and same signature. +================================================================================================ +change - Removed WebLogger and WebLoggerFactory + +impact - low +fixability - medium +revision - + +description - To minimize management overhead the classes were removed so that only single + Client Profile version of Castle.Core can be distributed. + +fix - You can use NLog or Log4Net web logger integration, or reuse implementation of existing + web logger and use it as a custom logger. + +================================================================================================ +change - Removed obsolete overload of ProxyGenerator.CreateClassProxy + +impact - low +fixability - trivial +revision - + +description - Deprecated overload of ProxyGenerator.CreateClassProxy was removed to keep the + method consistent with other methods and to remove confusion + +fix - whenever removed overload was used, use one of the other overloads. + +================================================================================================ +change - IProxyGenerationHook.NonVirtualMemberNotification method was renamed + +impact - high +fixability - easy +revision - + +description - to accommodate class proxies with target method NonVirtualMemberNotification on + IProxyGenerationHook type was renamed to more accurate NonProxyableMemberNotification + since for class proxies with target not just methods but also fields and other member that + break the abstraction will be passed to this method. + +fix - whenever NonVirtualMemberNotification is used/implemented change the method name to + NonProxyableMemberNotification. Implementors should also accommodate possibility that not + only MethodInfos will be passed as method's second parameter. + +================================================================================================ +change - DynamicProxy will now allow to intercept members of System.Object + +impact - very low +fixability - easy +revision - + +description - to allow scenarios like mocking of System.Object members, DynamicProxy will not + disallow proxying of these methods anymore. AllMethodsHook (default IProxyGenerationHook) + will still filter them out though. + +fix - whenever custom IProxyGenerationHook is used, user should account for System.Object's + members being now passed to ShouldInterceptMethod and NonVirtualMemberNotification methods + and if neccessary update the code to handle them appropriately. diff --git a/packages/Castle.Core.3.2.1/Castle.Core.3.2.1.nupkg b/packages/Castle.Core.3.2.1/Castle.Core.3.2.1.nupkg new file mode 100644 index 0000000..3265f86 Binary files /dev/null and b/packages/Castle.Core.3.2.1/Castle.Core.3.2.1.nupkg differ diff --git a/packages/Castle.Core.3.2.0/Castle.Core.3.2.0.nuspec b/packages/Castle.Core.3.2.1/Castle.Core.3.2.1.nuspec similarity index 81% rename from packages/Castle.Core.3.2.0/Castle.Core.3.2.0.nuspec rename to packages/Castle.Core.3.2.1/Castle.Core.3.2.1.nuspec index d7c76db..1535f18 100644 --- a/packages/Castle.Core.3.2.0/Castle.Core.3.2.0.nuspec +++ b/packages/Castle.Core.3.2.1/Castle.Core.3.2.1.nuspec @@ -1,20 +1,17 @@ - - - - Castle.Core - 3.2.0 - Castle.Core - Castle Project Contributors - Castle Project Contributors - http://www.apache.org/licenses/LICENSE-2.0.html - http://www.castleproject.org/ - http://docs.castleproject.org/GetFile.aspx?File=/castleLogo100px.png - false - Castle Project Core, including DynamicProxy, Logging Abstractions and DictionaryAdapter - Castle Project Core, including DynamicProxy, Logging Abstractions and DictionaryAdapter - - Copyright 2004-2013 Castle Project - http://www.castleproject.org/ - - castle, dynamicproxy, dynamic proxy, dynamicproxy2, dictionaryadapter, emailsender - + + + + Castle.Core + 3.2.1 + Castle Project Contributors + Castle Project Contributors + http://www.apache.org/licenses/LICENSE-2.0.html + http://www.castleproject.org/ + http://docs.castleproject.org/GetFile.aspx?File=/castleLogo100px.png + false + Castle Project Core, including DynamicProxy, Logging Abstractions and DictionaryAdapter + Castle Project Core, including DynamicProxy, Logging Abstractions and DictionaryAdapter + Copyright 2004-2013 Castle Project - http://www.castleproject.org/ + castle dynamicproxy dynamic proxy dynamicproxy2 dictionaryadapter emailsender + \ No newline at end of file diff --git a/packages/Castle.Core.3.2.0/Changes.txt b/packages/Castle.Core.3.2.1/Changes.txt similarity index 88% rename from packages/Castle.Core.3.2.0/Changes.txt rename to packages/Castle.Core.3.2.1/Changes.txt index 340073b..f5cb21f 100644 --- a/packages/Castle.Core.3.2.0/Changes.txt +++ b/packages/Castle.Core.3.2.1/Changes.txt @@ -1,196 +1,207 @@ -3.2.0 (2013-02-16) -================== -- fixed DYNPROXY-179 - Exception when creating a generic proxy (from cache) -- fixed DYNPROXY-175 - invalid CompositionInvocation type used when code uses interface proxies with and without InterceptorSelector - -3.1.0 (2012-08-05) -================== -- fixed DYNPROXY-174 - Unable to cast object of type 'System.Collections.ObjectModel.ReadOnlyCollection`1[System.Reflection.CustomAttributeTypedArgument]' to type 'System.Array' - -3.1.0 RC (2012-07-08) -================== -- support multiple inheritance of DA attributes on interfaces. -- BREAKING CHANGE: removed propogate child notifications as it violated INotifyPropertyChanged contract -- improved DictionaryAdapter performance -- generalized IBindingList support for DictionaryAdapters -- added reference support to XmlAdapter -- BRAKING CHANGE: refactored XPathAdapter into XmlAdapter with much more flexibility to support other input like XLinq - -- implemented CORE-43 - Add option to skip configuring log4net/nlog - -- fixed CORE-44 - NLog logger does not preserver call site info -- fixed DYNPROXY-171 - PEVerify error on generic method definition -- fixed DYNPROXY-170 - Calls to properties inside non-intercepted methods are not forwarded to target object (regression from v2.5) -- fixed DYNPROXY-169 - Support IChangeProxyTarget on additional interfaces and mixins when using CreateInterfaceProxyWithTargetInterface - -3.0.0 (2011-12-13) -================== -no major changes since RC - -3.0.0 RC 1 (2011-11-20) -================== -- Applied Jeff Sharps patch that refactored Xml DictionaryAdapter to improve maintainability and enable more complete functionality - -- fixed DYNPROXY-165 - Object.GetType() and Object.MemberwiseClone() should be ignored and not reported as non-interceptable to IProxyGenerationHook -- fixed DYNPROXY-164 - Invalid Proxy type generated when there are more than one base class generic constraints -- fixed DYNPROXY-162 - ref or out parameters can not be passed back if proxied method throw an exception - -3.0.0 beta 1 (2011-08-14) -================== -- fixed CORE-37 - TAB characters in the XML Configuration of a component parameter is read as String.Empty -- fixed DYNPROXY-161 - Strong Named DynamicProxy Assembly Not Available in Silverligh -- fixed DYNPROXY-159 - Sorting MemberInfo array for serialization has side effects -- fixed DYNPROXY-158 - Can't create class proxy with target and without target in same ProxyGenerator -- fixed DYNPROXY-153 - When proxying a generic interface which has an interface as GenericType . No proxy can be created -- fixed DYNPROXY-151 - Cast error when using attributes - -- implemented CORE-33 - Add lazy logging -- implemented DYNPROXY-156 - Provide mechanism for interceptors to implement retry logic - -- removed obsolete members from ILogger and its implementations - -2.5.2 (2010-11-15) -================== -- fixed DYNPROXY-150 - Finalizer should not be proxied -- implemented DYNPROXY-149 - Make AllMethodsHook members virtual so it can be used as a base class -- fixed DYNPROXY-147 - Can't crete class proxies with two non-public methods having same argument types but different return type -- fixed DYNPROXY-145 Unable to proxy System.Threading.SynchronizationContext (.NET 4.0) -- fixed DYNPROXY-144 - params argument not supported in constructor -- fixed DYNPROXY-143 - Permit call to reach "non-proxied" methods of inherited interfaces -- implemented DYNPROXY-139 - Better error message -- fixed DYNPROXY-133 - Debug assertion in ClassProxyInstanceContributor fails when proxying ISerializable with an explicit implementation of GetObjectData -- fixed CORE-32 - Determining if permission is granted via PermissionUtil does not work in .NET 4 -- applied patch by Alwin Meijs - ExtendedLog4netFactory can be configured with a stream from for example an embedded log4net xml config -- Upgraded NLog to 2.0 Beta 1 -- Added DefaultXmlSerializer to bridge XPathAdapter with standard Xml Serialization. -- XPathAdapter for DictionaryAdapter added IXPathSerializer to provide hooks for custom serialization. - -2.5.1 (2010-09-21) -================== -- Interface proxy with target Interface now accepts null as a valid target value (which can be replaced at a later stage). -- DictionaryAdapter behavior overrides are now ordered with all other behaviors -- BREAKING CHANGE: removed web logger so that by default Castle.Core works in .NET 4 client profile -- added paramter to ModuleScope disabling usage of signed modules. This is to workaround issue DYNPROXY-134. Also a descriptive exception message is being thrown now when the issue is detected. -- Added IDictionaryBehaviorBuilder to allow grouping behaviors -- Added GenericDictionaryAdapter to simplify generic value sources -- fixed issue DYNPROXY-138 - Error message missing space -- fixed false positive where DynamicProxy would not let you proxy interface with target interface when target object was a COM object. -- fixed ReflectionBasedDictionaryAdapter when using indexed properties - -2.5.0 (2010-08-21) -================== -- DynamicProxy will now not replicate non-public attribute types -- Applied patch from Kenneth Siewers Møller which adds parameterless constructor to DefaultSmtpSender implementation, to be able to configure the inner SmtpClient from the application configuration file (system.net.smtp). -- added support for .NET 4 and Silverlight 4, updated solution to VisualStudio 2010 -- Removed obsolete overload of CreateClassProxy -- Added class proxy with taget -- Added ability to intercept explicitly implemented generic interface methods on class proxy. -- DynamicProxy does not disallow intercepting members of System.Object anymore. AllMethodsHook will still filter them out though. -- Added ability to intercept explicitly implemented interface members on class proxy. Does not support generic members. -- Merged DynamicProxy into Core binary -- fixed DYNPROXY-ISSUE-132 - "MetaProperty equals implementation incorrect" -- Fixed bug in DiagnosticsLoggerTestCase, where when running as non-admin, the teardown will throw SecurityException (contributed by maxild) -- Split IoC specific classes into Castle.Windsor project -- Merged logging services solution -- Merged DynamicProxy project - -1.2.0 (2010-01-11) -================== - -- Added IEmailSender interface and its default implementation - -1.2.0 beta (2009-12-04) -================== - -- BREAKING CHANGE - added ChangeProxyTarget method to IChangeProxyTarget interface -- added docs to IChangeProxyTarget methods -- Fixed DYNPROXY-ISSUE-108 - Obtaining replicated custom attributes on proxy may fail when property setter throws exception on default value -- Moved custom attribute replication from CustomAttributeUtil to new interface - IAttributeDisassembler -- Exposed IAttributeDisassembler via ProxyGenerationOptions, so that users can plug their implementation for some convoluted scenarios. (for Silverlight) -- Moved IInterceptorSelector from Dynamic Proxy to Core (IOC-ISSUE-156) - -1.1.0 (2009-05-04) -================== - -- Applied Eric Hauser's patch fixing CORE-ISSUE-22 - "Support for environment variables in resource URI" - -- Applied Gauthier Segay's patch fixing CORE-ISSUE-20 - "Castle.Core.Tests won't build via nant because it use TraceContext without referencing System.Web.dll" - -- Added simple interface to ComponentModel to make optional properties required. - -- Applied Mark's -- -- patch that changes - the Core to support being compiled for Silverlight 2 - -- Applied Louis DeJardin's patch adding TraceLogger as a new logger implementation - -- Applied Chris Bilson's patch fixing CORE-15 - "WebLogger Throws When Logging Outside of an HttpContext" - -Release Candidate 3 -=================== - -- Added IServiceProviderEx which extends IServiceProvider - -- Added Pair class. - -- Applied Bill Pierce's patch fixing CORE-9 - "Allow CastleComponent Attribute to Specify Lifestyle in Constructor" - -- Added UseSingleInterfaceProxy to CompomentModel to control the proxying - behavior while maintaining backward compatibility. - Added the corresponding ComponentProxyBehaviorAttribute. - -- Made NullLogger and IExtnededLogger - -- Enabled a new format on ILogger interface, with 6 overloads for each method: - Debug(string) - Debug(string, Exception) - Debug(string, params object[]) - DebugFormat(string, params object[]) - DebugFormat(Exception, string, params object[]) - DebugFormat(IFormatProvider, string, params object[]) - DebugFormat(IFormatProvider, Exception, string, params object[]) - - The "FatalError" overloads where marked as [Obsolete], replaced by "Fatal" and "FatalFormat". - -0.0.1.0 -======= - -- Included IProxyTargetAccessor - -- Removed IMethodInterceptor and IMethodInvocation, that have been replaced - by IInterceptor and IInvocation - -- Added FindByPropertyInfo to PropertySetCollection - -- Made the DependencyModel.IsOptional property writable - -- Applied Curtis Schlak's patch fixing IOC-27 - "assembly resource format only works for resources where the assemblies name and default namespace are the same." - - Quoting: - - "I chose to preserve backwards compatibility by implementing the code in the - reverse order as suggested by the reporter. Given the following URI for a resource: - - assembly://my.cool.assembly/context/moo/file.xml - - It will initially look for an embedded resource with the manifest name of - "my.cool.assembly.context.moo.file.xml" in the loaded assembly my.cool.assembly.dll. - If it does not find it, then it looks for the embedded resource with the manifest name - of "context.moo.file.xml". - -- IServiceEnabledComponent Introduced to be used across the project as - a standard way to have access to common services, for example, logger factories - -- Added missing log factories - -- Refactor StreamLogger and DiagnosticLogger to be more consistent behavior-wise - -- Refactored WebLogger to extend LevelFilteredLogger (removed duplication) - -- Refactored LoggerLevel order - -- Project started +3.2.1 (2013-10-06) +================== +- fixed #32 - Improve configuration of SmtpClient in sync sending - contributed by Artur Dorochowicz (@ArturDorochowicz) +- fixed #31 - [DynamicProxy] Preserve DefaultValues of proxied method's parameters (in .NET 4.5) +- fixed #30 - tailoring InternalsVisibleTo message based on assembly of inaccessible type - contributed by Blair Conrad (@blairconrad) +- fixed #27 - Allow dynamic proxy of generic interfaces which have generic methods, under Mono 2.10.8 and Mono 3.0.6 - contributed by Iain Ballard (@i-e-b) +- fixed #26 - Proxy of COM class issue, reference count incremented - contributed by Jean-Claude Viau (@jcviau) +- fixed DYNPROXY-188 - CreateInterfaceProxyWithoutTarget fails with interface containing member with 'ref UIntPtr' - contributed by Pier Janssen (@Pjanssen) +- fixed DYNPROXY-186 - .Net remoting (transparent proxy) cannot be proxied - contributed by Jean-Claude Viau (@jcviau) +- fixed DYNPROXY-185 - ProxyUtil.GetUnproxiedInstance returns proxy object for ClassProxyWithTarget instead of its target - contributed by Dmitry Xlestkov (@d-s-x) + +3.2.0 (2013-02-16) +================== +- fixed DYNPROXY-179 - Exception when creating a generic proxy (from cache) +- fixed DYNPROXY-175 - invalid CompositionInvocation type used when code uses interface proxies with and without InterceptorSelector + +3.1.0 (2012-08-05) +================== +- fixed DYNPROXY-174 - Unable to cast object of type 'System.Collections.ObjectModel.ReadOnlyCollection`1[System.Reflection.CustomAttributeTypedArgument]' to type 'System.Array' + +3.1.0 RC (2012-07-08) +================== +- support multiple inheritance of DA attributes on interfaces. +- BREAKING CHANGE: removed propogate child notifications as it violated INotifyPropertyChanged contract +- improved DictionaryAdapter performance +- generalized IBindingList support for DictionaryAdapters +- added reference support to XmlAdapter +- BRAKING CHANGE: refactored XPathAdapter into XmlAdapter with much more flexibility to support other input like XLinq + +- implemented CORE-43 - Add option to skip configuring log4net/nlog + +- fixed CORE-44 - NLog logger does not preserver call site info +- fixed DYNPROXY-171 - PEVerify error on generic method definition +- fixed DYNPROXY-170 - Calls to properties inside non-intercepted methods are not forwarded to target object (regression from v2.5) +- fixed DYNPROXY-169 - Support IChangeProxyTarget on additional interfaces and mixins when using CreateInterfaceProxyWithTargetInterface + +3.0.0 (2011-12-13) +================== +no major changes since RC + +3.0.0 RC 1 (2011-11-20) +================== +- Applied Jeff Sharps patch that refactored Xml DictionaryAdapter to improve maintainability and enable more complete functionality + +- fixed DYNPROXY-165 - Object.GetType() and Object.MemberwiseClone() should be ignored and not reported as non-interceptable to IProxyGenerationHook +- fixed DYNPROXY-164 - Invalid Proxy type generated when there are more than one base class generic constraints +- fixed DYNPROXY-162 - ref or out parameters can not be passed back if proxied method throw an exception + +3.0.0 beta 1 (2011-08-14) +================== +- fixed CORE-37 - TAB characters in the XML Configuration of a component parameter is read as String.Empty +- fixed DYNPROXY-161 - Strong Named DynamicProxy Assembly Not Available in Silverligh +- fixed DYNPROXY-159 - Sorting MemberInfo array for serialization has side effects +- fixed DYNPROXY-158 - Can't create class proxy with target and without target in same ProxyGenerator +- fixed DYNPROXY-153 - When proxying a generic interface which has an interface as GenericType . No proxy can be created +- fixed DYNPROXY-151 - Cast error when using attributes + +- implemented CORE-33 - Add lazy logging +- implemented DYNPROXY-156 - Provide mechanism for interceptors to implement retry logic + +- removed obsolete members from ILogger and its implementations + +2.5.2 (2010-11-15) +================== +- fixed DYNPROXY-150 - Finalizer should not be proxied +- implemented DYNPROXY-149 - Make AllMethodsHook members virtual so it can be used as a base class +- fixed DYNPROXY-147 - Can't crete class proxies with two non-public methods having same argument types but different return type +- fixed DYNPROXY-145 Unable to proxy System.Threading.SynchronizationContext (.NET 4.0) +- fixed DYNPROXY-144 - params argument not supported in constructor +- fixed DYNPROXY-143 - Permit call to reach "non-proxied" methods of inherited interfaces +- implemented DYNPROXY-139 - Better error message +- fixed DYNPROXY-133 - Debug assertion in ClassProxyInstanceContributor fails when proxying ISerializable with an explicit implementation of GetObjectData +- fixed CORE-32 - Determining if permission is granted via PermissionUtil does not work in .NET 4 +- applied patch by Alwin Meijs - ExtendedLog4netFactory can be configured with a stream from for example an embedded log4net xml config +- Upgraded NLog to 2.0 Beta 1 +- Added DefaultXmlSerializer to bridge XPathAdapter with standard Xml Serialization. +- XPathAdapter for DictionaryAdapter added IXPathSerializer to provide hooks for custom serialization. + +2.5.1 (2010-09-21) +================== +- Interface proxy with target Interface now accepts null as a valid target value (which can be replaced at a later stage). +- DictionaryAdapter behavior overrides are now ordered with all other behaviors +- BREAKING CHANGE: removed web logger so that by default Castle.Core works in .NET 4 client profile +- added paramter to ModuleScope disabling usage of signed modules. This is to workaround issue DYNPROXY-134. Also a descriptive exception message is being thrown now when the issue is detected. +- Added IDictionaryBehaviorBuilder to allow grouping behaviors +- Added GenericDictionaryAdapter to simplify generic value sources +- fixed issue DYNPROXY-138 - Error message missing space +- fixed false positive where DynamicProxy would not let you proxy interface with target interface when target object was a COM object. +- fixed ReflectionBasedDictionaryAdapter when using indexed properties + +2.5.0 (2010-08-21) +================== +- DynamicProxy will now not replicate non-public attribute types +- Applied patch from Kenneth Siewers Møller which adds parameterless constructor to DefaultSmtpSender implementation, to be able to configure the inner SmtpClient from the application configuration file (system.net.smtp). +- added support for .NET 4 and Silverlight 4, updated solution to VisualStudio 2010 +- Removed obsolete overload of CreateClassProxy +- Added class proxy with taget +- Added ability to intercept explicitly implemented generic interface methods on class proxy. +- DynamicProxy does not disallow intercepting members of System.Object anymore. AllMethodsHook will still filter them out though. +- Added ability to intercept explicitly implemented interface members on class proxy. Does not support generic members. +- Merged DynamicProxy into Core binary +- fixed DYNPROXY-ISSUE-132 - "MetaProperty equals implementation incorrect" +- Fixed bug in DiagnosticsLoggerTestCase, where when running as non-admin, the teardown will throw SecurityException (contributed by maxild) +- Split IoC specific classes into Castle.Windsor project +- Merged logging services solution +- Merged DynamicProxy project + +1.2.0 (2010-01-11) +================== + +- Added IEmailSender interface and its default implementation + +1.2.0 beta (2009-12-04) +================== + +- BREAKING CHANGE - added ChangeProxyTarget method to IChangeProxyTarget interface +- added docs to IChangeProxyTarget methods +- Fixed DYNPROXY-ISSUE-108 - Obtaining replicated custom attributes on proxy may fail when property setter throws exception on default value +- Moved custom attribute replication from CustomAttributeUtil to new interface - IAttributeDisassembler +- Exposed IAttributeDisassembler via ProxyGenerationOptions, so that users can plug their implementation for some convoluted scenarios. (for Silverlight) +- Moved IInterceptorSelector from Dynamic Proxy to Core (IOC-ISSUE-156) + +1.1.0 (2009-05-04) +================== + +- Applied Eric Hauser's patch fixing CORE-ISSUE-22 + "Support for environment variables in resource URI" + +- Applied Gauthier Segay's patch fixing CORE-ISSUE-20 + "Castle.Core.Tests won't build via nant because it use TraceContext without referencing System.Web.dll" + +- Added simple interface to ComponentModel to make optional properties required. + +- Applied Mark's -- -- patch that changes + the Core to support being compiled for Silverlight 2 + +- Applied Louis DeJardin's patch adding TraceLogger as a new logger implementation + +- Applied Chris Bilson's patch fixing CORE-15 + "WebLogger Throws When Logging Outside of an HttpContext" + +Release Candidate 3 +=================== + +- Added IServiceProviderEx which extends IServiceProvider + +- Added Pair class. + +- Applied Bill Pierce's patch fixing CORE-9 + "Allow CastleComponent Attribute to Specify Lifestyle in Constructor" + +- Added UseSingleInterfaceProxy to CompomentModel to control the proxying + behavior while maintaining backward compatibility. + Added the corresponding ComponentProxyBehaviorAttribute. + +- Made NullLogger and IExtnededLogger + +- Enabled a new format on ILogger interface, with 6 overloads for each method: + Debug(string) + Debug(string, Exception) + Debug(string, params object[]) + DebugFormat(string, params object[]) + DebugFormat(Exception, string, params object[]) + DebugFormat(IFormatProvider, string, params object[]) + DebugFormat(IFormatProvider, Exception, string, params object[]) + + The "FatalError" overloads where marked as [Obsolete], replaced by "Fatal" and "FatalFormat". + +0.0.1.0 +======= + +- Included IProxyTargetAccessor + +- Removed IMethodInterceptor and IMethodInvocation, that have been replaced + by IInterceptor and IInvocation + +- Added FindByPropertyInfo to PropertySetCollection + +- Made the DependencyModel.IsOptional property writable + +- Applied Curtis Schlak's patch fixing IOC-27 + "assembly resource format only works for resources where the assemblies name and default namespace are the same." + + Quoting: + + "I chose to preserve backwards compatibility by implementing the code in the + reverse order as suggested by the reporter. Given the following URI for a resource: + + assembly://my.cool.assembly/context/moo/file.xml + + It will initially look for an embedded resource with the manifest name of + "my.cool.assembly.context.moo.file.xml" in the loaded assembly my.cool.assembly.dll. + If it does not find it, then it looks for the embedded resource with the manifest name + of "context.moo.file.xml". + +- IServiceEnabledComponent Introduced to be used across the project as + a standard way to have access to common services, for example, logger factories + +- Added missing log factories + +- Refactor StreamLogger and DiagnosticLogger to be more consistent behavior-wise + +- Refactored WebLogger to extend LevelFilteredLogger (removed duplication) + +- Refactored LoggerLevel order + +- Project started diff --git a/packages/Castle.Core.3.2.0/License.txt b/packages/Castle.Core.3.2.1/License.txt similarity index 97% rename from packages/Castle.Core.3.2.0/License.txt rename to packages/Castle.Core.3.2.1/License.txt index 107b1fd..a00764d 100644 --- a/packages/Castle.Core.3.2.0/License.txt +++ b/packages/Castle.Core.3.2.1/License.txt @@ -1,14 +1,14 @@ -Copyright 2004-2013 Castle Project - http://www.castleproject.org/ - -Licensed under the Apache License, Version 2.0 (the "License"); -you may not use this file except in compliance with the License. -You may obtain a copy of the License at - - http://www.apache.org/licenses/LICENSE-2.0 - -Unless required by applicable law or agreed to in writing, software -distributed under the License is distributed on an "AS IS" BASIS, -WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -See the License for the specific language governing permissions and -limitations under the License. - +Copyright 2004-2013 Castle Project - http://www.castleproject.org/ + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. + diff --git a/packages/Castle.Core.3.2.1/NuGet.exe b/packages/Castle.Core.3.2.1/NuGet.exe new file mode 100644 index 0000000..c296edf Binary files /dev/null and b/packages/Castle.Core.3.2.1/NuGet.exe differ diff --git a/packages/Castle.Core.3.2.1/lib/net35/Castle.Core.dll b/packages/Castle.Core.3.2.1/lib/net35/Castle.Core.dll new file mode 100644 index 0000000..c0940e9 Binary files /dev/null and b/packages/Castle.Core.3.2.1/lib/net35/Castle.Core.dll differ diff --git a/packages/Castle.Core.3.2.0/lib/net35/Castle.Core.xml b/packages/Castle.Core.3.2.1/lib/net35/Castle.Core.xml similarity index 98% rename from packages/Castle.Core.3.2.0/lib/net35/Castle.Core.xml rename to packages/Castle.Core.3.2.1/lib/net35/Castle.Core.xml index b20f738..6fa66c0 100644 --- a/packages/Castle.Core.3.2.0/lib/net35/Castle.Core.xml +++ b/packages/Castle.Core.3.2.1/lib/net35/Castle.Core.xml @@ -1,4754 +1,4754 @@ - - - - Castle.Core - - - - - Specifies assignment by reference rather than by copying. - - - - - Suppresses any on-demand behaviors. - - - - - Removes a property if null or empty string, guid or collection. - - - - - Removes a property if matches value. - - - - - Assigns a specific dictionary key. - - - - - Defines the contract for customizing dictionary access. - - - - - Copies the dictionary behavior. - - null if should not be copied. Otherwise copy. - - - - Determines relative order to apply related behaviors. - - - - - Defines the contract for updating dictionary values. - - - - - Sets the stored dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if the property should be stored. - - - - Contract for value matching. - - - - - Indicates that underlying values are changeable and should not be cached. - - - - - Contract for dictionary initialization. - - - - - Performs any initialization of the - - The dictionary adapter. - The dictionary behaviors. - - - - Abstract implementation of . - - - - - Conract for traversing a . - - - - - Contract for creating additional Dictionary adapters. - - - - - Contract for manipulating the Dictionary adapter. - - - - - Contract for editing the Dictionary adapter. - - - - - Contract for managing Dictionary adapter notifications. - - - - - Contract for validating Dictionary adapter. - - - - - Defines the contract for building s. - - - - - Builds the dictionary behaviors. - - - - - - Abstract adapter for the support - needed by the - - - - - Adds an element with the provided key and value to the object. - - The to use as the key of the element to add. - The to use as the value of the element to add. - An element with the same key already exists in the object. - key is null. - The is read-only.-or- The has a fixed size. - - - - Removes all elements from the object. - - The object is read-only. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - key is null. - - - - Returns an object for the object. - - - An object for the object. - - - - - Removes the element with the specified key from the object. - - The key of the element to remove. - The object is read-only.-or- The has a fixed size. - key is null. - - - - Copies the elements of the to an , starting at a particular index. - - The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. - The zero-based index in array at which copying begins. - array is null. - The type of the source cannot be cast automatically to the type of the destination array. - index is less than zero. - array is multidimensional.-or- index is equal to or greater than the length of array.-or- The number of elements in the source is greater than the available space from index to the end of the destination array. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - - - - Gets a value indicating whether the object has a fixed size. - - - true if the object has a fixed size; otherwise, false. - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets an object containing the keys of the object. - - - An object containing the keys of the object. - - - - Gets an object containing the values in the object. - - - An object containing the values in the object. - - - - Gets or sets the with the specified key. - - - - - - Gets the number of elements contained in the . - - - The number of elements contained in the . - - - - Gets a value indicating whether access to the is synchronized (thread safe). - - - true if access to the is synchronized (thread safe); otherwise, false. - - - - Gets an object that can be used to synchronize access to the . - - - An object that can be used to synchronize access to the . - - - - Provides a generic collection that supports data binding. - - - This class wraps the CLR - in order to implement the Castle-specific . - - The type of elements in the list. - - - - Initializes a new instance of the class - using default values. - - - - - Initializes a new instance of the class - with the specified list. - - - An of items - to be contained in the . - - - - - Initializes a new instance of the class - wrapping the specified instance. - - - A - to be wrapped by the . - - - - - Defines the contract for retrieving dictionary values. - - - - - Gets the effective dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if return only existing. - The effective property value. - - - - Initializes a new instance of the class - that represents a child object in a larger object graph. - - - - - - - Contract for dictionary meta-data initialization. - - - - - Initializes the given object. - - The dictionary adapter factory. - The dictionary adapter meta. - - - - - Determines whether the given behavior should be included in a new - object. - - A dictionary behavior or annotation. - True if the behavior should be included; otherwise, false. - - behaviors are always included, - regardless of the result of this method. - - - - - - Checks whether or not collection is null or empty. Assumes colleciton can be safely enumerated multiple times. - - - - - - - Constant to use when making assembly internals visible to Castle.Core - [assembly: InternalsVisibleTo(CoreInternalsVisible.ToCastleCore)] - - - - - Constant to use when making assembly internals visible to proxy types generated by DynamicProxy. Required when proxying internal types. - [assembly: InternalsVisibleTo(CoreInternalsVisible.ToDynamicProxyGenAssembly2)] - - - - - Identifies a property should be represented as a nested component. - - - - - Defines the contract for building typed dictionary keys. - - - - - Builds the specified key. - - The dictionary adapter. - The current key. - The property. - The updated key - - - - Applies no prefix. - - - - - Gets or sets the prefix. - - The prefix. - - - - Identifies the dictionary adapter types. - - - - - Identifies an interface or property to be pre-fetched. - - - - - Instructs fetching to occur. - - - - - Instructs fetching according to - - - - - - Gets whether or not fetching should occur. - - - - - Assigns a property to a group. - - - - - Constructs a group assignment. - - The group name. - - - - Constructs a group assignment. - - The group name. - - - - Gets the group the property is assigned to. - - - - - Assigns a specific dictionary key. - - - - - Initializes a new instance of the class. - - The key. - - - - Initializes a new instance of the class. - - The compound key. - - - - Assigns a prefix to the keyed properties of an interface. - - - Key prefixes are not inherited by sub-interfaces. - - - - - Initializes a default instance of the class. - - - - - Initializes a new instance of the class. - - The prefix for the keyed properties of the interface. - - - - Gets the prefix key added to the properties of the interface. - - - - - Substitutes part of key with another string. - - - - - Initializes a new instance of the class. - - The old value. - The new value. - - - - Requests support for multi-level editing. - - - - - Generates a new GUID on demand. - - - - - Support for on-demand value resolution. - - - - - Provides simple string formatting from existing properties. - - - - - Gets the string format. - - - - - Gets the format properties. - - - - - Identifies a property should be represented as a delimited string value. - - - - - Gets the separator. - - - - - Converts all properties to strings. - - - - - Gets or sets the format. - - The format. - - - - Suppress property change notifications. - - - - - Contract for property descriptor initialization. - - - - - Performs any initialization of the - - The property descriptor. - The property behaviors. - - - - Assigns a prefix to the keyed properties using the interface name. - - - - - Manages conversion between property values. - - - - - Initializes a new instance of the class. - - The converter. - - - - Gets the effective dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if return only existing. - The effective property value. - - - - - - - - - Uses Reflection.Emit to expose the properties of a dictionary - through a dynamic implementation of a typed interface. - - - - - Defines the contract for building typed dictionary adapters. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - The property descriptor. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the namedValues. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the namedValues. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the . - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the . - - The type represented by T must be an interface with properties. - - - - - Gets the associated with the type. - - The typed interface. - The adapter meta-data. - - - - Gets the associated with the type. - - The typed interface. - The property descriptor. - The adapter meta-data. - - - - Gets the associated with the type. - - The typed interface. - Another from which to copy behaviors. - The adapter meta-data. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Contract for dictionary validation. - - - - - Determines if is valid. - - The dictionary adapter. - true if valid. - - - - Validates the . - - The dictionary adapter. - The error summary information. - - - - Validates the for a property. - - The dictionary adapter. - The property to validate. - The property summary information. - - - - Invalidates any results cached by the validator. - - The dictionary adapter. - - - - - - - - - Initializes a new instance of the class. - - The name values. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - key is null. - - - - Adapts the specified name values. - - The name values. - - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets or sets the with the specified key. - - - - - - Describes a dictionary property. - - - - - Initializes an empty class. - - - - - Initializes a new instance of the class. - - The property. - The annotations. - - - - Initializes a new instance class. - - - - - Copies an existinginstance of the class. - - - - - - - Gets the key. - - The dictionary adapter. - The key. - The descriptor. - - - - - Gets the property value. - - The dictionary adapter. - The key. - The stored value. - The descriptor. - true if return only existing. - - - - - Sets the property value. - - The dictionary adapter. - The key. - The value. - The descriptor. - - - - - Adds a single behavior. - - The behavior. - - - - Adds the behaviors. - - The behaviors. - - - - Adds the behaviors. - - The behaviors. - - - - Copies the behaviors to the other - - - - - - - Copies the - - - - - - - - - - - Gets the property name. - - - - - Gets the property type. - - - - - Gets the property. - - The property. - - - - Returns true if the property is dynamic. - - - - - Gets additional state. - - - - - Determines if property should be fetched. - - - - - Determines if property must exist first. - - - - - Determines if notifications should occur. - - - - - Gets the property behaviors. - - - - - Gets the type converter. - - The type converter. - - - - Gets the extended properties. - - - - - Gets the setter. - - The setter. - - - - Gets the key builders. - - The key builders. - - - - Gets the setter. - - The setter. - - - - Gets the getter. - - The getter. - - - - Gets the initializers. - - The initializers. - - - - Gets the meta-data initializers. - - The meta-data initializers. - - - - Helper class for retrieving attributes. - - - - - Gets the attribute. - - The member. - The member attribute. - - - - Gets the attributes. Does not consider inherited attributes! - - The member. - The member attributes. - - - - Gets the type attribute. - - The type. - The type attribute. - - - - Gets the type attributes. - - The type. - The type attributes. - - - - Gets the type converter. - - The member. - - - - - Gets the attribute. - - The member. - The member attribute. - - - - Contract for typed dynamic value resolution. - - - - - - Contract for dynamic value resolution. - - - - - Supporting Logger levels. - - - - - Logging will be off - - - - - Fatal logging level - - - - - Error logging level - - - - - Warn logging level - - - - - Info logging level - - - - - Debug logging level - - - - - Encapsulates an invocation of a proxied method. - - - - - Gets the value of the argument at the specified . - - The index. - The value of the argument at the specified . - - - - Returns the concrete instantiation of the on the proxy, with any generic - parameters bound to real types. - - - The concrete instantiation of the on the proxy, or the if - not a generic method. - - - Can be slower than calling . - - - - - Returns the concrete instantiation of , with any - generic parameters bound to real types. - For interface proxies, this will point to the on the target class. - - The concrete instantiation of , or - if not a generic method. - - In debug builds this can be slower than calling . - - - - - Proceeds the call to the next interceptor in line, and ultimately to the target method. - - - Since interface proxies without a target don't have the target implementation to proceed to, - it is important, that the last interceptor does not call this method, otherwise a - will be thrown. - - - - - Overrides the value of an argument at the given with the - new provided. - - - This method accepts an , however the value provided must be compatible - with the type of the argument defined on the method, otherwise an exception will be thrown. - - The index of the argument to override. - The new value for the argument. - - - - Gets the arguments that the has been invoked with. - - The arguments the method was invoked with. - - - - Gets the generic arguments of the method. - - The generic arguments, or null if not a generic method. - - - - Gets the object on which the invocation is performed. This is different from proxy object - because most of the time this will be the proxy target object. - - - The invocation target. - - - - Gets the representing the method being invoked on the proxy. - - The representing the method being invoked. - - - - For interface proxies, this will point to the on the target class. - - The method invocation target. - - - - Gets the proxy object on which the intercepted method is invoked. - - Proxy object on which the intercepted method is invoked. - - - - Gets or sets the return value of the method. - - The return value of the method. - - - - Gets the type of the target object for the intercepted method. - - The type of the target object. - - - - Used during the target type inspection process. Implementors have a chance to customize the - proxy generation process. - - - - - Invoked by the generation process to notify that the whole process has completed. - - - - - Invoked by the generation process to notify that a member was not marked as virtual. - - The type which declares the non-virtual member. - The non-virtual member. - - This method gives an opportunity to inspect any non-proxyable member of a type that has - been requested to be proxied, and if appropriate - throw an exception to notify the caller. - - - - - Invoked by the generation process to determine if the specified method should be proxied. - - The type which declares the given method. - The method to inspect. - True if the given method should be proxied; false otherwise. - - - - Interface describing elements composing generated type - - - - - Performs some basic screening and invokes the - to select methods. - - - - - - - - - Provides functionality for disassembling instances of attributes to CustomAttributeBuilder form, during the process of emiting new types by Dynamic Proxy. - - - - - Disassembles given attribute instance back to corresponding CustomAttributeBuilder. - - An instance of attribute to disassemble - corresponding 1 to 1 to given attribute instance, or null reference. - - Implementers should return that corresponds to given attribute instance 1 to 1, - that is after calling specified constructor with specified arguments, and setting specified properties and fields with values specified - we should be able to get an attribute instance identical to the one passed in . Implementer can return null - if it wishes to opt out of replicating the attribute. Notice however, that for some cases, like attributes passed explicitly by the user - it is illegal to return null, and doing so will result in exception. - - - - - Handles error during disassembly process - - Type of the attribute being disassembled - Exception thrown during the process - usually null, or (re)throws the exception - - - - Here we try to match a constructor argument to its value. - Since we can't get the values from the assembly, we use some heuristics to get it. - a/ we first try to match all the properties on the attributes by name (case insensitive) to the argument - b/ if we fail we try to match them by property type, with some smarts about convertions (i,e: can use Guid for string). - - - - - We have the following rules here. - Try to find a matching type, failing that, if the parameter is string, get the first property (under the assumption that - we can convert it. - - - - - Attributes can only accept simple types, so we return null for null, - if the value is passed as string we call to string (should help with converting), - otherwise, we use the value as is (enums, integer, etc). - - - - - Returns list of all unique interfaces implemented given types, including their base interfaces. - - - - - - - Applied to the assemblies saved by in order to persist the cache data included in the persisted assembly. - - - - - Base class that exposes the common functionalities - to proxy generation. - - - - - It is safe to add mapping (no mapping for the interface exists) - - - - - - - - Generates a parameters constructor that initializes the proxy - state with just to make it non-null. - - This constructor is important to allow proxies to be XML serializable - - - - - - Generates the constructor for the class that extends - - - - - - - - - Default implementation of interface producing in-memory proxy assemblies. - - - - - Abstracts the implementation of proxy type construction. - - - - - Creates a proxy type for given , implementing , using provided. - - The class type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified class and interfaces. - Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type that proxies calls to members on , implementing , using provided. - - The interface type to proxy. - Additional interface types to proxy. - Type implementing on which calls to the interface members should be intercepted. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface that 'proceeds' executions to the specified target. - Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type for given and that delegates all calls to the provided interceptors and allows interceptors to switch the actual target of invocation. - - The interface type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface(s) that delegate all executions to the specified interceptors - and uses an instance of the interface as their targets (i.e. ), rather than a class. All classes should then implement interface, - to allow interceptors to switch invocation target with instance of another type implementing called interface. - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type for given that delegates all calls to the provided interceptors. - - The interface type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface and additional interfaces that delegate all executions to the specified interceptors. - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Gets or sets the that this logs to. - - - - - Gets the associated with this builder. - - The module scope associated with this builder. - - - - Initializes a new instance of the class with new . - - - - - Initializes a new instance of the class. - - The module scope for generated proxy types. - - - - Registers custom disassembler to handle disassembly of specified type of attributes. - - Type of attributes to handle - Disassembler converting existing instances of Attributes to CustomAttributeBuilders - - When disassembling an attribute Dynamic Proxy will first check if an custom disassembler has been registered to handle attributes of that type, - and if none is found, it'll use the . - - - - - Attributes should be replicated if they are non-inheritable, - but there are some special cases where the attributes means - something to the CLR, where they should be skipped. - - - - - Initializes a new instance of the class. - - Target element. This is either target type or target method for invocation types. - The type of the proxy. This is base type for invocation types. - The interfaces. - The options. - - - - Initializes a new instance of the class. - - Type of the target. - The interfaces. - The options. - - - - s - Provides appropriate Ldc.X opcode for the type of primitive value to be loaded. - - - - - Provides appropriate Ldind.X opcode for - the type of primitive value to be loaded indirectly. - - - - - Emits a load indirect opcode of the appropriate type for a value or object reference. - Pops a pointer off the evaluation stack, dereferences it and loads - a value of the specified type. - - - - - - - Emits a load opcode of the appropriate kind for a constant string or - primitive value. - - - - - - - Emits a load opcode of the appropriate kind for the constant default value of a - type, such as 0 for value types and null for reference types. - - - - - Emits a store indirectopcode of the appropriate type for a value or object reference. - Pops a value of the specified type and a pointer off the evaluation stack, and - stores the value. - - - - - - - Summary description for PropertiesCollection. - - - - - Wraps a reference that is passed - ByRef and provides indirect load/store support. - - - - - Summary description for NewArrayExpression. - - - - - - - - - Provides appropriate Stind.X opcode - for the type of primitive value to be stored indirectly. - - - - - Initializes a new instance of the class. - - The name. - Type declaring the original event being overriten, or null. - - The add method. - The remove method. - The attributes. - - - - Represents the scope of uniquenes of names for types and their members - - - - - Gets a unique name based on - - Name suggested by the caller - Unique name based on . - - Implementers should provide name as closely resembling as possible. - Generally if no collision occurs it is suggested to return suggested name, otherwise append sequential suffix. - Implementers must return deterministic names, that is when is called twice - with the same suggested name, the same returned name should be provided each time. Non-deterministic return - values, like appending random suffices will break serialization of proxies. - - - - - Returns new, disposable naming scope. It is responsibilty of the caller to make sure that no naming collision - with enclosing scope, or other subscopes is possible. - - New naming scope. - - - - Returns the methods implemented by a type. Use this instead of Type.GetMethods() to work around a CLR issue - where duplicate MethodInfos are returned by Type.GetMethods() after a token of a generic type's method was loaded. - - - - - Determines whether the specified method is internal. - - The method. - - true if the specified method is internal; otherwise, false. - - - - - Determines whether this assembly has internals visible to dynamic proxy. - - The assembly to inspect. - - - - Checks if the method is public or protected. - - - - - - - Because we need to cache the types based on the mixed in mixins, we do the following here: - - Get all the mixin interfaces - - Sort them by full name - - Return them by position - - The idea is to have reproducible behavior for the case that mixins are registered in different orders. - This method is here because it is required - - - - - Summary description for ModuleScope. - - - - - The default file name used when the assembly is saved using . - - - - - The default assembly (simple) name used for the assemblies generated by a instance. - - - - - Initializes a new instance of the class; assemblies created by this instance will not be saved. - - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved. - - If set to true saves the generated module. - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved and what simple names are to be assigned to them. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - The simple name of the strong-named assembly generated by this . - The path and file name of the manifest module of the strong-named assembly generated by this . - The simple name of the weak-named assembly generated by this . - The path and file name of the manifest module of the weak-named assembly generated by this . - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved and what simple names are to be assigned to them. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - Naming scope used to provide unique names to generated types and their members (usually via sub-scopes). - The simple name of the strong-named assembly generated by this . - The path and file name of the manifest module of the strong-named assembly generated by this . - The simple name of the weak-named assembly generated by this . - The path and file name of the manifest module of the weak-named assembly generated by this . - - - - Returns a type from this scope's type cache, or null if the key cannot be found. - - The key to be looked up in the cache. - The type from this scope's type cache matching the key, or null if the key cannot be found - - - - Registers a type in this scope's type cache. - - The key to be associated with the type. - The type to be stored in the cache. - - - - Gets the key pair used to sign the strong-named assembly generated by this . - - - - - - Gets the specified module generated by this scope, creating a new one if none has yet been generated. - - If set to true, a strong-named module is returned; otherwise, a weak-named module is returned. - A strong-named or weak-named module generated by this scope, as specified by the parameter. - - - - Gets the strong-named module generated by this scope, creating a new one if none has yet been generated. - - A strong-named module generated by this scope. - - - - Gets the weak-named module generated by this scope, creating a new one if none has yet been generated. - - A weak-named module generated by this scope. - - - - Saves the generated assembly with the name and directory information given when this instance was created (or with - the and current directory if none was given). - - - - This method stores the generated assembly in the directory passed as part of the module information specified when this instance was - constructed (if any, else the current directory is used). If both a strong-named and a weak-named assembly - have been generated, it will throw an exception; in this case, use the overload. - - - If this was created without indicating that the assembly should be saved, this method does nothing. - - - Both a strong-named and a weak-named assembly have been generated. - The path of the generated assembly file, or null if no file has been generated. - - - - Saves the specified generated assembly with the name and directory information given when this instance was created - (or with the and current directory if none was given). - - True if the generated assembly with a strong name should be saved (see ); - false if the generated assembly without a strong name should be saved (see . - - - This method stores the specified generated assembly in the directory passed as part of the module information specified when this instance was - constructed (if any, else the current directory is used). - - - If this was created without indicating that the assembly should be saved, this method does nothing. - - - No assembly has been generated that matches the parameter. - - The path of the generated assembly file, or null if no file has been generated. - - - - Loads the generated types from the given assembly into this 's cache. - - The assembly to load types from. This assembly must have been saved via or - , or it must have the manually applied. - - This method can be used to load previously generated and persisted proxy types from disk into this scope's type cache, eg. in order - to avoid the performance hit associated with proxy generation. - - - - - Users of this should use this lock when accessing the cache. - - - - - Gets the strong-named module generated by this scope, or if none has yet been generated. - - The strong-named module generated by this scope, or if none has yet been generated. - - - - Gets the file name of the strongly named module generated by this scope. - - The file name of the strongly named module generated by this scope. - - - - Gets the directory where the strongly named module generated by this scope will be saved, or if the current directory - is used. - - The directory where the strongly named module generated by this scope will be saved when is called - (if this scope was created to save modules). - - - - Gets the weak-named module generated by this scope, or if none has yet been generated. - - The weak-named module generated by this scope, or if none has yet been generated. - - - - Gets the file name of the weakly named module generated by this scope. - - The file name of the weakly named module generated by this scope. - - - - Gets the directory where the weakly named module generated by this scope will be saved, or if the current directory - is used. - - The directory where the weakly named module generated by this scope will be saved when is called - (if this scope was created to save modules). - - - - ProxyBuilder that persists the generated type. - - - The saved assembly contains just the last generated type. - - - - - Initializes a new instance of the class. - - - - - Saves the generated assembly to a physical file. Note that this renders the unusable. - - The path of the generated assembly file, or null if no assembly has been generated. - - This method does not support saving multiple files. If both a signed and an unsigned module have been generated, use the - respective methods of the . - - - - - Initializes a new instance of the class. - - The hook. - - - - Initializes a new instance of the class. - - - - - Provides proxy objects for classes and interfaces. - - - - - Initializes a new instance of the class. - - Proxy types builder. - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - If true forces all types to be generated into an unsigned module. - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - Object proxying calls to members of on object. - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no parameterless constructor exists on type . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no parameterless constructor exists on type . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates the proxy type for class proxy with given class, implementing given and using provided . - - The base class for proxy type. - The interfaces that proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy with target for given interface, implementing given on given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - Actual type that the proxy type will encompass. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy with target interface for given interface, implementing given on given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy without target for given interface, implementing given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Gets or sets the that this log to. - - - - - Gets the proxy builder instance used to generate proxy types. - - The proxy builder. - - - - - - - - - - - - - For interface proxies, this will point to the - on the target class - - - - - Handles the deserialization of proxies. - - - - - Resets the used for deserialization to a new scope. - - - This is useful for test cases. - - - - - Resets the used for deserialization to a given . - - The scope to be used for deserialization. - - By default, the deserialization process uses a different scope than the rest of the application, which can lead to multiple proxies - being generated for the same type. By explicitly setting the deserialization scope to the application's scope, this can be avoided. - - - - - Gets the used for deserialization. - - As has no way of automatically determining the scope used by the application (and the application might use more than one scope at the same time), uses a dedicated scope instance for deserializing proxy types. This instance can be reset and set to a specific value via and . - - - - Holds objects representing methods of class. - - - - - Holds objects representing methods of class. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Provides an extension point that allows proxies to choose specific interceptors on - a per method basis. - - - - - Selects the interceptors that should intercept calls to the given . - - The type declaring the method to intercept. - The method that will be intercepted. - All interceptors registered with the proxy. - An array of interceptors to invoke upon calling the . - - This method is called only once per proxy instance, upon the first call to the - . Either an empty array or null are valid return values to indicate - that no interceptor should intercept calls to the method. Although it is not advised, it is - legal to return other implementations than these provided in - . - - - - - Creates a new lock. - - - - - - This interface should be implemented by classes - that are available in a bigger context, exposing - the container to different areas in the same application. - - For example, in Web application, the (global) HttpApplication - subclasses should implement this interface to expose - the configured container - - - - - - Exposes means to change target objects of proxies and invocations - - - - - Changes the target object () of current . - - The new value of target of invocation. - - Although the method takes the actual instance must be of type assignable to , otherwise an will be thrown. - Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. - In this case last interceptor in the pipeline mustn't call or a will be throws. - Also while it's technically legal to pass proxy itself as , this would create stack overflow. - In this case last interceptor in the pipeline mustn't call or a will be throws. - - Thrown when is not assignable to the proxied type. - - - - Permanently changes the target object of the proxy. This does not affect target of the current invocation. - - The new value of target of the proxy. - - Although the method takes the actual instance must be of type assignable to proxy's target type, otherwise an will be thrown. - Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. - In this case last interceptor in the pipeline mustn't call or a will be throws. - Also while it's technically legal to pass proxy itself as , this would create stack overflow. - In this case last interceptor in the pipeline mustn't call or a will be throws. - - Thrown when is not assignable to the proxied type. - - - - New interface that is going to be used by DynamicProxy 2 - - - - - Get the proxy target (note that null is a valid target!) - - - - - - Gets the interceptors for the proxy - - - - - - Defines that the implementation wants a - in order to - access other components. The creator must be aware - that the component might (or might not) implement - the interface. - - - Used by Castle Project components to, for example, - gather logging factories - - - - - Increments IServiceProvider with a generic service resolution operation. - - - - - Provides a factory that can produce either or - classes. - - - - - Manages the instantiation of s. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Gets the configuration file. - - i.e. log4net.config - - - - - Used to create the TraceLogger implementation of ILogger interface. See . - - - - - Gets the configuration file. - - i.e. log4net.config - - - - - Interface for Context Properties implementations - - - - This interface defines a basic property get set accessor. - - - Based on the ContextPropertiesBase of log4net, by Nicko Cadell. - - - - - - Gets or sets the value of a property - - - The value for the property with the specified key - - - - Gets or sets the value of a property - - - - - - NullLogFactory used when logging is turned off. - - - - - Creates an instance of ILogger with the specified name. - - Name. - - - - - Creates an instance of ILogger with the specified name and LoggerLevel. - - Name. - Level. - - - - - Creates outputing - to files. The name of the file is derived from the log name - plus the 'log' extension. - - - - - Provides an interface that supports and - allows the storage and retrieval of Contexts. These are supported in - both log4net and NLog. - - - - - Manages logging. - - - This is a facade for the different logging subsystems. - It offers a simplified interface that follows IOC patterns - and a simplified priority/level/severity abstraction. - - - - - Create a new child logger. - The name of the child logger is [current-loggers-name].[passed-in-name] - - The Subname of this logger. - The New ILogger instance. - If the name has an empty element name. - - - - Logs a debug message. - - The message to log - - - - Logs a debug message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a debug message. - - The exception to log - The message to log - - - - Logs a debug message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The message to log - - - - Logs an error message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs an error message. - - The exception to log - The message to log - - - - Logs an error message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The message to log - - - - Logs a fatal message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a fatal message. - - The exception to log - The message to log - - - - Logs a fatal message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The message to log - - - - Logs a info message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs an info message. - - The exception to log - The message to log - - - - Logs an info message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The message to log - - - - Logs a warn message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a warn message. - - The exception to log - The message to log - - - - Logs a warn message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Determines if messages of priority "debug" will be logged. - - True if "debug" messages will be logged. - - - - Determines if messages of priority "error" will be logged. - - True if "error" messages will be logged. - - - - Determines if messages of priority "fatal" will be logged. - - True if "fatal" messages will be logged. - - - - Determines if messages of priority "info" will be logged. - - True if "info" messages will be logged. - - - - Determines if messages of priority "warn" will be logged. - - True if "warn" messages will be logged. - - - - Exposes the Global Context of the extended logger. - - - - - Exposes the Thread Context of the extended logger. - - - - - Exposes the Thread Stack of the extended logger. - - - - - The Logger sending everything to the standard output streams. - This is mainly for the cases when you have a utility that - does not have a logger to supply. - - - - - The Level Filtered Logger class. This is a base clase which - provides a LogLevel attribute and reroutes all functions into - one Log method. - - - - - Creates a new LevelFilteredLogger. - - - - - Keep the instance alive in a remoting scenario - - - - - - Logs a debug message. - - The message to log - - - - Logs a debug message. - - The exception to log - The message to log - - - - Logs a debug message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The message to log - - - - Logs an info message. - - The exception to log - The message to log - - - - Logs an info message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The message to log - - - - Logs a warn message. - - The exception to log - The message to log - - - - Logs a warn message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The message to log - - - - Logs an error message. - - The exception to log - The message to log - - - - Logs an error message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The message to log - - - - Logs a fatal message. - - The exception to log - The message to log - - - - Logs a fatal message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Implementors output the log content by implementing this method only. - Note that exception can be null - - - - - - - - - The LoggerLevel that this logger - will be using. Defaults to LoggerLevel.Off - - - - - The name that this logger will be using. - Defaults to String.Empty - - - - - Determines if messages of priority "debug" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "info" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "warn" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "error" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "fatal" will be logged. - - true if log level flags include the bit - - - - Creates a new ConsoleLogger with the Level - set to LoggerLevel.Debug and the Name - set to String.Empty. - - - - - Creates a new ConsoleLogger with the Name - set to String.Empty. - - The logs Level. - - - - Creates a new ConsoleLogger with the Level - set to LoggerLevel.Debug. - - The logs Name. - - - - Creates a new ConsoleLogger. - - The logs Name. - The logs Level. - - - - A Common method to log. - - The level of logging - The name of the logger - The Message - The Exception - - - - Returns a new ConsoleLogger with the name - added after this loggers name, with a dot in between. - - The added hierarchical name. - A new ConsoleLogger. - - - - The Logger using standart Diagnostics namespace. - - - - - Creates a logger based on . - - - - - - Creates a logger based on . - - - - - - - Creates a logger based on . - - - - - - - - The Null Logger class. This is useful for implementations where you need - to provide a logger to a utility class, but do not want any output from it. - It also helps when you have a utility that does not have a logger to supply. - - - - - Returns this NullLogger. - - Ignored - This ILogger instance. - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - Returns empty context properties. - - - - - Returns empty context properties. - - - - - Returns empty context stacks. - - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - The Stream Logger class. This class can stream log information - to any stream, it is suitable for storing a log file to disk, - or to a MemoryStream for testing your components. - - - This logger is not thread safe. - - - - - Creates a new StreamLogger with default encoding - and buffer size. Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - - - Creates a new StreamLogger with default buffer size. - Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - The encoding that will be used for this stream. - - - - - - Creates a new StreamLogger. - Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - The encoding that will be used for this stream. - - - - The buffer size that will be used for this stream. - - - - - - Creates a new StreamLogger with - Debug as default Level. - - The name of the log. - The StreamWriter the log will write to. - - - - The TraceLogger sends all logging to the System.Diagnostics.TraceSource - built into the .net framework. - - - Logging can be configured in the system.diagnostics configuration - section. - - If logger doesn't find a source name with a full match it will - use source names which match the namespace partially. For example you can - configure from all castle components by adding a source name with the - name "Castle". - - If no portion of the namespace matches the source named "Default" will - be used. - - - - - Build a new trace logger based on the named TraceSource - - The name used to locate the best TraceSource. In most cases comes from the using type's fullname. - - - - Build a new trace logger based on the named TraceSource - - The name used to locate the best TraceSource. In most cases comes from the using type's fullname. - The default logging level at which this source should write messages. In almost all cases this - default value will be overridden in the config file. - - - - Create a new child logger. - The name of the child logger is [current-loggers-name].[passed-in-name] - - The Subname of this logger. - The New ILogger instance. - - - - This is an abstract implementation - that deals with methods that can be abstracted away - from underlying implementations. - - - AbstractConfiguration makes easier to implementers - to create a new version of - - - - - is a interface encapsulating a configuration node - used to retrieve configuration values. - - - - - Gets the value of the node and converts it - into specified . - - The - - The Default value returned if the conversion fails. - - The Value converted into the specified type. - - - - Gets the name of the node. - - - The Name of the node. - - - - - Gets the value of the node. - - - The Value of the node. - - - - - Gets an of - elements containing all node children. - - The Collection of child nodes. - - - - Gets an of the configuration attributes. - - - - - Gets the value of the node and converts it - into specified . - - The - - The Default value returned if the conversion fails. - - The Value converted into the specified type. - - - - Gets node attributes. - - - All attributes of the node. - - - - - Gets all child nodes. - - The of child nodes. - - - - Gets the name of the . - - - The Name of the . - - - - - Gets the value of . - - - The Value of the . - - - - - A collection of objects. - - - - - Creates a new instance of ConfigurationCollection. - - - - - Creates a new instance of ConfigurationCollection. - - - - - Summary description for MutableConfiguration. - - - - - Initializes a new instance of the class. - - The name. - - - - Gets the value of . - - - The Value of the . - - - - - Deserializes the specified node into an abstract representation of configuration. - - The node. - - - - - If a config value is an empty string we return null, this is to keep - backward compatibility with old code - - - - - General purpose class to represent a standard pair of values. - - Type of the first value - Type of the second value - - - - Constructs a pair with its values - - - - - - - List of utility methods related to dynamic proxy operations - - - - - Determines whether the specified type is a proxy generated by - DynamicProxy (1 or 2). - - The type. - - true if it is a proxy; otherwise, false. - - - - - Readonly implementation of which uses an anonymous object as its source. Uses names of properties as keys, and property values as... well - values. Keys are not case sensitive. - - - - - Initializes a new instance of the class. - - The target. - - - - Adds an element with the provided key and value to the object. - - The to use as the key of the element to add. - The to use as the value of the element to add. - - is null. - An element with the same key already exists in the object. - The is read-only.-or- The has a fixed size. - - - - Removes all elements from the object. - - The object is read-only. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - - is null. - - - - Removes the element with the specified key from the object. - - The key of the element to remove. - - is null. - The object is read-only.-or- The has a fixed size. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - - - - Copies the elements of the to an , starting at a particular index. - - The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. - The zero-based index in at which copying begins. - - is null. - - is less than zero. - - is multidimensional.-or- is equal to or greater than the length of .-or- The number of elements in the source is greater than the available space from to the end of the destination . - The type of the source cannot be cast automatically to the type of the destination . - - - - Returns an object for the object. - - - An object for the object. - - - - - Reads values of properties from and inserts them into using property names as keys. - - - - - - - Gets the number of elements contained in the . - - - The number of elements contained in the . - - - - Gets a value indicating whether access to the is synchronized (thread safe). - - - true if access to the is synchronized (thread safe); otherwise, false. - - - - Gets an object that can be used to synchronize access to the . - - - An object that can be used to synchronize access to the . - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets or sets the with the specified key. - - - - - - Gets an object containing the keys of the object. - - - An object containing the keys of the object. - - - - Gets an object containing the values in the object. - - - An object containing the values in the object. - - - - Gets a value indicating whether the object has a fixed size. - - - true if the object has a fixed size; otherwise, false. - - - - Represents a 'streamable' resource. Can - be a file, a resource in an assembly. - - - - - Returns a reader for the stream - - - It's up to the caller to dispose the reader. - - - - - - Returns a reader for the stream - - - It's up to the caller to dispose the reader. - - - - - - - Returns an instance of - created according to the relativePath - using itself as the root. - - - - - - - - - - Only valid for resources that - can be obtained through relative paths - - - - - - - - - - This returns a new stream instance each time it is called. - It is the responsibility of the caller to dispose of this stream - - - - - Depicts the contract for resource factories. - - - - - Used to check whether the resource factory - is able to deal with the given resource - identifier. - - - Implementors should return true - only if the given identifier is supported - by the resource factory - - - - - - - Creates an instance - for the given resource identifier - - - - - - - Creates an instance - for the given resource identifier - - - - - - - - - - - - - - - - - - Adapts a static string content as an - - - - - Enable access to files on network shares - - - - - Email sender abstraction. - - - - - Sends a mail message. - - From field - To field - E-mail's subject - message's body - - - - Sends a message. - - Message instance - - - - Sends multiple messages. - - List of messages - - - - Default implementation. - - - - - Initializes a new instance of the class based on the configuration provided in the application configuration file. - - - This constructor is based on the default configuration in the application configuration file. - - - - - This service implementation - requires a host name in order to work - - The smtp server name - - - - Sends a message. - - If any of the parameters is null - From field - To field - e-mail's subject - message's body - - - - Sends a message. - - If the message is null - Message instance - - - - Configures the sender - with port information and eventual credential - informed - - Message instance - - - - Gets or sets the port used to - access the SMTP server - - - - - Gets the hostname. - - The hostname. - - - - Gets or sets a value which is used to - configure if emails are going to be sent asynchronously or not. - - - - - Gets or sets a value that specifies - the amount of time after which a synchronous Send call times out. - - - - - Gets or sets a value indicating whether the email should be sent using - a secure communication channel. - - true if should use SSL; otherwise, false. - - - - Gets or sets the domain. - - The domain. - - - - Gets or sets the name of the user. - - The name of the user. - - - - Gets or sets the password. - - The password. - - - - Gets a value indicating whether credentials were informed. - - - if this instance has credentials; otherwise, . - - - - + + + + Castle.Core + + + + + Specifies assignment by reference rather than by copying. + + + + + Suppresses any on-demand behaviors. + + + + + Removes a property if null or empty string, guid or collection. + + + + + Removes a property if matches value. + + + + + Assigns a specific dictionary key. + + + + + Defines the contract for customizing dictionary access. + + + + + Copies the dictionary behavior. + + null if should not be copied. Otherwise copy. + + + + Determines relative order to apply related behaviors. + + + + + Defines the contract for updating dictionary values. + + + + + Sets the stored dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if the property should be stored. + + + + Contract for value matching. + + + + + Indicates that underlying values are changeable and should not be cached. + + + + + Contract for dictionary initialization. + + + + + Performs any initialization of the + + The dictionary adapter. + The dictionary behaviors. + + + + Abstract implementation of . + + + + + Conract for traversing a . + + + + + Contract for creating additional Dictionary adapters. + + + + + Contract for manipulating the Dictionary adapter. + + + + + Contract for editing the Dictionary adapter. + + + + + Contract for managing Dictionary adapter notifications. + + + + + Contract for validating Dictionary adapter. + + + + + Defines the contract for building s. + + + + + Builds the dictionary behaviors. + + + + + + Abstract adapter for the support + needed by the + + + + + Adds an element with the provided key and value to the object. + + The to use as the key of the element to add. + The to use as the value of the element to add. + An element with the same key already exists in the object. + key is null. + The is read-only.-or- The has a fixed size. + + + + Removes all elements from the object. + + The object is read-only. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + key is null. + + + + Returns an object for the object. + + + An object for the object. + + + + + Removes the element with the specified key from the object. + + The key of the element to remove. + The object is read-only.-or- The has a fixed size. + key is null. + + + + Copies the elements of the to an , starting at a particular index. + + The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. + The zero-based index in array at which copying begins. + array is null. + The type of the source cannot be cast automatically to the type of the destination array. + index is less than zero. + array is multidimensional.-or- index is equal to or greater than the length of array.-or- The number of elements in the source is greater than the available space from index to the end of the destination array. + + + + Returns an enumerator that iterates through a collection. + + + An object that can be used to iterate through the collection. + + + + + Gets a value indicating whether the object has a fixed size. + + + true if the object has a fixed size; otherwise, false. + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets an object containing the keys of the object. + + + An object containing the keys of the object. + + + + Gets an object containing the values in the object. + + + An object containing the values in the object. + + + + Gets or sets the with the specified key. + + + + + + Gets the number of elements contained in the . + + + The number of elements contained in the . + + + + Gets a value indicating whether access to the is synchronized (thread safe). + + + true if access to the is synchronized (thread safe); otherwise, false. + + + + Gets an object that can be used to synchronize access to the . + + + An object that can be used to synchronize access to the . + + + + Provides a generic collection that supports data binding. + + + This class wraps the CLR + in order to implement the Castle-specific . + + The type of elements in the list. + + + + Initializes a new instance of the class + using default values. + + + + + Initializes a new instance of the class + with the specified list. + + + An of items + to be contained in the . + + + + + Initializes a new instance of the class + wrapping the specified instance. + + + A + to be wrapped by the . + + + + + Defines the contract for retrieving dictionary values. + + + + + Gets the effective dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if return only existing. + The effective property value. + + + + Initializes a new instance of the class + that represents a child object in a larger object graph. + + + + + + + Contract for dictionary meta-data initialization. + + + + + Initializes the given object. + + The dictionary adapter factory. + The dictionary adapter meta. + + + + + Determines whether the given behavior should be included in a new + object. + + A dictionary behavior or annotation. + True if the behavior should be included; otherwise, false. + + behaviors are always included, + regardless of the result of this method. + + + + + + Checks whether or not collection is null or empty. Assumes colleciton can be safely enumerated multiple times. + + + + + + + Constant to use when making assembly internals visible to Castle.Core + [assembly: InternalsVisibleTo(CoreInternalsVisible.ToCastleCore)] + + + + + Constant to use when making assembly internals visible to proxy types generated by DynamicProxy. Required when proxying internal types. + [assembly: InternalsVisibleTo(CoreInternalsVisible.ToDynamicProxyGenAssembly2)] + + + + + Identifies a property should be represented as a nested component. + + + + + Defines the contract for building typed dictionary keys. + + + + + Builds the specified key. + + The dictionary adapter. + The current key. + The property. + The updated key + + + + Applies no prefix. + + + + + Gets or sets the prefix. + + The prefix. + + + + Identifies the dictionary adapter types. + + + + + Identifies an interface or property to be pre-fetched. + + + + + Instructs fetching to occur. + + + + + Instructs fetching according to + + + + + + Gets whether or not fetching should occur. + + + + + Assigns a property to a group. + + + + + Constructs a group assignment. + + The group name. + + + + Constructs a group assignment. + + The group name. + + + + Gets the group the property is assigned to. + + + + + Assigns a specific dictionary key. + + + + + Initializes a new instance of the class. + + The key. + + + + Initializes a new instance of the class. + + The compound key. + + + + Assigns a prefix to the keyed properties of an interface. + + + Key prefixes are not inherited by sub-interfaces. + + + + + Initializes a default instance of the class. + + + + + Initializes a new instance of the class. + + The prefix for the keyed properties of the interface. + + + + Gets the prefix key added to the properties of the interface. + + + + + Substitutes part of key with another string. + + + + + Initializes a new instance of the class. + + The old value. + The new value. + + + + Requests support for multi-level editing. + + + + + Generates a new GUID on demand. + + + + + Support for on-demand value resolution. + + + + + Provides simple string formatting from existing properties. + + + + + Gets the string format. + + + + + Gets the format properties. + + + + + Identifies a property should be represented as a delimited string value. + + + + + Gets the separator. + + + + + Converts all properties to strings. + + + + + Gets or sets the format. + + The format. + + + + Suppress property change notifications. + + + + + Contract for property descriptor initialization. + + + + + Performs any initialization of the + + The property descriptor. + The property behaviors. + + + + Assigns a prefix to the keyed properties using the interface name. + + + + + Manages conversion between property values. + + + + + Initializes a new instance of the class. + + The converter. + + + + Gets the effective dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if return only existing. + The effective property value. + + + + + + + + + Uses Reflection.Emit to expose the properties of a dictionary + through a dynamic implementation of a typed interface. + + + + + Defines the contract for building typed dictionary adapters. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + The property descriptor. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the namedValues. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the namedValues. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the . + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the . + + The type represented by T must be an interface with properties. + + + + + Gets the associated with the type. + + The typed interface. + The adapter meta-data. + + + + Gets the associated with the type. + + The typed interface. + The property descriptor. + The adapter meta-data. + + + + Gets the associated with the type. + + The typed interface. + Another from which to copy behaviors. + The adapter meta-data. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Contract for dictionary validation. + + + + + Determines if is valid. + + The dictionary adapter. + true if valid. + + + + Validates the . + + The dictionary adapter. + The error summary information. + + + + Validates the for a property. + + The dictionary adapter. + The property to validate. + The property summary information. + + + + Invalidates any results cached by the validator. + + The dictionary adapter. + + + + + + + + + Initializes a new instance of the class. + + The name values. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + key is null. + + + + Adapts the specified name values. + + The name values. + + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets or sets the with the specified key. + + + + + + Describes a dictionary property. + + + + + Initializes an empty class. + + + + + Initializes a new instance of the class. + + The property. + The annotations. + + + + Initializes a new instance class. + + + + + Copies an existinginstance of the class. + + + + + + + Gets the key. + + The dictionary adapter. + The key. + The descriptor. + + + + + Gets the property value. + + The dictionary adapter. + The key. + The stored value. + The descriptor. + true if return only existing. + + + + + Sets the property value. + + The dictionary adapter. + The key. + The value. + The descriptor. + + + + + Adds a single behavior. + + The behavior. + + + + Adds the behaviors. + + The behaviors. + + + + Adds the behaviors. + + The behaviors. + + + + Copies the behaviors to the other + + + + + + + Copies the + + + + + + + + + + + Gets the property name. + + + + + Gets the property type. + + + + + Gets the property. + + The property. + + + + Returns true if the property is dynamic. + + + + + Gets additional state. + + + + + Determines if property should be fetched. + + + + + Determines if property must exist first. + + + + + Determines if notifications should occur. + + + + + Gets the property behaviors. + + + + + Gets the type converter. + + The type converter. + + + + Gets the extended properties. + + + + + Gets the setter. + + The setter. + + + + Gets the key builders. + + The key builders. + + + + Gets the setter. + + The setter. + + + + Gets the getter. + + The getter. + + + + Gets the initializers. + + The initializers. + + + + Gets the meta-data initializers. + + The meta-data initializers. + + + + Helper class for retrieving attributes. + + + + + Gets the attribute. + + The member. + The member attribute. + + + + Gets the attributes. Does not consider inherited attributes! + + The member. + The member attributes. + + + + Gets the type attribute. + + The type. + The type attribute. + + + + Gets the type attributes. + + The type. + The type attributes. + + + + Gets the type converter. + + The member. + + + + + Gets the attribute. + + The member. + The member attribute. + + + + Contract for typed dynamic value resolution. + + + + + + Contract for dynamic value resolution. + + + + + Supporting Logger levels. + + + + + Logging will be off + + + + + Fatal logging level + + + + + Error logging level + + + + + Warn logging level + + + + + Info logging level + + + + + Debug logging level + + + + + Encapsulates an invocation of a proxied method. + + + + + Gets the value of the argument at the specified . + + The index. + The value of the argument at the specified . + + + + Returns the concrete instantiation of the on the proxy, with any generic + parameters bound to real types. + + + The concrete instantiation of the on the proxy, or the if + not a generic method. + + + Can be slower than calling . + + + + + Returns the concrete instantiation of , with any + generic parameters bound to real types. + For interface proxies, this will point to the on the target class. + + The concrete instantiation of , or + if not a generic method. + + In debug builds this can be slower than calling . + + + + + Proceeds the call to the next interceptor in line, and ultimately to the target method. + + + Since interface proxies without a target don't have the target implementation to proceed to, + it is important, that the last interceptor does not call this method, otherwise a + will be thrown. + + + + + Overrides the value of an argument at the given with the + new provided. + + + This method accepts an , however the value provided must be compatible + with the type of the argument defined on the method, otherwise an exception will be thrown. + + The index of the argument to override. + The new value for the argument. + + + + Gets the arguments that the has been invoked with. + + The arguments the method was invoked with. + + + + Gets the generic arguments of the method. + + The generic arguments, or null if not a generic method. + + + + Gets the object on which the invocation is performed. This is different from proxy object + because most of the time this will be the proxy target object. + + + The invocation target. + + + + Gets the representing the method being invoked on the proxy. + + The representing the method being invoked. + + + + For interface proxies, this will point to the on the target class. + + The method invocation target. + + + + Gets the proxy object on which the intercepted method is invoked. + + Proxy object on which the intercepted method is invoked. + + + + Gets or sets the return value of the method. + + The return value of the method. + + + + Gets the type of the target object for the intercepted method. + + The type of the target object. + + + + Used during the target type inspection process. Implementors have a chance to customize the + proxy generation process. + + + + + Invoked by the generation process to notify that the whole process has completed. + + + + + Invoked by the generation process to notify that a member was not marked as virtual. + + The type which declares the non-virtual member. + The non-virtual member. + + This method gives an opportunity to inspect any non-proxyable member of a type that has + been requested to be proxied, and if appropriate - throw an exception to notify the caller. + + + + + Invoked by the generation process to determine if the specified method should be proxied. + + The type which declares the given method. + The method to inspect. + True if the given method should be proxied; false otherwise. + + + + Interface describing elements composing generated type + + + + + Performs some basic screening and invokes the + to select methods. + + + + + + + + + Provides functionality for disassembling instances of attributes to CustomAttributeBuilder form, during the process of emiting new types by Dynamic Proxy. + + + + + Disassembles given attribute instance back to corresponding CustomAttributeBuilder. + + An instance of attribute to disassemble + corresponding 1 to 1 to given attribute instance, or null reference. + + Implementers should return that corresponds to given attribute instance 1 to 1, + that is after calling specified constructor with specified arguments, and setting specified properties and fields with values specified + we should be able to get an attribute instance identical to the one passed in . Implementer can return null + if it wishes to opt out of replicating the attribute. Notice however, that for some cases, like attributes passed explicitly by the user + it is illegal to return null, and doing so will result in exception. + + + + + Handles error during disassembly process + + Type of the attribute being disassembled + Exception thrown during the process + usually null, or (re)throws the exception + + + + Here we try to match a constructor argument to its value. + Since we can't get the values from the assembly, we use some heuristics to get it. + a/ we first try to match all the properties on the attributes by name (case insensitive) to the argument + b/ if we fail we try to match them by property type, with some smarts about convertions (i,e: can use Guid for string). + + + + + We have the following rules here. + Try to find a matching type, failing that, if the parameter is string, get the first property (under the assumption that + we can convert it. + + + + + Attributes can only accept simple types, so we return null for null, + if the value is passed as string we call to string (should help with converting), + otherwise, we use the value as is (enums, integer, etc). + + + + + Returns list of all unique interfaces implemented given types, including their base interfaces. + + + + + + + Applied to the assemblies saved by in order to persist the cache data included in the persisted assembly. + + + + + Base class that exposes the common functionalities + to proxy generation. + + + + + It is safe to add mapping (no mapping for the interface exists) + + + + + + + + Generates a parameters constructor that initializes the proxy + state with just to make it non-null. + + This constructor is important to allow proxies to be XML serializable + + + + + + Generates the constructor for the class that extends + + + + + + + + + Default implementation of interface producing in-memory proxy assemblies. + + + + + Abstracts the implementation of proxy type construction. + + + + + Creates a proxy type for given , implementing , using provided. + + The class type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified class and interfaces. + Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type that proxies calls to members on , implementing , using provided. + + The interface type to proxy. + Additional interface types to proxy. + Type implementing on which calls to the interface members should be intercepted. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface that 'proceeds' executions to the specified target. + Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type for given and that delegates all calls to the provided interceptors and allows interceptors to switch the actual target of invocation. + + The interface type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface(s) that delegate all executions to the specified interceptors + and uses an instance of the interface as their targets (i.e. ), rather than a class. All classes should then implement interface, + to allow interceptors to switch invocation target with instance of another type implementing called interface. + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type for given that delegates all calls to the provided interceptors. + + The interface type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface and additional interfaces that delegate all executions to the specified interceptors. + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Gets or sets the that this logs to. + + + + + Gets the associated with this builder. + + The module scope associated with this builder. + + + + Initializes a new instance of the class with new . + + + + + Initializes a new instance of the class. + + The module scope for generated proxy types. + + + + Registers custom disassembler to handle disassembly of specified type of attributes. + + Type of attributes to handle + Disassembler converting existing instances of Attributes to CustomAttributeBuilders + + When disassembling an attribute Dynamic Proxy will first check if an custom disassembler has been registered to handle attributes of that type, + and if none is found, it'll use the . + + + + + Attributes should be replicated if they are non-inheritable, + but there are some special cases where the attributes means + something to the CLR, where they should be skipped. + + + + + Initializes a new instance of the class. + + Target element. This is either target type or target method for invocation types. + The type of the proxy. This is base type for invocation types. + The interfaces. + The options. + + + + Initializes a new instance of the class. + + Type of the target. + The interfaces. + The options. + + + + s + Provides appropriate Ldc.X opcode for the type of primitive value to be loaded. + + + + + Provides appropriate Ldind.X opcode for + the type of primitive value to be loaded indirectly. + + + + + Emits a load indirect opcode of the appropriate type for a value or object reference. + Pops a pointer off the evaluation stack, dereferences it and loads + a value of the specified type. + + + + + + + Emits a load opcode of the appropriate kind for a constant string or + primitive value. + + + + + + + Emits a load opcode of the appropriate kind for the constant default value of a + type, such as 0 for value types and null for reference types. + + + + + Emits a store indirectopcode of the appropriate type for a value or object reference. + Pops a value of the specified type and a pointer off the evaluation stack, and + stores the value. + + + + + + + Summary description for PropertiesCollection. + + + + + Wraps a reference that is passed + ByRef and provides indirect load/store support. + + + + + Summary description for NewArrayExpression. + + + + + + + + + Provides appropriate Stind.X opcode + for the type of primitive value to be stored indirectly. + + + + + Initializes a new instance of the class. + + The name. + Type declaring the original event being overriten, or null. + + The add method. + The remove method. + The attributes. + + + + Represents the scope of uniquenes of names for types and their members + + + + + Gets a unique name based on + + Name suggested by the caller + Unique name based on . + + Implementers should provide name as closely resembling as possible. + Generally if no collision occurs it is suggested to return suggested name, otherwise append sequential suffix. + Implementers must return deterministic names, that is when is called twice + with the same suggested name, the same returned name should be provided each time. Non-deterministic return + values, like appending random suffices will break serialization of proxies. + + + + + Returns new, disposable naming scope. It is responsibilty of the caller to make sure that no naming collision + with enclosing scope, or other subscopes is possible. + + New naming scope. + + + + Returns the methods implemented by a type. Use this instead of Type.GetMethods() to work around a CLR issue + where duplicate MethodInfos are returned by Type.GetMethods() after a token of a generic type's method was loaded. + + + + + Determines whether the specified method is internal. + + The method. + + true if the specified method is internal; otherwise, false. + + + + + Determines whether this assembly has internals visible to dynamic proxy. + + The assembly to inspect. + + + + Checks if the method is public or protected. + + + + + + + Because we need to cache the types based on the mixed in mixins, we do the following here: + - Get all the mixin interfaces + - Sort them by full name + - Return them by position + + The idea is to have reproducible behavior for the case that mixins are registered in different orders. + This method is here because it is required + + + + + Summary description for ModuleScope. + + + + + The default file name used when the assembly is saved using . + + + + + The default assembly (simple) name used for the assemblies generated by a instance. + + + + + Initializes a new instance of the class; assemblies created by this instance will not be saved. + + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved. + + If set to true saves the generated module. + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved and what simple names are to be assigned to them. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + The simple name of the strong-named assembly generated by this . + The path and file name of the manifest module of the strong-named assembly generated by this . + The simple name of the weak-named assembly generated by this . + The path and file name of the manifest module of the weak-named assembly generated by this . + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved and what simple names are to be assigned to them. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + Naming scope used to provide unique names to generated types and their members (usually via sub-scopes). + The simple name of the strong-named assembly generated by this . + The path and file name of the manifest module of the strong-named assembly generated by this . + The simple name of the weak-named assembly generated by this . + The path and file name of the manifest module of the weak-named assembly generated by this . + + + + Returns a type from this scope's type cache, or null if the key cannot be found. + + The key to be looked up in the cache. + The type from this scope's type cache matching the key, or null if the key cannot be found + + + + Registers a type in this scope's type cache. + + The key to be associated with the type. + The type to be stored in the cache. + + + + Gets the key pair used to sign the strong-named assembly generated by this . + + + + + + Gets the specified module generated by this scope, creating a new one if none has yet been generated. + + If set to true, a strong-named module is returned; otherwise, a weak-named module is returned. + A strong-named or weak-named module generated by this scope, as specified by the parameter. + + + + Gets the strong-named module generated by this scope, creating a new one if none has yet been generated. + + A strong-named module generated by this scope. + + + + Gets the weak-named module generated by this scope, creating a new one if none has yet been generated. + + A weak-named module generated by this scope. + + + + Saves the generated assembly with the name and directory information given when this instance was created (or with + the and current directory if none was given). + + + + This method stores the generated assembly in the directory passed as part of the module information specified when this instance was + constructed (if any, else the current directory is used). If both a strong-named and a weak-named assembly + have been generated, it will throw an exception; in this case, use the overload. + + + If this was created without indicating that the assembly should be saved, this method does nothing. + + + Both a strong-named and a weak-named assembly have been generated. + The path of the generated assembly file, or null if no file has been generated. + + + + Saves the specified generated assembly with the name and directory information given when this instance was created + (or with the and current directory if none was given). + + True if the generated assembly with a strong name should be saved (see ); + false if the generated assembly without a strong name should be saved (see . + + + This method stores the specified generated assembly in the directory passed as part of the module information specified when this instance was + constructed (if any, else the current directory is used). + + + If this was created without indicating that the assembly should be saved, this method does nothing. + + + No assembly has been generated that matches the parameter. + + The path of the generated assembly file, or null if no file has been generated. + + + + Loads the generated types from the given assembly into this 's cache. + + The assembly to load types from. This assembly must have been saved via or + , or it must have the manually applied. + + This method can be used to load previously generated and persisted proxy types from disk into this scope's type cache, eg. in order + to avoid the performance hit associated with proxy generation. + + + + + Users of this should use this lock when accessing the cache. + + + + + Gets the strong-named module generated by this scope, or if none has yet been generated. + + The strong-named module generated by this scope, or if none has yet been generated. + + + + Gets the file name of the strongly named module generated by this scope. + + The file name of the strongly named module generated by this scope. + + + + Gets the directory where the strongly named module generated by this scope will be saved, or if the current directory + is used. + + The directory where the strongly named module generated by this scope will be saved when is called + (if this scope was created to save modules). + + + + Gets the weak-named module generated by this scope, or if none has yet been generated. + + The weak-named module generated by this scope, or if none has yet been generated. + + + + Gets the file name of the weakly named module generated by this scope. + + The file name of the weakly named module generated by this scope. + + + + Gets the directory where the weakly named module generated by this scope will be saved, or if the current directory + is used. + + The directory where the weakly named module generated by this scope will be saved when is called + (if this scope was created to save modules). + + + + ProxyBuilder that persists the generated type. + + + The saved assembly contains just the last generated type. + + + + + Initializes a new instance of the class. + + + + + Saves the generated assembly to a physical file. Note that this renders the unusable. + + The path of the generated assembly file, or null if no assembly has been generated. + + This method does not support saving multiple files. If both a signed and an unsigned module have been generated, use the + respective methods of the . + + + + + Initializes a new instance of the class. + + The hook. + + + + Initializes a new instance of the class. + + + + + Provides proxy objects for classes and interfaces. + + + + + Initializes a new instance of the class. + + Proxy types builder. + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + If true forces all types to be generated into an unsigned module. + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + Object proxying calls to members of on object. + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no parameterless constructor exists on type . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no parameterless constructor exists on type . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates the proxy type for class proxy with given class, implementing given and using provided . + + The base class for proxy type. + The interfaces that proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy with target for given interface, implementing given on given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + Actual type that the proxy type will encompass. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy with target interface for given interface, implementing given on given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy without target for given interface, implementing given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Gets or sets the that this log to. + + + + + Gets the proxy builder instance used to generate proxy types. + + The proxy builder. + + + + + + + + + + + + + For interface proxies, this will point to the + on the target class + + + + + Handles the deserialization of proxies. + + + + + Resets the used for deserialization to a new scope. + + + This is useful for test cases. + + + + + Resets the used for deserialization to a given . + + The scope to be used for deserialization. + + By default, the deserialization process uses a different scope than the rest of the application, which can lead to multiple proxies + being generated for the same type. By explicitly setting the deserialization scope to the application's scope, this can be avoided. + + + + + Gets the used for deserialization. + + As has no way of automatically determining the scope used by the application (and the application might use more than one scope at the same time), uses a dedicated scope instance for deserializing proxy types. This instance can be reset and set to a specific value via and . + + + + Holds objects representing methods of class. + + + + + Holds objects representing methods of class. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Provides an extension point that allows proxies to choose specific interceptors on + a per method basis. + + + + + Selects the interceptors that should intercept calls to the given . + + The type declaring the method to intercept. + The method that will be intercepted. + All interceptors registered with the proxy. + An array of interceptors to invoke upon calling the . + + This method is called only once per proxy instance, upon the first call to the + . Either an empty array or null are valid return values to indicate + that no interceptor should intercept calls to the method. Although it is not advised, it is + legal to return other implementations than these provided in + . + + + + + Creates a new lock. + + + + + + This interface should be implemented by classes + that are available in a bigger context, exposing + the container to different areas in the same application. + + For example, in Web application, the (global) HttpApplication + subclasses should implement this interface to expose + the configured container + + + + + + Exposes means to change target objects of proxies and invocations + + + + + Changes the target object () of current . + + The new value of target of invocation. + + Although the method takes the actual instance must be of type assignable to , otherwise an will be thrown. + Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. + In this case last interceptor in the pipeline mustn't call or a will be throws. + Also while it's technically legal to pass proxy itself as , this would create stack overflow. + In this case last interceptor in the pipeline mustn't call or a will be throws. + + Thrown when is not assignable to the proxied type. + + + + Permanently changes the target object of the proxy. This does not affect target of the current invocation. + + The new value of target of the proxy. + + Although the method takes the actual instance must be of type assignable to proxy's target type, otherwise an will be thrown. + Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. + In this case last interceptor in the pipeline mustn't call or a will be throws. + Also while it's technically legal to pass proxy itself as , this would create stack overflow. + In this case last interceptor in the pipeline mustn't call or a will be throws. + + Thrown when is not assignable to the proxied type. + + + + New interface that is going to be used by DynamicProxy 2 + + + + + Get the proxy target (note that null is a valid target!) + + + + + + Gets the interceptors for the proxy + + + + + + Defines that the implementation wants a + in order to + access other components. The creator must be aware + that the component might (or might not) implement + the interface. + + + Used by Castle Project components to, for example, + gather logging factories + + + + + Increments IServiceProvider with a generic service resolution operation. + + + + + Provides a factory that can produce either or + classes. + + + + + Manages the instantiation of s. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Gets the configuration file. + + i.e. log4net.config + + + + + Used to create the TraceLogger implementation of ILogger interface. See . + + + + + Gets the configuration file. + + i.e. log4net.config + + + + + Interface for Context Properties implementations + + + + This interface defines a basic property get set accessor. + + + Based on the ContextPropertiesBase of log4net, by Nicko Cadell. + + + + + + Gets or sets the value of a property + + + The value for the property with the specified key + + + + Gets or sets the value of a property + + + + + + NullLogFactory used when logging is turned off. + + + + + Creates an instance of ILogger with the specified name. + + Name. + + + + + Creates an instance of ILogger with the specified name and LoggerLevel. + + Name. + Level. + + + + + Creates outputing + to files. The name of the file is derived from the log name + plus the 'log' extension. + + + + + Provides an interface that supports and + allows the storage and retrieval of Contexts. These are supported in + both log4net and NLog. + + + + + Manages logging. + + + This is a facade for the different logging subsystems. + It offers a simplified interface that follows IOC patterns + and a simplified priority/level/severity abstraction. + + + + + Create a new child logger. + The name of the child logger is [current-loggers-name].[passed-in-name] + + The Subname of this logger. + The New ILogger instance. + If the name has an empty element name. + + + + Logs a debug message. + + The message to log + + + + Logs a debug message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a debug message. + + The exception to log + The message to log + + + + Logs a debug message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The message to log + + + + Logs an error message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs an error message. + + The exception to log + The message to log + + + + Logs an error message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The message to log + + + + Logs a fatal message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a fatal message. + + The exception to log + The message to log + + + + Logs a fatal message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The message to log + + + + Logs a info message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs an info message. + + The exception to log + The message to log + + + + Logs an info message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The message to log + + + + Logs a warn message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a warn message. + + The exception to log + The message to log + + + + Logs a warn message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Determines if messages of priority "debug" will be logged. + + True if "debug" messages will be logged. + + + + Determines if messages of priority "error" will be logged. + + True if "error" messages will be logged. + + + + Determines if messages of priority "fatal" will be logged. + + True if "fatal" messages will be logged. + + + + Determines if messages of priority "info" will be logged. + + True if "info" messages will be logged. + + + + Determines if messages of priority "warn" will be logged. + + True if "warn" messages will be logged. + + + + Exposes the Global Context of the extended logger. + + + + + Exposes the Thread Context of the extended logger. + + + + + Exposes the Thread Stack of the extended logger. + + + + + The Logger sending everything to the standard output streams. + This is mainly for the cases when you have a utility that + does not have a logger to supply. + + + + + The Level Filtered Logger class. This is a base clase which + provides a LogLevel attribute and reroutes all functions into + one Log method. + + + + + Creates a new LevelFilteredLogger. + + + + + Keep the instance alive in a remoting scenario + + + + + + Logs a debug message. + + The message to log + + + + Logs a debug message. + + The exception to log + The message to log + + + + Logs a debug message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The message to log + + + + Logs an info message. + + The exception to log + The message to log + + + + Logs an info message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The message to log + + + + Logs a warn message. + + The exception to log + The message to log + + + + Logs a warn message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The message to log + + + + Logs an error message. + + The exception to log + The message to log + + + + Logs an error message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The message to log + + + + Logs a fatal message. + + The exception to log + The message to log + + + + Logs a fatal message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Implementors output the log content by implementing this method only. + Note that exception can be null + + + + + + + + + The LoggerLevel that this logger + will be using. Defaults to LoggerLevel.Off + + + + + The name that this logger will be using. + Defaults to String.Empty + + + + + Determines if messages of priority "debug" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "info" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "warn" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "error" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "fatal" will be logged. + + true if log level flags include the bit + + + + Creates a new ConsoleLogger with the Level + set to LoggerLevel.Debug and the Name + set to String.Empty. + + + + + Creates a new ConsoleLogger with the Name + set to String.Empty. + + The logs Level. + + + + Creates a new ConsoleLogger with the Level + set to LoggerLevel.Debug. + + The logs Name. + + + + Creates a new ConsoleLogger. + + The logs Name. + The logs Level. + + + + A Common method to log. + + The level of logging + The name of the logger + The Message + The Exception + + + + Returns a new ConsoleLogger with the name + added after this loggers name, with a dot in between. + + The added hierarchical name. + A new ConsoleLogger. + + + + The Logger using standart Diagnostics namespace. + + + + + Creates a logger based on . + + + + + + Creates a logger based on . + + + + + + + Creates a logger based on . + + + + + + + + The Null Logger class. This is useful for implementations where you need + to provide a logger to a utility class, but do not want any output from it. + It also helps when you have a utility that does not have a logger to supply. + + + + + Returns this NullLogger. + + Ignored + This ILogger instance. + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + Returns empty context properties. + + + + + Returns empty context properties. + + + + + Returns empty context stacks. + + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + The Stream Logger class. This class can stream log information + to any stream, it is suitable for storing a log file to disk, + or to a MemoryStream for testing your components. + + + This logger is not thread safe. + + + + + Creates a new StreamLogger with default encoding + and buffer size. Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + + + Creates a new StreamLogger with default buffer size. + Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + The encoding that will be used for this stream. + + + + + + Creates a new StreamLogger. + Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + The encoding that will be used for this stream. + + + + The buffer size that will be used for this stream. + + + + + + Creates a new StreamLogger with + Debug as default Level. + + The name of the log. + The StreamWriter the log will write to. + + + + The TraceLogger sends all logging to the System.Diagnostics.TraceSource + built into the .net framework. + + + Logging can be configured in the system.diagnostics configuration + section. + + If logger doesn't find a source name with a full match it will + use source names which match the namespace partially. For example you can + configure from all castle components by adding a source name with the + name "Castle". + + If no portion of the namespace matches the source named "Default" will + be used. + + + + + Build a new trace logger based on the named TraceSource + + The name used to locate the best TraceSource. In most cases comes from the using type's fullname. + + + + Build a new trace logger based on the named TraceSource + + The name used to locate the best TraceSource. In most cases comes from the using type's fullname. + The default logging level at which this source should write messages. In almost all cases this + default value will be overridden in the config file. + + + + Create a new child logger. + The name of the child logger is [current-loggers-name].[passed-in-name] + + The Subname of this logger. + The New ILogger instance. + + + + This is an abstract implementation + that deals with methods that can be abstracted away + from underlying implementations. + + + AbstractConfiguration makes easier to implementers + to create a new version of + + + + + is a interface encapsulating a configuration node + used to retrieve configuration values. + + + + + Gets the value of the node and converts it + into specified . + + The + + The Default value returned if the conversion fails. + + The Value converted into the specified type. + + + + Gets the name of the node. + + + The Name of the node. + + + + + Gets the value of the node. + + + The Value of the node. + + + + + Gets an of + elements containing all node children. + + The Collection of child nodes. + + + + Gets an of the configuration attributes. + + + + + Gets the value of the node and converts it + into specified . + + The + + The Default value returned if the conversion fails. + + The Value converted into the specified type. + + + + Gets node attributes. + + + All attributes of the node. + + + + + Gets all child nodes. + + The of child nodes. + + + + Gets the name of the . + + + The Name of the . + + + + + Gets the value of . + + + The Value of the . + + + + + A collection of objects. + + + + + Creates a new instance of ConfigurationCollection. + + + + + Creates a new instance of ConfigurationCollection. + + + + + Summary description for MutableConfiguration. + + + + + Initializes a new instance of the class. + + The name. + + + + Gets the value of . + + + The Value of the . + + + + + Deserializes the specified node into an abstract representation of configuration. + + The node. + + + + + If a config value is an empty string we return null, this is to keep + backward compatibility with old code + + + + + General purpose class to represent a standard pair of values. + + Type of the first value + Type of the second value + + + + Constructs a pair with its values + + + + + + + List of utility methods related to dynamic proxy operations + + + + + Determines whether the specified type is a proxy generated by + DynamicProxy (1 or 2). + + The type. + + true if it is a proxy; otherwise, false. + + + + + Readonly implementation of which uses an anonymous object as its source. Uses names of properties as keys, and property values as... well - values. Keys are not case sensitive. + + + + + Initializes a new instance of the class. + + The target. + + + + Adds an element with the provided key and value to the object. + + The to use as the key of the element to add. + The to use as the value of the element to add. + + is null. + An element with the same key already exists in the object. + The is read-only.-or- The has a fixed size. + + + + Removes all elements from the object. + + The object is read-only. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + + is null. + + + + Removes the element with the specified key from the object. + + The key of the element to remove. + + is null. + The object is read-only.-or- The has a fixed size. + + + + Returns an enumerator that iterates through a collection. + + + An object that can be used to iterate through the collection. + + + + + Copies the elements of the to an , starting at a particular index. + + The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. + The zero-based index in at which copying begins. + + is null. + + is less than zero. + + is multidimensional.-or- is equal to or greater than the length of .-or- The number of elements in the source is greater than the available space from to the end of the destination . + The type of the source cannot be cast automatically to the type of the destination . + + + + Returns an object for the object. + + + An object for the object. + + + + + Reads values of properties from and inserts them into using property names as keys. + + + + + + + Gets the number of elements contained in the . + + + The number of elements contained in the . + + + + Gets a value indicating whether access to the is synchronized (thread safe). + + + true if access to the is synchronized (thread safe); otherwise, false. + + + + Gets an object that can be used to synchronize access to the . + + + An object that can be used to synchronize access to the . + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets or sets the with the specified key. + + + + + + Gets an object containing the keys of the object. + + + An object containing the keys of the object. + + + + Gets an object containing the values in the object. + + + An object containing the values in the object. + + + + Gets a value indicating whether the object has a fixed size. + + + true if the object has a fixed size; otherwise, false. + + + + Represents a 'streamable' resource. Can + be a file, a resource in an assembly. + + + + + Returns a reader for the stream + + + It's up to the caller to dispose the reader. + + + + + + Returns a reader for the stream + + + It's up to the caller to dispose the reader. + + + + + + + Returns an instance of + created according to the relativePath + using itself as the root. + + + + + + + + + + Only valid for resources that + can be obtained through relative paths + + + + + + + + + + This returns a new stream instance each time it is called. + It is the responsibility of the caller to dispose of this stream + + + + + Depicts the contract for resource factories. + + + + + Used to check whether the resource factory + is able to deal with the given resource + identifier. + + + Implementors should return true + only if the given identifier is supported + by the resource factory + + + + + + + Creates an instance + for the given resource identifier + + + + + + + Creates an instance + for the given resource identifier + + + + + + + + + + + + + + + + + + Adapts a static string content as an + + + + + Enable access to files on network shares + + + + + Email sender abstraction. + + + + + Sends a mail message. + + From field + To field + E-mail's subject + message's body + + + + Sends a message. + + Message instance + + + + Sends multiple messages. + + List of messages + + + + Default implementation. + + + + + Initializes a new instance of the class based on the configuration provided in the application configuration file. + + + This constructor is based on the default configuration in the application configuration file. + + + + + This service implementation + requires a host name in order to work + + The smtp server name + + + + Sends a message. + + If any of the parameters is null + From field + To field + e-mail's subject + message's body + + + + Sends a message. + + If the message is null + Message instance + + + + Configures the sender + with port information and eventual credential + informed + + Message instance + + + + Gets or sets the port used to + access the SMTP server + + + + + Gets the hostname. + + The hostname. + + + + Gets or sets a value which is used to + configure if emails are going to be sent asynchronously or not. + + + + + Gets or sets a value that specifies + the amount of time after which a synchronous Send call times out. + + + + + Gets or sets a value indicating whether the email should be sent using + a secure communication channel. + + true if should use SSL; otherwise, false. + + + + Gets or sets the domain. + + The domain. + + + + Gets or sets the name of the user. + + The name of the user. + + + + Gets or sets the password. + + The password. + + + + Gets a value indicating whether credentials were informed. + + + if this instance has credentials; otherwise, . + + + + diff --git a/packages/Castle.Core.3.2.1/lib/net40-client/Castle.Core.dll b/packages/Castle.Core.3.2.1/lib/net40-client/Castle.Core.dll new file mode 100644 index 0000000..31f6439 Binary files /dev/null and b/packages/Castle.Core.3.2.1/lib/net40-client/Castle.Core.dll differ diff --git a/packages/Castle.Core.3.2.0/lib/net45/Castle.Core.xml b/packages/Castle.Core.3.2.1/lib/net40-client/Castle.Core.xml similarity index 98% rename from packages/Castle.Core.3.2.0/lib/net45/Castle.Core.xml rename to packages/Castle.Core.3.2.1/lib/net40-client/Castle.Core.xml index b20f738..6fa66c0 100644 --- a/packages/Castle.Core.3.2.0/lib/net45/Castle.Core.xml +++ b/packages/Castle.Core.3.2.1/lib/net40-client/Castle.Core.xml @@ -1,4754 +1,4754 @@ - - - - Castle.Core - - - - - Specifies assignment by reference rather than by copying. - - - - - Suppresses any on-demand behaviors. - - - - - Removes a property if null or empty string, guid or collection. - - - - - Removes a property if matches value. - - - - - Assigns a specific dictionary key. - - - - - Defines the contract for customizing dictionary access. - - - - - Copies the dictionary behavior. - - null if should not be copied. Otherwise copy. - - - - Determines relative order to apply related behaviors. - - - - - Defines the contract for updating dictionary values. - - - - - Sets the stored dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if the property should be stored. - - - - Contract for value matching. - - - - - Indicates that underlying values are changeable and should not be cached. - - - - - Contract for dictionary initialization. - - - - - Performs any initialization of the - - The dictionary adapter. - The dictionary behaviors. - - - - Abstract implementation of . - - - - - Conract for traversing a . - - - - - Contract for creating additional Dictionary adapters. - - - - - Contract for manipulating the Dictionary adapter. - - - - - Contract for editing the Dictionary adapter. - - - - - Contract for managing Dictionary adapter notifications. - - - - - Contract for validating Dictionary adapter. - - - - - Defines the contract for building s. - - - - - Builds the dictionary behaviors. - - - - - - Abstract adapter for the support - needed by the - - - - - Adds an element with the provided key and value to the object. - - The to use as the key of the element to add. - The to use as the value of the element to add. - An element with the same key already exists in the object. - key is null. - The is read-only.-or- The has a fixed size. - - - - Removes all elements from the object. - - The object is read-only. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - key is null. - - - - Returns an object for the object. - - - An object for the object. - - - - - Removes the element with the specified key from the object. - - The key of the element to remove. - The object is read-only.-or- The has a fixed size. - key is null. - - - - Copies the elements of the to an , starting at a particular index. - - The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. - The zero-based index in array at which copying begins. - array is null. - The type of the source cannot be cast automatically to the type of the destination array. - index is less than zero. - array is multidimensional.-or- index is equal to or greater than the length of array.-or- The number of elements in the source is greater than the available space from index to the end of the destination array. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - - - - Gets a value indicating whether the object has a fixed size. - - - true if the object has a fixed size; otherwise, false. - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets an object containing the keys of the object. - - - An object containing the keys of the object. - - - - Gets an object containing the values in the object. - - - An object containing the values in the object. - - - - Gets or sets the with the specified key. - - - - - - Gets the number of elements contained in the . - - - The number of elements contained in the . - - - - Gets a value indicating whether access to the is synchronized (thread safe). - - - true if access to the is synchronized (thread safe); otherwise, false. - - - - Gets an object that can be used to synchronize access to the . - - - An object that can be used to synchronize access to the . - - - - Provides a generic collection that supports data binding. - - - This class wraps the CLR - in order to implement the Castle-specific . - - The type of elements in the list. - - - - Initializes a new instance of the class - using default values. - - - - - Initializes a new instance of the class - with the specified list. - - - An of items - to be contained in the . - - - - - Initializes a new instance of the class - wrapping the specified instance. - - - A - to be wrapped by the . - - - - - Defines the contract for retrieving dictionary values. - - - - - Gets the effective dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if return only existing. - The effective property value. - - - - Initializes a new instance of the class - that represents a child object in a larger object graph. - - - - - - - Contract for dictionary meta-data initialization. - - - - - Initializes the given object. - - The dictionary adapter factory. - The dictionary adapter meta. - - - - - Determines whether the given behavior should be included in a new - object. - - A dictionary behavior or annotation. - True if the behavior should be included; otherwise, false. - - behaviors are always included, - regardless of the result of this method. - - - - - - Checks whether or not collection is null or empty. Assumes colleciton can be safely enumerated multiple times. - - - - - - - Constant to use when making assembly internals visible to Castle.Core - [assembly: InternalsVisibleTo(CoreInternalsVisible.ToCastleCore)] - - - - - Constant to use when making assembly internals visible to proxy types generated by DynamicProxy. Required when proxying internal types. - [assembly: InternalsVisibleTo(CoreInternalsVisible.ToDynamicProxyGenAssembly2)] - - - - - Identifies a property should be represented as a nested component. - - - - - Defines the contract for building typed dictionary keys. - - - - - Builds the specified key. - - The dictionary adapter. - The current key. - The property. - The updated key - - - - Applies no prefix. - - - - - Gets or sets the prefix. - - The prefix. - - - - Identifies the dictionary adapter types. - - - - - Identifies an interface or property to be pre-fetched. - - - - - Instructs fetching to occur. - - - - - Instructs fetching according to - - - - - - Gets whether or not fetching should occur. - - - - - Assigns a property to a group. - - - - - Constructs a group assignment. - - The group name. - - - - Constructs a group assignment. - - The group name. - - - - Gets the group the property is assigned to. - - - - - Assigns a specific dictionary key. - - - - - Initializes a new instance of the class. - - The key. - - - - Initializes a new instance of the class. - - The compound key. - - - - Assigns a prefix to the keyed properties of an interface. - - - Key prefixes are not inherited by sub-interfaces. - - - - - Initializes a default instance of the class. - - - - - Initializes a new instance of the class. - - The prefix for the keyed properties of the interface. - - - - Gets the prefix key added to the properties of the interface. - - - - - Substitutes part of key with another string. - - - - - Initializes a new instance of the class. - - The old value. - The new value. - - - - Requests support for multi-level editing. - - - - - Generates a new GUID on demand. - - - - - Support for on-demand value resolution. - - - - - Provides simple string formatting from existing properties. - - - - - Gets the string format. - - - - - Gets the format properties. - - - - - Identifies a property should be represented as a delimited string value. - - - - - Gets the separator. - - - - - Converts all properties to strings. - - - - - Gets or sets the format. - - The format. - - - - Suppress property change notifications. - - - - - Contract for property descriptor initialization. - - - - - Performs any initialization of the - - The property descriptor. - The property behaviors. - - - - Assigns a prefix to the keyed properties using the interface name. - - - - - Manages conversion between property values. - - - - - Initializes a new instance of the class. - - The converter. - - - - Gets the effective dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if return only existing. - The effective property value. - - - - - - - - - Uses Reflection.Emit to expose the properties of a dictionary - through a dynamic implementation of a typed interface. - - - - - Defines the contract for building typed dictionary adapters. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - The property descriptor. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the namedValues. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the namedValues. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the . - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the . - - The type represented by T must be an interface with properties. - - - - - Gets the associated with the type. - - The typed interface. - The adapter meta-data. - - - - Gets the associated with the type. - - The typed interface. - The property descriptor. - The adapter meta-data. - - - - Gets the associated with the type. - - The typed interface. - Another from which to copy behaviors. - The adapter meta-data. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Contract for dictionary validation. - - - - - Determines if is valid. - - The dictionary adapter. - true if valid. - - - - Validates the . - - The dictionary adapter. - The error summary information. - - - - Validates the for a property. - - The dictionary adapter. - The property to validate. - The property summary information. - - - - Invalidates any results cached by the validator. - - The dictionary adapter. - - - - - - - - - Initializes a new instance of the class. - - The name values. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - key is null. - - - - Adapts the specified name values. - - The name values. - - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets or sets the with the specified key. - - - - - - Describes a dictionary property. - - - - - Initializes an empty class. - - - - - Initializes a new instance of the class. - - The property. - The annotations. - - - - Initializes a new instance class. - - - - - Copies an existinginstance of the class. - - - - - - - Gets the key. - - The dictionary adapter. - The key. - The descriptor. - - - - - Gets the property value. - - The dictionary adapter. - The key. - The stored value. - The descriptor. - true if return only existing. - - - - - Sets the property value. - - The dictionary adapter. - The key. - The value. - The descriptor. - - - - - Adds a single behavior. - - The behavior. - - - - Adds the behaviors. - - The behaviors. - - - - Adds the behaviors. - - The behaviors. - - - - Copies the behaviors to the other - - - - - - - Copies the - - - - - - - - - - - Gets the property name. - - - - - Gets the property type. - - - - - Gets the property. - - The property. - - - - Returns true if the property is dynamic. - - - - - Gets additional state. - - - - - Determines if property should be fetched. - - - - - Determines if property must exist first. - - - - - Determines if notifications should occur. - - - - - Gets the property behaviors. - - - - - Gets the type converter. - - The type converter. - - - - Gets the extended properties. - - - - - Gets the setter. - - The setter. - - - - Gets the key builders. - - The key builders. - - - - Gets the setter. - - The setter. - - - - Gets the getter. - - The getter. - - - - Gets the initializers. - - The initializers. - - - - Gets the meta-data initializers. - - The meta-data initializers. - - - - Helper class for retrieving attributes. - - - - - Gets the attribute. - - The member. - The member attribute. - - - - Gets the attributes. Does not consider inherited attributes! - - The member. - The member attributes. - - - - Gets the type attribute. - - The type. - The type attribute. - - - - Gets the type attributes. - - The type. - The type attributes. - - - - Gets the type converter. - - The member. - - - - - Gets the attribute. - - The member. - The member attribute. - - - - Contract for typed dynamic value resolution. - - - - - - Contract for dynamic value resolution. - - - - - Supporting Logger levels. - - - - - Logging will be off - - - - - Fatal logging level - - - - - Error logging level - - - - - Warn logging level - - - - - Info logging level - - - - - Debug logging level - - - - - Encapsulates an invocation of a proxied method. - - - - - Gets the value of the argument at the specified . - - The index. - The value of the argument at the specified . - - - - Returns the concrete instantiation of the on the proxy, with any generic - parameters bound to real types. - - - The concrete instantiation of the on the proxy, or the if - not a generic method. - - - Can be slower than calling . - - - - - Returns the concrete instantiation of , with any - generic parameters bound to real types. - For interface proxies, this will point to the on the target class. - - The concrete instantiation of , or - if not a generic method. - - In debug builds this can be slower than calling . - - - - - Proceeds the call to the next interceptor in line, and ultimately to the target method. - - - Since interface proxies without a target don't have the target implementation to proceed to, - it is important, that the last interceptor does not call this method, otherwise a - will be thrown. - - - - - Overrides the value of an argument at the given with the - new provided. - - - This method accepts an , however the value provided must be compatible - with the type of the argument defined on the method, otherwise an exception will be thrown. - - The index of the argument to override. - The new value for the argument. - - - - Gets the arguments that the has been invoked with. - - The arguments the method was invoked with. - - - - Gets the generic arguments of the method. - - The generic arguments, or null if not a generic method. - - - - Gets the object on which the invocation is performed. This is different from proxy object - because most of the time this will be the proxy target object. - - - The invocation target. - - - - Gets the representing the method being invoked on the proxy. - - The representing the method being invoked. - - - - For interface proxies, this will point to the on the target class. - - The method invocation target. - - - - Gets the proxy object on which the intercepted method is invoked. - - Proxy object on which the intercepted method is invoked. - - - - Gets or sets the return value of the method. - - The return value of the method. - - - - Gets the type of the target object for the intercepted method. - - The type of the target object. - - - - Used during the target type inspection process. Implementors have a chance to customize the - proxy generation process. - - - - - Invoked by the generation process to notify that the whole process has completed. - - - - - Invoked by the generation process to notify that a member was not marked as virtual. - - The type which declares the non-virtual member. - The non-virtual member. - - This method gives an opportunity to inspect any non-proxyable member of a type that has - been requested to be proxied, and if appropriate - throw an exception to notify the caller. - - - - - Invoked by the generation process to determine if the specified method should be proxied. - - The type which declares the given method. - The method to inspect. - True if the given method should be proxied; false otherwise. - - - - Interface describing elements composing generated type - - - - - Performs some basic screening and invokes the - to select methods. - - - - - - - - - Provides functionality for disassembling instances of attributes to CustomAttributeBuilder form, during the process of emiting new types by Dynamic Proxy. - - - - - Disassembles given attribute instance back to corresponding CustomAttributeBuilder. - - An instance of attribute to disassemble - corresponding 1 to 1 to given attribute instance, or null reference. - - Implementers should return that corresponds to given attribute instance 1 to 1, - that is after calling specified constructor with specified arguments, and setting specified properties and fields with values specified - we should be able to get an attribute instance identical to the one passed in . Implementer can return null - if it wishes to opt out of replicating the attribute. Notice however, that for some cases, like attributes passed explicitly by the user - it is illegal to return null, and doing so will result in exception. - - - - - Handles error during disassembly process - - Type of the attribute being disassembled - Exception thrown during the process - usually null, or (re)throws the exception - - - - Here we try to match a constructor argument to its value. - Since we can't get the values from the assembly, we use some heuristics to get it. - a/ we first try to match all the properties on the attributes by name (case insensitive) to the argument - b/ if we fail we try to match them by property type, with some smarts about convertions (i,e: can use Guid for string). - - - - - We have the following rules here. - Try to find a matching type, failing that, if the parameter is string, get the first property (under the assumption that - we can convert it. - - - - - Attributes can only accept simple types, so we return null for null, - if the value is passed as string we call to string (should help with converting), - otherwise, we use the value as is (enums, integer, etc). - - - - - Returns list of all unique interfaces implemented given types, including their base interfaces. - - - - - - - Applied to the assemblies saved by in order to persist the cache data included in the persisted assembly. - - - - - Base class that exposes the common functionalities - to proxy generation. - - - - - It is safe to add mapping (no mapping for the interface exists) - - - - - - - - Generates a parameters constructor that initializes the proxy - state with just to make it non-null. - - This constructor is important to allow proxies to be XML serializable - - - - - - Generates the constructor for the class that extends - - - - - - - - - Default implementation of interface producing in-memory proxy assemblies. - - - - - Abstracts the implementation of proxy type construction. - - - - - Creates a proxy type for given , implementing , using provided. - - The class type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified class and interfaces. - Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type that proxies calls to members on , implementing , using provided. - - The interface type to proxy. - Additional interface types to proxy. - Type implementing on which calls to the interface members should be intercepted. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface that 'proceeds' executions to the specified target. - Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type for given and that delegates all calls to the provided interceptors and allows interceptors to switch the actual target of invocation. - - The interface type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface(s) that delegate all executions to the specified interceptors - and uses an instance of the interface as their targets (i.e. ), rather than a class. All classes should then implement interface, - to allow interceptors to switch invocation target with instance of another type implementing called interface. - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type for given that delegates all calls to the provided interceptors. - - The interface type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface and additional interfaces that delegate all executions to the specified interceptors. - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Gets or sets the that this logs to. - - - - - Gets the associated with this builder. - - The module scope associated with this builder. - - - - Initializes a new instance of the class with new . - - - - - Initializes a new instance of the class. - - The module scope for generated proxy types. - - - - Registers custom disassembler to handle disassembly of specified type of attributes. - - Type of attributes to handle - Disassembler converting existing instances of Attributes to CustomAttributeBuilders - - When disassembling an attribute Dynamic Proxy will first check if an custom disassembler has been registered to handle attributes of that type, - and if none is found, it'll use the . - - - - - Attributes should be replicated if they are non-inheritable, - but there are some special cases where the attributes means - something to the CLR, where they should be skipped. - - - - - Initializes a new instance of the class. - - Target element. This is either target type or target method for invocation types. - The type of the proxy. This is base type for invocation types. - The interfaces. - The options. - - - - Initializes a new instance of the class. - - Type of the target. - The interfaces. - The options. - - - - s - Provides appropriate Ldc.X opcode for the type of primitive value to be loaded. - - - - - Provides appropriate Ldind.X opcode for - the type of primitive value to be loaded indirectly. - - - - - Emits a load indirect opcode of the appropriate type for a value or object reference. - Pops a pointer off the evaluation stack, dereferences it and loads - a value of the specified type. - - - - - - - Emits a load opcode of the appropriate kind for a constant string or - primitive value. - - - - - - - Emits a load opcode of the appropriate kind for the constant default value of a - type, such as 0 for value types and null for reference types. - - - - - Emits a store indirectopcode of the appropriate type for a value or object reference. - Pops a value of the specified type and a pointer off the evaluation stack, and - stores the value. - - - - - - - Summary description for PropertiesCollection. - - - - - Wraps a reference that is passed - ByRef and provides indirect load/store support. - - - - - Summary description for NewArrayExpression. - - - - - - - - - Provides appropriate Stind.X opcode - for the type of primitive value to be stored indirectly. - - - - - Initializes a new instance of the class. - - The name. - Type declaring the original event being overriten, or null. - - The add method. - The remove method. - The attributes. - - - - Represents the scope of uniquenes of names for types and their members - - - - - Gets a unique name based on - - Name suggested by the caller - Unique name based on . - - Implementers should provide name as closely resembling as possible. - Generally if no collision occurs it is suggested to return suggested name, otherwise append sequential suffix. - Implementers must return deterministic names, that is when is called twice - with the same suggested name, the same returned name should be provided each time. Non-deterministic return - values, like appending random suffices will break serialization of proxies. - - - - - Returns new, disposable naming scope. It is responsibilty of the caller to make sure that no naming collision - with enclosing scope, or other subscopes is possible. - - New naming scope. - - - - Returns the methods implemented by a type. Use this instead of Type.GetMethods() to work around a CLR issue - where duplicate MethodInfos are returned by Type.GetMethods() after a token of a generic type's method was loaded. - - - - - Determines whether the specified method is internal. - - The method. - - true if the specified method is internal; otherwise, false. - - - - - Determines whether this assembly has internals visible to dynamic proxy. - - The assembly to inspect. - - - - Checks if the method is public or protected. - - - - - - - Because we need to cache the types based on the mixed in mixins, we do the following here: - - Get all the mixin interfaces - - Sort them by full name - - Return them by position - - The idea is to have reproducible behavior for the case that mixins are registered in different orders. - This method is here because it is required - - - - - Summary description for ModuleScope. - - - - - The default file name used when the assembly is saved using . - - - - - The default assembly (simple) name used for the assemblies generated by a instance. - - - - - Initializes a new instance of the class; assemblies created by this instance will not be saved. - - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved. - - If set to true saves the generated module. - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved and what simple names are to be assigned to them. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - The simple name of the strong-named assembly generated by this . - The path and file name of the manifest module of the strong-named assembly generated by this . - The simple name of the weak-named assembly generated by this . - The path and file name of the manifest module of the weak-named assembly generated by this . - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved and what simple names are to be assigned to them. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - Naming scope used to provide unique names to generated types and their members (usually via sub-scopes). - The simple name of the strong-named assembly generated by this . - The path and file name of the manifest module of the strong-named assembly generated by this . - The simple name of the weak-named assembly generated by this . - The path and file name of the manifest module of the weak-named assembly generated by this . - - - - Returns a type from this scope's type cache, or null if the key cannot be found. - - The key to be looked up in the cache. - The type from this scope's type cache matching the key, or null if the key cannot be found - - - - Registers a type in this scope's type cache. - - The key to be associated with the type. - The type to be stored in the cache. - - - - Gets the key pair used to sign the strong-named assembly generated by this . - - - - - - Gets the specified module generated by this scope, creating a new one if none has yet been generated. - - If set to true, a strong-named module is returned; otherwise, a weak-named module is returned. - A strong-named or weak-named module generated by this scope, as specified by the parameter. - - - - Gets the strong-named module generated by this scope, creating a new one if none has yet been generated. - - A strong-named module generated by this scope. - - - - Gets the weak-named module generated by this scope, creating a new one if none has yet been generated. - - A weak-named module generated by this scope. - - - - Saves the generated assembly with the name and directory information given when this instance was created (or with - the and current directory if none was given). - - - - This method stores the generated assembly in the directory passed as part of the module information specified when this instance was - constructed (if any, else the current directory is used). If both a strong-named and a weak-named assembly - have been generated, it will throw an exception; in this case, use the overload. - - - If this was created without indicating that the assembly should be saved, this method does nothing. - - - Both a strong-named and a weak-named assembly have been generated. - The path of the generated assembly file, or null if no file has been generated. - - - - Saves the specified generated assembly with the name and directory information given when this instance was created - (or with the and current directory if none was given). - - True if the generated assembly with a strong name should be saved (see ); - false if the generated assembly without a strong name should be saved (see . - - - This method stores the specified generated assembly in the directory passed as part of the module information specified when this instance was - constructed (if any, else the current directory is used). - - - If this was created without indicating that the assembly should be saved, this method does nothing. - - - No assembly has been generated that matches the parameter. - - The path of the generated assembly file, or null if no file has been generated. - - - - Loads the generated types from the given assembly into this 's cache. - - The assembly to load types from. This assembly must have been saved via or - , or it must have the manually applied. - - This method can be used to load previously generated and persisted proxy types from disk into this scope's type cache, eg. in order - to avoid the performance hit associated with proxy generation. - - - - - Users of this should use this lock when accessing the cache. - - - - - Gets the strong-named module generated by this scope, or if none has yet been generated. - - The strong-named module generated by this scope, or if none has yet been generated. - - - - Gets the file name of the strongly named module generated by this scope. - - The file name of the strongly named module generated by this scope. - - - - Gets the directory where the strongly named module generated by this scope will be saved, or if the current directory - is used. - - The directory where the strongly named module generated by this scope will be saved when is called - (if this scope was created to save modules). - - - - Gets the weak-named module generated by this scope, or if none has yet been generated. - - The weak-named module generated by this scope, or if none has yet been generated. - - - - Gets the file name of the weakly named module generated by this scope. - - The file name of the weakly named module generated by this scope. - - - - Gets the directory where the weakly named module generated by this scope will be saved, or if the current directory - is used. - - The directory where the weakly named module generated by this scope will be saved when is called - (if this scope was created to save modules). - - - - ProxyBuilder that persists the generated type. - - - The saved assembly contains just the last generated type. - - - - - Initializes a new instance of the class. - - - - - Saves the generated assembly to a physical file. Note that this renders the unusable. - - The path of the generated assembly file, or null if no assembly has been generated. - - This method does not support saving multiple files. If both a signed and an unsigned module have been generated, use the - respective methods of the . - - - - - Initializes a new instance of the class. - - The hook. - - - - Initializes a new instance of the class. - - - - - Provides proxy objects for classes and interfaces. - - - - - Initializes a new instance of the class. - - Proxy types builder. - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - If true forces all types to be generated into an unsigned module. - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - Object proxying calls to members of on object. - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no parameterless constructor exists on type . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no parameterless constructor exists on type . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates the proxy type for class proxy with given class, implementing given and using provided . - - The base class for proxy type. - The interfaces that proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy with target for given interface, implementing given on given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - Actual type that the proxy type will encompass. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy with target interface for given interface, implementing given on given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy without target for given interface, implementing given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Gets or sets the that this log to. - - - - - Gets the proxy builder instance used to generate proxy types. - - The proxy builder. - - - - - - - - - - - - - For interface proxies, this will point to the - on the target class - - - - - Handles the deserialization of proxies. - - - - - Resets the used for deserialization to a new scope. - - - This is useful for test cases. - - - - - Resets the used for deserialization to a given . - - The scope to be used for deserialization. - - By default, the deserialization process uses a different scope than the rest of the application, which can lead to multiple proxies - being generated for the same type. By explicitly setting the deserialization scope to the application's scope, this can be avoided. - - - - - Gets the used for deserialization. - - As has no way of automatically determining the scope used by the application (and the application might use more than one scope at the same time), uses a dedicated scope instance for deserializing proxy types. This instance can be reset and set to a specific value via and . - - - - Holds objects representing methods of class. - - - - - Holds objects representing methods of class. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Provides an extension point that allows proxies to choose specific interceptors on - a per method basis. - - - - - Selects the interceptors that should intercept calls to the given . - - The type declaring the method to intercept. - The method that will be intercepted. - All interceptors registered with the proxy. - An array of interceptors to invoke upon calling the . - - This method is called only once per proxy instance, upon the first call to the - . Either an empty array or null are valid return values to indicate - that no interceptor should intercept calls to the method. Although it is not advised, it is - legal to return other implementations than these provided in - . - - - - - Creates a new lock. - - - - - - This interface should be implemented by classes - that are available in a bigger context, exposing - the container to different areas in the same application. - - For example, in Web application, the (global) HttpApplication - subclasses should implement this interface to expose - the configured container - - - - - - Exposes means to change target objects of proxies and invocations - - - - - Changes the target object () of current . - - The new value of target of invocation. - - Although the method takes the actual instance must be of type assignable to , otherwise an will be thrown. - Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. - In this case last interceptor in the pipeline mustn't call or a will be throws. - Also while it's technically legal to pass proxy itself as , this would create stack overflow. - In this case last interceptor in the pipeline mustn't call or a will be throws. - - Thrown when is not assignable to the proxied type. - - - - Permanently changes the target object of the proxy. This does not affect target of the current invocation. - - The new value of target of the proxy. - - Although the method takes the actual instance must be of type assignable to proxy's target type, otherwise an will be thrown. - Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. - In this case last interceptor in the pipeline mustn't call or a will be throws. - Also while it's technically legal to pass proxy itself as , this would create stack overflow. - In this case last interceptor in the pipeline mustn't call or a will be throws. - - Thrown when is not assignable to the proxied type. - - - - New interface that is going to be used by DynamicProxy 2 - - - - - Get the proxy target (note that null is a valid target!) - - - - - - Gets the interceptors for the proxy - - - - - - Defines that the implementation wants a - in order to - access other components. The creator must be aware - that the component might (or might not) implement - the interface. - - - Used by Castle Project components to, for example, - gather logging factories - - - - - Increments IServiceProvider with a generic service resolution operation. - - - - - Provides a factory that can produce either or - classes. - - - - - Manages the instantiation of s. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Gets the configuration file. - - i.e. log4net.config - - - - - Used to create the TraceLogger implementation of ILogger interface. See . - - - - - Gets the configuration file. - - i.e. log4net.config - - - - - Interface for Context Properties implementations - - - - This interface defines a basic property get set accessor. - - - Based on the ContextPropertiesBase of log4net, by Nicko Cadell. - - - - - - Gets or sets the value of a property - - - The value for the property with the specified key - - - - Gets or sets the value of a property - - - - - - NullLogFactory used when logging is turned off. - - - - - Creates an instance of ILogger with the specified name. - - Name. - - - - - Creates an instance of ILogger with the specified name and LoggerLevel. - - Name. - Level. - - - - - Creates outputing - to files. The name of the file is derived from the log name - plus the 'log' extension. - - - - - Provides an interface that supports and - allows the storage and retrieval of Contexts. These are supported in - both log4net and NLog. - - - - - Manages logging. - - - This is a facade for the different logging subsystems. - It offers a simplified interface that follows IOC patterns - and a simplified priority/level/severity abstraction. - - - - - Create a new child logger. - The name of the child logger is [current-loggers-name].[passed-in-name] - - The Subname of this logger. - The New ILogger instance. - If the name has an empty element name. - - - - Logs a debug message. - - The message to log - - - - Logs a debug message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a debug message. - - The exception to log - The message to log - - - - Logs a debug message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The message to log - - - - Logs an error message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs an error message. - - The exception to log - The message to log - - - - Logs an error message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The message to log - - - - Logs a fatal message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a fatal message. - - The exception to log - The message to log - - - - Logs a fatal message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The message to log - - - - Logs a info message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs an info message. - - The exception to log - The message to log - - - - Logs an info message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The message to log - - - - Logs a warn message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a warn message. - - The exception to log - The message to log - - - - Logs a warn message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Determines if messages of priority "debug" will be logged. - - True if "debug" messages will be logged. - - - - Determines if messages of priority "error" will be logged. - - True if "error" messages will be logged. - - - - Determines if messages of priority "fatal" will be logged. - - True if "fatal" messages will be logged. - - - - Determines if messages of priority "info" will be logged. - - True if "info" messages will be logged. - - - - Determines if messages of priority "warn" will be logged. - - True if "warn" messages will be logged. - - - - Exposes the Global Context of the extended logger. - - - - - Exposes the Thread Context of the extended logger. - - - - - Exposes the Thread Stack of the extended logger. - - - - - The Logger sending everything to the standard output streams. - This is mainly for the cases when you have a utility that - does not have a logger to supply. - - - - - The Level Filtered Logger class. This is a base clase which - provides a LogLevel attribute and reroutes all functions into - one Log method. - - - - - Creates a new LevelFilteredLogger. - - - - - Keep the instance alive in a remoting scenario - - - - - - Logs a debug message. - - The message to log - - - - Logs a debug message. - - The exception to log - The message to log - - - - Logs a debug message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The message to log - - - - Logs an info message. - - The exception to log - The message to log - - - - Logs an info message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The message to log - - - - Logs a warn message. - - The exception to log - The message to log - - - - Logs a warn message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The message to log - - - - Logs an error message. - - The exception to log - The message to log - - - - Logs an error message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The message to log - - - - Logs a fatal message. - - The exception to log - The message to log - - - - Logs a fatal message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Implementors output the log content by implementing this method only. - Note that exception can be null - - - - - - - - - The LoggerLevel that this logger - will be using. Defaults to LoggerLevel.Off - - - - - The name that this logger will be using. - Defaults to String.Empty - - - - - Determines if messages of priority "debug" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "info" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "warn" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "error" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "fatal" will be logged. - - true if log level flags include the bit - - - - Creates a new ConsoleLogger with the Level - set to LoggerLevel.Debug and the Name - set to String.Empty. - - - - - Creates a new ConsoleLogger with the Name - set to String.Empty. - - The logs Level. - - - - Creates a new ConsoleLogger with the Level - set to LoggerLevel.Debug. - - The logs Name. - - - - Creates a new ConsoleLogger. - - The logs Name. - The logs Level. - - - - A Common method to log. - - The level of logging - The name of the logger - The Message - The Exception - - - - Returns a new ConsoleLogger with the name - added after this loggers name, with a dot in between. - - The added hierarchical name. - A new ConsoleLogger. - - - - The Logger using standart Diagnostics namespace. - - - - - Creates a logger based on . - - - - - - Creates a logger based on . - - - - - - - Creates a logger based on . - - - - - - - - The Null Logger class. This is useful for implementations where you need - to provide a logger to a utility class, but do not want any output from it. - It also helps when you have a utility that does not have a logger to supply. - - - - - Returns this NullLogger. - - Ignored - This ILogger instance. - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - Returns empty context properties. - - - - - Returns empty context properties. - - - - - Returns empty context stacks. - - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - The Stream Logger class. This class can stream log information - to any stream, it is suitable for storing a log file to disk, - or to a MemoryStream for testing your components. - - - This logger is not thread safe. - - - - - Creates a new StreamLogger with default encoding - and buffer size. Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - - - Creates a new StreamLogger with default buffer size. - Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - The encoding that will be used for this stream. - - - - - - Creates a new StreamLogger. - Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - The encoding that will be used for this stream. - - - - The buffer size that will be used for this stream. - - - - - - Creates a new StreamLogger with - Debug as default Level. - - The name of the log. - The StreamWriter the log will write to. - - - - The TraceLogger sends all logging to the System.Diagnostics.TraceSource - built into the .net framework. - - - Logging can be configured in the system.diagnostics configuration - section. - - If logger doesn't find a source name with a full match it will - use source names which match the namespace partially. For example you can - configure from all castle components by adding a source name with the - name "Castle". - - If no portion of the namespace matches the source named "Default" will - be used. - - - - - Build a new trace logger based on the named TraceSource - - The name used to locate the best TraceSource. In most cases comes from the using type's fullname. - - - - Build a new trace logger based on the named TraceSource - - The name used to locate the best TraceSource. In most cases comes from the using type's fullname. - The default logging level at which this source should write messages. In almost all cases this - default value will be overridden in the config file. - - - - Create a new child logger. - The name of the child logger is [current-loggers-name].[passed-in-name] - - The Subname of this logger. - The New ILogger instance. - - - - This is an abstract implementation - that deals with methods that can be abstracted away - from underlying implementations. - - - AbstractConfiguration makes easier to implementers - to create a new version of - - - - - is a interface encapsulating a configuration node - used to retrieve configuration values. - - - - - Gets the value of the node and converts it - into specified . - - The - - The Default value returned if the conversion fails. - - The Value converted into the specified type. - - - - Gets the name of the node. - - - The Name of the node. - - - - - Gets the value of the node. - - - The Value of the node. - - - - - Gets an of - elements containing all node children. - - The Collection of child nodes. - - - - Gets an of the configuration attributes. - - - - - Gets the value of the node and converts it - into specified . - - The - - The Default value returned if the conversion fails. - - The Value converted into the specified type. - - - - Gets node attributes. - - - All attributes of the node. - - - - - Gets all child nodes. - - The of child nodes. - - - - Gets the name of the . - - - The Name of the . - - - - - Gets the value of . - - - The Value of the . - - - - - A collection of objects. - - - - - Creates a new instance of ConfigurationCollection. - - - - - Creates a new instance of ConfigurationCollection. - - - - - Summary description for MutableConfiguration. - - - - - Initializes a new instance of the class. - - The name. - - - - Gets the value of . - - - The Value of the . - - - - - Deserializes the specified node into an abstract representation of configuration. - - The node. - - - - - If a config value is an empty string we return null, this is to keep - backward compatibility with old code - - - - - General purpose class to represent a standard pair of values. - - Type of the first value - Type of the second value - - - - Constructs a pair with its values - - - - - - - List of utility methods related to dynamic proxy operations - - - - - Determines whether the specified type is a proxy generated by - DynamicProxy (1 or 2). - - The type. - - true if it is a proxy; otherwise, false. - - - - - Readonly implementation of which uses an anonymous object as its source. Uses names of properties as keys, and property values as... well - values. Keys are not case sensitive. - - - - - Initializes a new instance of the class. - - The target. - - - - Adds an element with the provided key and value to the object. - - The to use as the key of the element to add. - The to use as the value of the element to add. - - is null. - An element with the same key already exists in the object. - The is read-only.-or- The has a fixed size. - - - - Removes all elements from the object. - - The object is read-only. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - - is null. - - - - Removes the element with the specified key from the object. - - The key of the element to remove. - - is null. - The object is read-only.-or- The has a fixed size. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - - - - Copies the elements of the to an , starting at a particular index. - - The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. - The zero-based index in at which copying begins. - - is null. - - is less than zero. - - is multidimensional.-or- is equal to or greater than the length of .-or- The number of elements in the source is greater than the available space from to the end of the destination . - The type of the source cannot be cast automatically to the type of the destination . - - - - Returns an object for the object. - - - An object for the object. - - - - - Reads values of properties from and inserts them into using property names as keys. - - - - - - - Gets the number of elements contained in the . - - - The number of elements contained in the . - - - - Gets a value indicating whether access to the is synchronized (thread safe). - - - true if access to the is synchronized (thread safe); otherwise, false. - - - - Gets an object that can be used to synchronize access to the . - - - An object that can be used to synchronize access to the . - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets or sets the with the specified key. - - - - - - Gets an object containing the keys of the object. - - - An object containing the keys of the object. - - - - Gets an object containing the values in the object. - - - An object containing the values in the object. - - - - Gets a value indicating whether the object has a fixed size. - - - true if the object has a fixed size; otherwise, false. - - - - Represents a 'streamable' resource. Can - be a file, a resource in an assembly. - - - - - Returns a reader for the stream - - - It's up to the caller to dispose the reader. - - - - - - Returns a reader for the stream - - - It's up to the caller to dispose the reader. - - - - - - - Returns an instance of - created according to the relativePath - using itself as the root. - - - - - - - - - - Only valid for resources that - can be obtained through relative paths - - - - - - - - - - This returns a new stream instance each time it is called. - It is the responsibility of the caller to dispose of this stream - - - - - Depicts the contract for resource factories. - - - - - Used to check whether the resource factory - is able to deal with the given resource - identifier. - - - Implementors should return true - only if the given identifier is supported - by the resource factory - - - - - - - Creates an instance - for the given resource identifier - - - - - - - Creates an instance - for the given resource identifier - - - - - - - - - - - - - - - - - - Adapts a static string content as an - - - - - Enable access to files on network shares - - - - - Email sender abstraction. - - - - - Sends a mail message. - - From field - To field - E-mail's subject - message's body - - - - Sends a message. - - Message instance - - - - Sends multiple messages. - - List of messages - - - - Default implementation. - - - - - Initializes a new instance of the class based on the configuration provided in the application configuration file. - - - This constructor is based on the default configuration in the application configuration file. - - - - - This service implementation - requires a host name in order to work - - The smtp server name - - - - Sends a message. - - If any of the parameters is null - From field - To field - e-mail's subject - message's body - - - - Sends a message. - - If the message is null - Message instance - - - - Configures the sender - with port information and eventual credential - informed - - Message instance - - - - Gets or sets the port used to - access the SMTP server - - - - - Gets the hostname. - - The hostname. - - - - Gets or sets a value which is used to - configure if emails are going to be sent asynchronously or not. - - - - - Gets or sets a value that specifies - the amount of time after which a synchronous Send call times out. - - - - - Gets or sets a value indicating whether the email should be sent using - a secure communication channel. - - true if should use SSL; otherwise, false. - - - - Gets or sets the domain. - - The domain. - - - - Gets or sets the name of the user. - - The name of the user. - - - - Gets or sets the password. - - The password. - - - - Gets a value indicating whether credentials were informed. - - - if this instance has credentials; otherwise, . - - - - + + + + Castle.Core + + + + + Specifies assignment by reference rather than by copying. + + + + + Suppresses any on-demand behaviors. + + + + + Removes a property if null or empty string, guid or collection. + + + + + Removes a property if matches value. + + + + + Assigns a specific dictionary key. + + + + + Defines the contract for customizing dictionary access. + + + + + Copies the dictionary behavior. + + null if should not be copied. Otherwise copy. + + + + Determines relative order to apply related behaviors. + + + + + Defines the contract for updating dictionary values. + + + + + Sets the stored dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if the property should be stored. + + + + Contract for value matching. + + + + + Indicates that underlying values are changeable and should not be cached. + + + + + Contract for dictionary initialization. + + + + + Performs any initialization of the + + The dictionary adapter. + The dictionary behaviors. + + + + Abstract implementation of . + + + + + Conract for traversing a . + + + + + Contract for creating additional Dictionary adapters. + + + + + Contract for manipulating the Dictionary adapter. + + + + + Contract for editing the Dictionary adapter. + + + + + Contract for managing Dictionary adapter notifications. + + + + + Contract for validating Dictionary adapter. + + + + + Defines the contract for building s. + + + + + Builds the dictionary behaviors. + + + + + + Abstract adapter for the support + needed by the + + + + + Adds an element with the provided key and value to the object. + + The to use as the key of the element to add. + The to use as the value of the element to add. + An element with the same key already exists in the object. + key is null. + The is read-only.-or- The has a fixed size. + + + + Removes all elements from the object. + + The object is read-only. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + key is null. + + + + Returns an object for the object. + + + An object for the object. + + + + + Removes the element with the specified key from the object. + + The key of the element to remove. + The object is read-only.-or- The has a fixed size. + key is null. + + + + Copies the elements of the to an , starting at a particular index. + + The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. + The zero-based index in array at which copying begins. + array is null. + The type of the source cannot be cast automatically to the type of the destination array. + index is less than zero. + array is multidimensional.-or- index is equal to or greater than the length of array.-or- The number of elements in the source is greater than the available space from index to the end of the destination array. + + + + Returns an enumerator that iterates through a collection. + + + An object that can be used to iterate through the collection. + + + + + Gets a value indicating whether the object has a fixed size. + + + true if the object has a fixed size; otherwise, false. + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets an object containing the keys of the object. + + + An object containing the keys of the object. + + + + Gets an object containing the values in the object. + + + An object containing the values in the object. + + + + Gets or sets the with the specified key. + + + + + + Gets the number of elements contained in the . + + + The number of elements contained in the . + + + + Gets a value indicating whether access to the is synchronized (thread safe). + + + true if access to the is synchronized (thread safe); otherwise, false. + + + + Gets an object that can be used to synchronize access to the . + + + An object that can be used to synchronize access to the . + + + + Provides a generic collection that supports data binding. + + + This class wraps the CLR + in order to implement the Castle-specific . + + The type of elements in the list. + + + + Initializes a new instance of the class + using default values. + + + + + Initializes a new instance of the class + with the specified list. + + + An of items + to be contained in the . + + + + + Initializes a new instance of the class + wrapping the specified instance. + + + A + to be wrapped by the . + + + + + Defines the contract for retrieving dictionary values. + + + + + Gets the effective dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if return only existing. + The effective property value. + + + + Initializes a new instance of the class + that represents a child object in a larger object graph. + + + + + + + Contract for dictionary meta-data initialization. + + + + + Initializes the given object. + + The dictionary adapter factory. + The dictionary adapter meta. + + + + + Determines whether the given behavior should be included in a new + object. + + A dictionary behavior or annotation. + True if the behavior should be included; otherwise, false. + + behaviors are always included, + regardless of the result of this method. + + + + + + Checks whether or not collection is null or empty. Assumes colleciton can be safely enumerated multiple times. + + + + + + + Constant to use when making assembly internals visible to Castle.Core + [assembly: InternalsVisibleTo(CoreInternalsVisible.ToCastleCore)] + + + + + Constant to use when making assembly internals visible to proxy types generated by DynamicProxy. Required when proxying internal types. + [assembly: InternalsVisibleTo(CoreInternalsVisible.ToDynamicProxyGenAssembly2)] + + + + + Identifies a property should be represented as a nested component. + + + + + Defines the contract for building typed dictionary keys. + + + + + Builds the specified key. + + The dictionary adapter. + The current key. + The property. + The updated key + + + + Applies no prefix. + + + + + Gets or sets the prefix. + + The prefix. + + + + Identifies the dictionary adapter types. + + + + + Identifies an interface or property to be pre-fetched. + + + + + Instructs fetching to occur. + + + + + Instructs fetching according to + + + + + + Gets whether or not fetching should occur. + + + + + Assigns a property to a group. + + + + + Constructs a group assignment. + + The group name. + + + + Constructs a group assignment. + + The group name. + + + + Gets the group the property is assigned to. + + + + + Assigns a specific dictionary key. + + + + + Initializes a new instance of the class. + + The key. + + + + Initializes a new instance of the class. + + The compound key. + + + + Assigns a prefix to the keyed properties of an interface. + + + Key prefixes are not inherited by sub-interfaces. + + + + + Initializes a default instance of the class. + + + + + Initializes a new instance of the class. + + The prefix for the keyed properties of the interface. + + + + Gets the prefix key added to the properties of the interface. + + + + + Substitutes part of key with another string. + + + + + Initializes a new instance of the class. + + The old value. + The new value. + + + + Requests support for multi-level editing. + + + + + Generates a new GUID on demand. + + + + + Support for on-demand value resolution. + + + + + Provides simple string formatting from existing properties. + + + + + Gets the string format. + + + + + Gets the format properties. + + + + + Identifies a property should be represented as a delimited string value. + + + + + Gets the separator. + + + + + Converts all properties to strings. + + + + + Gets or sets the format. + + The format. + + + + Suppress property change notifications. + + + + + Contract for property descriptor initialization. + + + + + Performs any initialization of the + + The property descriptor. + The property behaviors. + + + + Assigns a prefix to the keyed properties using the interface name. + + + + + Manages conversion between property values. + + + + + Initializes a new instance of the class. + + The converter. + + + + Gets the effective dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if return only existing. + The effective property value. + + + + + + + + + Uses Reflection.Emit to expose the properties of a dictionary + through a dynamic implementation of a typed interface. + + + + + Defines the contract for building typed dictionary adapters. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + The property descriptor. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the namedValues. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the namedValues. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the . + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the . + + The type represented by T must be an interface with properties. + + + + + Gets the associated with the type. + + The typed interface. + The adapter meta-data. + + + + Gets the associated with the type. + + The typed interface. + The property descriptor. + The adapter meta-data. + + + + Gets the associated with the type. + + The typed interface. + Another from which to copy behaviors. + The adapter meta-data. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Contract for dictionary validation. + + + + + Determines if is valid. + + The dictionary adapter. + true if valid. + + + + Validates the . + + The dictionary adapter. + The error summary information. + + + + Validates the for a property. + + The dictionary adapter. + The property to validate. + The property summary information. + + + + Invalidates any results cached by the validator. + + The dictionary adapter. + + + + + + + + + Initializes a new instance of the class. + + The name values. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + key is null. + + + + Adapts the specified name values. + + The name values. + + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets or sets the with the specified key. + + + + + + Describes a dictionary property. + + + + + Initializes an empty class. + + + + + Initializes a new instance of the class. + + The property. + The annotations. + + + + Initializes a new instance class. + + + + + Copies an existinginstance of the class. + + + + + + + Gets the key. + + The dictionary adapter. + The key. + The descriptor. + + + + + Gets the property value. + + The dictionary adapter. + The key. + The stored value. + The descriptor. + true if return only existing. + + + + + Sets the property value. + + The dictionary adapter. + The key. + The value. + The descriptor. + + + + + Adds a single behavior. + + The behavior. + + + + Adds the behaviors. + + The behaviors. + + + + Adds the behaviors. + + The behaviors. + + + + Copies the behaviors to the other + + + + + + + Copies the + + + + + + + + + + + Gets the property name. + + + + + Gets the property type. + + + + + Gets the property. + + The property. + + + + Returns true if the property is dynamic. + + + + + Gets additional state. + + + + + Determines if property should be fetched. + + + + + Determines if property must exist first. + + + + + Determines if notifications should occur. + + + + + Gets the property behaviors. + + + + + Gets the type converter. + + The type converter. + + + + Gets the extended properties. + + + + + Gets the setter. + + The setter. + + + + Gets the key builders. + + The key builders. + + + + Gets the setter. + + The setter. + + + + Gets the getter. + + The getter. + + + + Gets the initializers. + + The initializers. + + + + Gets the meta-data initializers. + + The meta-data initializers. + + + + Helper class for retrieving attributes. + + + + + Gets the attribute. + + The member. + The member attribute. + + + + Gets the attributes. Does not consider inherited attributes! + + The member. + The member attributes. + + + + Gets the type attribute. + + The type. + The type attribute. + + + + Gets the type attributes. + + The type. + The type attributes. + + + + Gets the type converter. + + The member. + + + + + Gets the attribute. + + The member. + The member attribute. + + + + Contract for typed dynamic value resolution. + + + + + + Contract for dynamic value resolution. + + + + + Supporting Logger levels. + + + + + Logging will be off + + + + + Fatal logging level + + + + + Error logging level + + + + + Warn logging level + + + + + Info logging level + + + + + Debug logging level + + + + + Encapsulates an invocation of a proxied method. + + + + + Gets the value of the argument at the specified . + + The index. + The value of the argument at the specified . + + + + Returns the concrete instantiation of the on the proxy, with any generic + parameters bound to real types. + + + The concrete instantiation of the on the proxy, or the if + not a generic method. + + + Can be slower than calling . + + + + + Returns the concrete instantiation of , with any + generic parameters bound to real types. + For interface proxies, this will point to the on the target class. + + The concrete instantiation of , or + if not a generic method. + + In debug builds this can be slower than calling . + + + + + Proceeds the call to the next interceptor in line, and ultimately to the target method. + + + Since interface proxies without a target don't have the target implementation to proceed to, + it is important, that the last interceptor does not call this method, otherwise a + will be thrown. + + + + + Overrides the value of an argument at the given with the + new provided. + + + This method accepts an , however the value provided must be compatible + with the type of the argument defined on the method, otherwise an exception will be thrown. + + The index of the argument to override. + The new value for the argument. + + + + Gets the arguments that the has been invoked with. + + The arguments the method was invoked with. + + + + Gets the generic arguments of the method. + + The generic arguments, or null if not a generic method. + + + + Gets the object on which the invocation is performed. This is different from proxy object + because most of the time this will be the proxy target object. + + + The invocation target. + + + + Gets the representing the method being invoked on the proxy. + + The representing the method being invoked. + + + + For interface proxies, this will point to the on the target class. + + The method invocation target. + + + + Gets the proxy object on which the intercepted method is invoked. + + Proxy object on which the intercepted method is invoked. + + + + Gets or sets the return value of the method. + + The return value of the method. + + + + Gets the type of the target object for the intercepted method. + + The type of the target object. + + + + Used during the target type inspection process. Implementors have a chance to customize the + proxy generation process. + + + + + Invoked by the generation process to notify that the whole process has completed. + + + + + Invoked by the generation process to notify that a member was not marked as virtual. + + The type which declares the non-virtual member. + The non-virtual member. + + This method gives an opportunity to inspect any non-proxyable member of a type that has + been requested to be proxied, and if appropriate - throw an exception to notify the caller. + + + + + Invoked by the generation process to determine if the specified method should be proxied. + + The type which declares the given method. + The method to inspect. + True if the given method should be proxied; false otherwise. + + + + Interface describing elements composing generated type + + + + + Performs some basic screening and invokes the + to select methods. + + + + + + + + + Provides functionality for disassembling instances of attributes to CustomAttributeBuilder form, during the process of emiting new types by Dynamic Proxy. + + + + + Disassembles given attribute instance back to corresponding CustomAttributeBuilder. + + An instance of attribute to disassemble + corresponding 1 to 1 to given attribute instance, or null reference. + + Implementers should return that corresponds to given attribute instance 1 to 1, + that is after calling specified constructor with specified arguments, and setting specified properties and fields with values specified + we should be able to get an attribute instance identical to the one passed in . Implementer can return null + if it wishes to opt out of replicating the attribute. Notice however, that for some cases, like attributes passed explicitly by the user + it is illegal to return null, and doing so will result in exception. + + + + + Handles error during disassembly process + + Type of the attribute being disassembled + Exception thrown during the process + usually null, or (re)throws the exception + + + + Here we try to match a constructor argument to its value. + Since we can't get the values from the assembly, we use some heuristics to get it. + a/ we first try to match all the properties on the attributes by name (case insensitive) to the argument + b/ if we fail we try to match them by property type, with some smarts about convertions (i,e: can use Guid for string). + + + + + We have the following rules here. + Try to find a matching type, failing that, if the parameter is string, get the first property (under the assumption that + we can convert it. + + + + + Attributes can only accept simple types, so we return null for null, + if the value is passed as string we call to string (should help with converting), + otherwise, we use the value as is (enums, integer, etc). + + + + + Returns list of all unique interfaces implemented given types, including their base interfaces. + + + + + + + Applied to the assemblies saved by in order to persist the cache data included in the persisted assembly. + + + + + Base class that exposes the common functionalities + to proxy generation. + + + + + It is safe to add mapping (no mapping for the interface exists) + + + + + + + + Generates a parameters constructor that initializes the proxy + state with just to make it non-null. + + This constructor is important to allow proxies to be XML serializable + + + + + + Generates the constructor for the class that extends + + + + + + + + + Default implementation of interface producing in-memory proxy assemblies. + + + + + Abstracts the implementation of proxy type construction. + + + + + Creates a proxy type for given , implementing , using provided. + + The class type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified class and interfaces. + Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type that proxies calls to members on , implementing , using provided. + + The interface type to proxy. + Additional interface types to proxy. + Type implementing on which calls to the interface members should be intercepted. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface that 'proceeds' executions to the specified target. + Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type for given and that delegates all calls to the provided interceptors and allows interceptors to switch the actual target of invocation. + + The interface type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface(s) that delegate all executions to the specified interceptors + and uses an instance of the interface as their targets (i.e. ), rather than a class. All classes should then implement interface, + to allow interceptors to switch invocation target with instance of another type implementing called interface. + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type for given that delegates all calls to the provided interceptors. + + The interface type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface and additional interfaces that delegate all executions to the specified interceptors. + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Gets or sets the that this logs to. + + + + + Gets the associated with this builder. + + The module scope associated with this builder. + + + + Initializes a new instance of the class with new . + + + + + Initializes a new instance of the class. + + The module scope for generated proxy types. + + + + Registers custom disassembler to handle disassembly of specified type of attributes. + + Type of attributes to handle + Disassembler converting existing instances of Attributes to CustomAttributeBuilders + + When disassembling an attribute Dynamic Proxy will first check if an custom disassembler has been registered to handle attributes of that type, + and if none is found, it'll use the . + + + + + Attributes should be replicated if they are non-inheritable, + but there are some special cases where the attributes means + something to the CLR, where they should be skipped. + + + + + Initializes a new instance of the class. + + Target element. This is either target type or target method for invocation types. + The type of the proxy. This is base type for invocation types. + The interfaces. + The options. + + + + Initializes a new instance of the class. + + Type of the target. + The interfaces. + The options. + + + + s + Provides appropriate Ldc.X opcode for the type of primitive value to be loaded. + + + + + Provides appropriate Ldind.X opcode for + the type of primitive value to be loaded indirectly. + + + + + Emits a load indirect opcode of the appropriate type for a value or object reference. + Pops a pointer off the evaluation stack, dereferences it and loads + a value of the specified type. + + + + + + + Emits a load opcode of the appropriate kind for a constant string or + primitive value. + + + + + + + Emits a load opcode of the appropriate kind for the constant default value of a + type, such as 0 for value types and null for reference types. + + + + + Emits a store indirectopcode of the appropriate type for a value or object reference. + Pops a value of the specified type and a pointer off the evaluation stack, and + stores the value. + + + + + + + Summary description for PropertiesCollection. + + + + + Wraps a reference that is passed + ByRef and provides indirect load/store support. + + + + + Summary description for NewArrayExpression. + + + + + + + + + Provides appropriate Stind.X opcode + for the type of primitive value to be stored indirectly. + + + + + Initializes a new instance of the class. + + The name. + Type declaring the original event being overriten, or null. + + The add method. + The remove method. + The attributes. + + + + Represents the scope of uniquenes of names for types and their members + + + + + Gets a unique name based on + + Name suggested by the caller + Unique name based on . + + Implementers should provide name as closely resembling as possible. + Generally if no collision occurs it is suggested to return suggested name, otherwise append sequential suffix. + Implementers must return deterministic names, that is when is called twice + with the same suggested name, the same returned name should be provided each time. Non-deterministic return + values, like appending random suffices will break serialization of proxies. + + + + + Returns new, disposable naming scope. It is responsibilty of the caller to make sure that no naming collision + with enclosing scope, or other subscopes is possible. + + New naming scope. + + + + Returns the methods implemented by a type. Use this instead of Type.GetMethods() to work around a CLR issue + where duplicate MethodInfos are returned by Type.GetMethods() after a token of a generic type's method was loaded. + + + + + Determines whether the specified method is internal. + + The method. + + true if the specified method is internal; otherwise, false. + + + + + Determines whether this assembly has internals visible to dynamic proxy. + + The assembly to inspect. + + + + Checks if the method is public or protected. + + + + + + + Because we need to cache the types based on the mixed in mixins, we do the following here: + - Get all the mixin interfaces + - Sort them by full name + - Return them by position + + The idea is to have reproducible behavior for the case that mixins are registered in different orders. + This method is here because it is required + + + + + Summary description for ModuleScope. + + + + + The default file name used when the assembly is saved using . + + + + + The default assembly (simple) name used for the assemblies generated by a instance. + + + + + Initializes a new instance of the class; assemblies created by this instance will not be saved. + + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved. + + If set to true saves the generated module. + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved and what simple names are to be assigned to them. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + The simple name of the strong-named assembly generated by this . + The path and file name of the manifest module of the strong-named assembly generated by this . + The simple name of the weak-named assembly generated by this . + The path and file name of the manifest module of the weak-named assembly generated by this . + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved and what simple names are to be assigned to them. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + Naming scope used to provide unique names to generated types and their members (usually via sub-scopes). + The simple name of the strong-named assembly generated by this . + The path and file name of the manifest module of the strong-named assembly generated by this . + The simple name of the weak-named assembly generated by this . + The path and file name of the manifest module of the weak-named assembly generated by this . + + + + Returns a type from this scope's type cache, or null if the key cannot be found. + + The key to be looked up in the cache. + The type from this scope's type cache matching the key, or null if the key cannot be found + + + + Registers a type in this scope's type cache. + + The key to be associated with the type. + The type to be stored in the cache. + + + + Gets the key pair used to sign the strong-named assembly generated by this . + + + + + + Gets the specified module generated by this scope, creating a new one if none has yet been generated. + + If set to true, a strong-named module is returned; otherwise, a weak-named module is returned. + A strong-named or weak-named module generated by this scope, as specified by the parameter. + + + + Gets the strong-named module generated by this scope, creating a new one if none has yet been generated. + + A strong-named module generated by this scope. + + + + Gets the weak-named module generated by this scope, creating a new one if none has yet been generated. + + A weak-named module generated by this scope. + + + + Saves the generated assembly with the name and directory information given when this instance was created (or with + the and current directory if none was given). + + + + This method stores the generated assembly in the directory passed as part of the module information specified when this instance was + constructed (if any, else the current directory is used). If both a strong-named and a weak-named assembly + have been generated, it will throw an exception; in this case, use the overload. + + + If this was created without indicating that the assembly should be saved, this method does nothing. + + + Both a strong-named and a weak-named assembly have been generated. + The path of the generated assembly file, or null if no file has been generated. + + + + Saves the specified generated assembly with the name and directory information given when this instance was created + (or with the and current directory if none was given). + + True if the generated assembly with a strong name should be saved (see ); + false if the generated assembly without a strong name should be saved (see . + + + This method stores the specified generated assembly in the directory passed as part of the module information specified when this instance was + constructed (if any, else the current directory is used). + + + If this was created without indicating that the assembly should be saved, this method does nothing. + + + No assembly has been generated that matches the parameter. + + The path of the generated assembly file, or null if no file has been generated. + + + + Loads the generated types from the given assembly into this 's cache. + + The assembly to load types from. This assembly must have been saved via or + , or it must have the manually applied. + + This method can be used to load previously generated and persisted proxy types from disk into this scope's type cache, eg. in order + to avoid the performance hit associated with proxy generation. + + + + + Users of this should use this lock when accessing the cache. + + + + + Gets the strong-named module generated by this scope, or if none has yet been generated. + + The strong-named module generated by this scope, or if none has yet been generated. + + + + Gets the file name of the strongly named module generated by this scope. + + The file name of the strongly named module generated by this scope. + + + + Gets the directory where the strongly named module generated by this scope will be saved, or if the current directory + is used. + + The directory where the strongly named module generated by this scope will be saved when is called + (if this scope was created to save modules). + + + + Gets the weak-named module generated by this scope, or if none has yet been generated. + + The weak-named module generated by this scope, or if none has yet been generated. + + + + Gets the file name of the weakly named module generated by this scope. + + The file name of the weakly named module generated by this scope. + + + + Gets the directory where the weakly named module generated by this scope will be saved, or if the current directory + is used. + + The directory where the weakly named module generated by this scope will be saved when is called + (if this scope was created to save modules). + + + + ProxyBuilder that persists the generated type. + + + The saved assembly contains just the last generated type. + + + + + Initializes a new instance of the class. + + + + + Saves the generated assembly to a physical file. Note that this renders the unusable. + + The path of the generated assembly file, or null if no assembly has been generated. + + This method does not support saving multiple files. If both a signed and an unsigned module have been generated, use the + respective methods of the . + + + + + Initializes a new instance of the class. + + The hook. + + + + Initializes a new instance of the class. + + + + + Provides proxy objects for classes and interfaces. + + + + + Initializes a new instance of the class. + + Proxy types builder. + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + If true forces all types to be generated into an unsigned module. + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + Object proxying calls to members of on object. + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no parameterless constructor exists on type . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no parameterless constructor exists on type . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates the proxy type for class proxy with given class, implementing given and using provided . + + The base class for proxy type. + The interfaces that proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy with target for given interface, implementing given on given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + Actual type that the proxy type will encompass. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy with target interface for given interface, implementing given on given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy without target for given interface, implementing given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Gets or sets the that this log to. + + + + + Gets the proxy builder instance used to generate proxy types. + + The proxy builder. + + + + + + + + + + + + + For interface proxies, this will point to the + on the target class + + + + + Handles the deserialization of proxies. + + + + + Resets the used for deserialization to a new scope. + + + This is useful for test cases. + + + + + Resets the used for deserialization to a given . + + The scope to be used for deserialization. + + By default, the deserialization process uses a different scope than the rest of the application, which can lead to multiple proxies + being generated for the same type. By explicitly setting the deserialization scope to the application's scope, this can be avoided. + + + + + Gets the used for deserialization. + + As has no way of automatically determining the scope used by the application (and the application might use more than one scope at the same time), uses a dedicated scope instance for deserializing proxy types. This instance can be reset and set to a specific value via and . + + + + Holds objects representing methods of class. + + + + + Holds objects representing methods of class. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Provides an extension point that allows proxies to choose specific interceptors on + a per method basis. + + + + + Selects the interceptors that should intercept calls to the given . + + The type declaring the method to intercept. + The method that will be intercepted. + All interceptors registered with the proxy. + An array of interceptors to invoke upon calling the . + + This method is called only once per proxy instance, upon the first call to the + . Either an empty array or null are valid return values to indicate + that no interceptor should intercept calls to the method. Although it is not advised, it is + legal to return other implementations than these provided in + . + + + + + Creates a new lock. + + + + + + This interface should be implemented by classes + that are available in a bigger context, exposing + the container to different areas in the same application. + + For example, in Web application, the (global) HttpApplication + subclasses should implement this interface to expose + the configured container + + + + + + Exposes means to change target objects of proxies and invocations + + + + + Changes the target object () of current . + + The new value of target of invocation. + + Although the method takes the actual instance must be of type assignable to , otherwise an will be thrown. + Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. + In this case last interceptor in the pipeline mustn't call or a will be throws. + Also while it's technically legal to pass proxy itself as , this would create stack overflow. + In this case last interceptor in the pipeline mustn't call or a will be throws. + + Thrown when is not assignable to the proxied type. + + + + Permanently changes the target object of the proxy. This does not affect target of the current invocation. + + The new value of target of the proxy. + + Although the method takes the actual instance must be of type assignable to proxy's target type, otherwise an will be thrown. + Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. + In this case last interceptor in the pipeline mustn't call or a will be throws. + Also while it's technically legal to pass proxy itself as , this would create stack overflow. + In this case last interceptor in the pipeline mustn't call or a will be throws. + + Thrown when is not assignable to the proxied type. + + + + New interface that is going to be used by DynamicProxy 2 + + + + + Get the proxy target (note that null is a valid target!) + + + + + + Gets the interceptors for the proxy + + + + + + Defines that the implementation wants a + in order to + access other components. The creator must be aware + that the component might (or might not) implement + the interface. + + + Used by Castle Project components to, for example, + gather logging factories + + + + + Increments IServiceProvider with a generic service resolution operation. + + + + + Provides a factory that can produce either or + classes. + + + + + Manages the instantiation of s. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Gets the configuration file. + + i.e. log4net.config + + + + + Used to create the TraceLogger implementation of ILogger interface. See . + + + + + Gets the configuration file. + + i.e. log4net.config + + + + + Interface for Context Properties implementations + + + + This interface defines a basic property get set accessor. + + + Based on the ContextPropertiesBase of log4net, by Nicko Cadell. + + + + + + Gets or sets the value of a property + + + The value for the property with the specified key + + + + Gets or sets the value of a property + + + + + + NullLogFactory used when logging is turned off. + + + + + Creates an instance of ILogger with the specified name. + + Name. + + + + + Creates an instance of ILogger with the specified name and LoggerLevel. + + Name. + Level. + + + + + Creates outputing + to files. The name of the file is derived from the log name + plus the 'log' extension. + + + + + Provides an interface that supports and + allows the storage and retrieval of Contexts. These are supported in + both log4net and NLog. + + + + + Manages logging. + + + This is a facade for the different logging subsystems. + It offers a simplified interface that follows IOC patterns + and a simplified priority/level/severity abstraction. + + + + + Create a new child logger. + The name of the child logger is [current-loggers-name].[passed-in-name] + + The Subname of this logger. + The New ILogger instance. + If the name has an empty element name. + + + + Logs a debug message. + + The message to log + + + + Logs a debug message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a debug message. + + The exception to log + The message to log + + + + Logs a debug message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The message to log + + + + Logs an error message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs an error message. + + The exception to log + The message to log + + + + Logs an error message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The message to log + + + + Logs a fatal message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a fatal message. + + The exception to log + The message to log + + + + Logs a fatal message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The message to log + + + + Logs a info message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs an info message. + + The exception to log + The message to log + + + + Logs an info message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The message to log + + + + Logs a warn message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a warn message. + + The exception to log + The message to log + + + + Logs a warn message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Determines if messages of priority "debug" will be logged. + + True if "debug" messages will be logged. + + + + Determines if messages of priority "error" will be logged. + + True if "error" messages will be logged. + + + + Determines if messages of priority "fatal" will be logged. + + True if "fatal" messages will be logged. + + + + Determines if messages of priority "info" will be logged. + + True if "info" messages will be logged. + + + + Determines if messages of priority "warn" will be logged. + + True if "warn" messages will be logged. + + + + Exposes the Global Context of the extended logger. + + + + + Exposes the Thread Context of the extended logger. + + + + + Exposes the Thread Stack of the extended logger. + + + + + The Logger sending everything to the standard output streams. + This is mainly for the cases when you have a utility that + does not have a logger to supply. + + + + + The Level Filtered Logger class. This is a base clase which + provides a LogLevel attribute and reroutes all functions into + one Log method. + + + + + Creates a new LevelFilteredLogger. + + + + + Keep the instance alive in a remoting scenario + + + + + + Logs a debug message. + + The message to log + + + + Logs a debug message. + + The exception to log + The message to log + + + + Logs a debug message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The message to log + + + + Logs an info message. + + The exception to log + The message to log + + + + Logs an info message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The message to log + + + + Logs a warn message. + + The exception to log + The message to log + + + + Logs a warn message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The message to log + + + + Logs an error message. + + The exception to log + The message to log + + + + Logs an error message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The message to log + + + + Logs a fatal message. + + The exception to log + The message to log + + + + Logs a fatal message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Implementors output the log content by implementing this method only. + Note that exception can be null + + + + + + + + + The LoggerLevel that this logger + will be using. Defaults to LoggerLevel.Off + + + + + The name that this logger will be using. + Defaults to String.Empty + + + + + Determines if messages of priority "debug" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "info" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "warn" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "error" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "fatal" will be logged. + + true if log level flags include the bit + + + + Creates a new ConsoleLogger with the Level + set to LoggerLevel.Debug and the Name + set to String.Empty. + + + + + Creates a new ConsoleLogger with the Name + set to String.Empty. + + The logs Level. + + + + Creates a new ConsoleLogger with the Level + set to LoggerLevel.Debug. + + The logs Name. + + + + Creates a new ConsoleLogger. + + The logs Name. + The logs Level. + + + + A Common method to log. + + The level of logging + The name of the logger + The Message + The Exception + + + + Returns a new ConsoleLogger with the name + added after this loggers name, with a dot in between. + + The added hierarchical name. + A new ConsoleLogger. + + + + The Logger using standart Diagnostics namespace. + + + + + Creates a logger based on . + + + + + + Creates a logger based on . + + + + + + + Creates a logger based on . + + + + + + + + The Null Logger class. This is useful for implementations where you need + to provide a logger to a utility class, but do not want any output from it. + It also helps when you have a utility that does not have a logger to supply. + + + + + Returns this NullLogger. + + Ignored + This ILogger instance. + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + Returns empty context properties. + + + + + Returns empty context properties. + + + + + Returns empty context stacks. + + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + The Stream Logger class. This class can stream log information + to any stream, it is suitable for storing a log file to disk, + or to a MemoryStream for testing your components. + + + This logger is not thread safe. + + + + + Creates a new StreamLogger with default encoding + and buffer size. Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + + + Creates a new StreamLogger with default buffer size. + Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + The encoding that will be used for this stream. + + + + + + Creates a new StreamLogger. + Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + The encoding that will be used for this stream. + + + + The buffer size that will be used for this stream. + + + + + + Creates a new StreamLogger with + Debug as default Level. + + The name of the log. + The StreamWriter the log will write to. + + + + The TraceLogger sends all logging to the System.Diagnostics.TraceSource + built into the .net framework. + + + Logging can be configured in the system.diagnostics configuration + section. + + If logger doesn't find a source name with a full match it will + use source names which match the namespace partially. For example you can + configure from all castle components by adding a source name with the + name "Castle". + + If no portion of the namespace matches the source named "Default" will + be used. + + + + + Build a new trace logger based on the named TraceSource + + The name used to locate the best TraceSource. In most cases comes from the using type's fullname. + + + + Build a new trace logger based on the named TraceSource + + The name used to locate the best TraceSource. In most cases comes from the using type's fullname. + The default logging level at which this source should write messages. In almost all cases this + default value will be overridden in the config file. + + + + Create a new child logger. + The name of the child logger is [current-loggers-name].[passed-in-name] + + The Subname of this logger. + The New ILogger instance. + + + + This is an abstract implementation + that deals with methods that can be abstracted away + from underlying implementations. + + + AbstractConfiguration makes easier to implementers + to create a new version of + + + + + is a interface encapsulating a configuration node + used to retrieve configuration values. + + + + + Gets the value of the node and converts it + into specified . + + The + + The Default value returned if the conversion fails. + + The Value converted into the specified type. + + + + Gets the name of the node. + + + The Name of the node. + + + + + Gets the value of the node. + + + The Value of the node. + + + + + Gets an of + elements containing all node children. + + The Collection of child nodes. + + + + Gets an of the configuration attributes. + + + + + Gets the value of the node and converts it + into specified . + + The + + The Default value returned if the conversion fails. + + The Value converted into the specified type. + + + + Gets node attributes. + + + All attributes of the node. + + + + + Gets all child nodes. + + The of child nodes. + + + + Gets the name of the . + + + The Name of the . + + + + + Gets the value of . + + + The Value of the . + + + + + A collection of objects. + + + + + Creates a new instance of ConfigurationCollection. + + + + + Creates a new instance of ConfigurationCollection. + + + + + Summary description for MutableConfiguration. + + + + + Initializes a new instance of the class. + + The name. + + + + Gets the value of . + + + The Value of the . + + + + + Deserializes the specified node into an abstract representation of configuration. + + The node. + + + + + If a config value is an empty string we return null, this is to keep + backward compatibility with old code + + + + + General purpose class to represent a standard pair of values. + + Type of the first value + Type of the second value + + + + Constructs a pair with its values + + + + + + + List of utility methods related to dynamic proxy operations + + + + + Determines whether the specified type is a proxy generated by + DynamicProxy (1 or 2). + + The type. + + true if it is a proxy; otherwise, false. + + + + + Readonly implementation of which uses an anonymous object as its source. Uses names of properties as keys, and property values as... well - values. Keys are not case sensitive. + + + + + Initializes a new instance of the class. + + The target. + + + + Adds an element with the provided key and value to the object. + + The to use as the key of the element to add. + The to use as the value of the element to add. + + is null. + An element with the same key already exists in the object. + The is read-only.-or- The has a fixed size. + + + + Removes all elements from the object. + + The object is read-only. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + + is null. + + + + Removes the element with the specified key from the object. + + The key of the element to remove. + + is null. + The object is read-only.-or- The has a fixed size. + + + + Returns an enumerator that iterates through a collection. + + + An object that can be used to iterate through the collection. + + + + + Copies the elements of the to an , starting at a particular index. + + The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. + The zero-based index in at which copying begins. + + is null. + + is less than zero. + + is multidimensional.-or- is equal to or greater than the length of .-or- The number of elements in the source is greater than the available space from to the end of the destination . + The type of the source cannot be cast automatically to the type of the destination . + + + + Returns an object for the object. + + + An object for the object. + + + + + Reads values of properties from and inserts them into using property names as keys. + + + + + + + Gets the number of elements contained in the . + + + The number of elements contained in the . + + + + Gets a value indicating whether access to the is synchronized (thread safe). + + + true if access to the is synchronized (thread safe); otherwise, false. + + + + Gets an object that can be used to synchronize access to the . + + + An object that can be used to synchronize access to the . + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets or sets the with the specified key. + + + + + + Gets an object containing the keys of the object. + + + An object containing the keys of the object. + + + + Gets an object containing the values in the object. + + + An object containing the values in the object. + + + + Gets a value indicating whether the object has a fixed size. + + + true if the object has a fixed size; otherwise, false. + + + + Represents a 'streamable' resource. Can + be a file, a resource in an assembly. + + + + + Returns a reader for the stream + + + It's up to the caller to dispose the reader. + + + + + + Returns a reader for the stream + + + It's up to the caller to dispose the reader. + + + + + + + Returns an instance of + created according to the relativePath + using itself as the root. + + + + + + + + + + Only valid for resources that + can be obtained through relative paths + + + + + + + + + + This returns a new stream instance each time it is called. + It is the responsibility of the caller to dispose of this stream + + + + + Depicts the contract for resource factories. + + + + + Used to check whether the resource factory + is able to deal with the given resource + identifier. + + + Implementors should return true + only if the given identifier is supported + by the resource factory + + + + + + + Creates an instance + for the given resource identifier + + + + + + + Creates an instance + for the given resource identifier + + + + + + + + + + + + + + + + + + Adapts a static string content as an + + + + + Enable access to files on network shares + + + + + Email sender abstraction. + + + + + Sends a mail message. + + From field + To field + E-mail's subject + message's body + + + + Sends a message. + + Message instance + + + + Sends multiple messages. + + List of messages + + + + Default implementation. + + + + + Initializes a new instance of the class based on the configuration provided in the application configuration file. + + + This constructor is based on the default configuration in the application configuration file. + + + + + This service implementation + requires a host name in order to work + + The smtp server name + + + + Sends a message. + + If any of the parameters is null + From field + To field + e-mail's subject + message's body + + + + Sends a message. + + If the message is null + Message instance + + + + Configures the sender + with port information and eventual credential + informed + + Message instance + + + + Gets or sets the port used to + access the SMTP server + + + + + Gets the hostname. + + The hostname. + + + + Gets or sets a value which is used to + configure if emails are going to be sent asynchronously or not. + + + + + Gets or sets a value that specifies + the amount of time after which a synchronous Send call times out. + + + + + Gets or sets a value indicating whether the email should be sent using + a secure communication channel. + + true if should use SSL; otherwise, false. + + + + Gets or sets the domain. + + The domain. + + + + Gets or sets the name of the user. + + The name of the user. + + + + Gets or sets the password. + + The password. + + + + Gets a value indicating whether credentials were informed. + + + if this instance has credentials; otherwise, . + + + + diff --git a/packages/Castle.Core.3.2.1/lib/net45/Castle.Core.dll b/packages/Castle.Core.3.2.1/lib/net45/Castle.Core.dll new file mode 100644 index 0000000..ae363be Binary files /dev/null and b/packages/Castle.Core.3.2.1/lib/net45/Castle.Core.dll differ diff --git a/packages/Castle.Core.3.2.0/lib/net40-client/Castle.Core.xml b/packages/Castle.Core.3.2.1/lib/net45/Castle.Core.xml similarity index 98% rename from packages/Castle.Core.3.2.0/lib/net40-client/Castle.Core.xml rename to packages/Castle.Core.3.2.1/lib/net45/Castle.Core.xml index b20f738..6fa66c0 100644 --- a/packages/Castle.Core.3.2.0/lib/net40-client/Castle.Core.xml +++ b/packages/Castle.Core.3.2.1/lib/net45/Castle.Core.xml @@ -1,4754 +1,4754 @@ - - - - Castle.Core - - - - - Specifies assignment by reference rather than by copying. - - - - - Suppresses any on-demand behaviors. - - - - - Removes a property if null or empty string, guid or collection. - - - - - Removes a property if matches value. - - - - - Assigns a specific dictionary key. - - - - - Defines the contract for customizing dictionary access. - - - - - Copies the dictionary behavior. - - null if should not be copied. Otherwise copy. - - - - Determines relative order to apply related behaviors. - - - - - Defines the contract for updating dictionary values. - - - - - Sets the stored dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if the property should be stored. - - - - Contract for value matching. - - - - - Indicates that underlying values are changeable and should not be cached. - - - - - Contract for dictionary initialization. - - - - - Performs any initialization of the - - The dictionary adapter. - The dictionary behaviors. - - - - Abstract implementation of . - - - - - Conract for traversing a . - - - - - Contract for creating additional Dictionary adapters. - - - - - Contract for manipulating the Dictionary adapter. - - - - - Contract for editing the Dictionary adapter. - - - - - Contract for managing Dictionary adapter notifications. - - - - - Contract for validating Dictionary adapter. - - - - - Defines the contract for building s. - - - - - Builds the dictionary behaviors. - - - - - - Abstract adapter for the support - needed by the - - - - - Adds an element with the provided key and value to the object. - - The to use as the key of the element to add. - The to use as the value of the element to add. - An element with the same key already exists in the object. - key is null. - The is read-only.-or- The has a fixed size. - - - - Removes all elements from the object. - - The object is read-only. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - key is null. - - - - Returns an object for the object. - - - An object for the object. - - - - - Removes the element with the specified key from the object. - - The key of the element to remove. - The object is read-only.-or- The has a fixed size. - key is null. - - - - Copies the elements of the to an , starting at a particular index. - - The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. - The zero-based index in array at which copying begins. - array is null. - The type of the source cannot be cast automatically to the type of the destination array. - index is less than zero. - array is multidimensional.-or- index is equal to or greater than the length of array.-or- The number of elements in the source is greater than the available space from index to the end of the destination array. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - - - - Gets a value indicating whether the object has a fixed size. - - - true if the object has a fixed size; otherwise, false. - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets an object containing the keys of the object. - - - An object containing the keys of the object. - - - - Gets an object containing the values in the object. - - - An object containing the values in the object. - - - - Gets or sets the with the specified key. - - - - - - Gets the number of elements contained in the . - - - The number of elements contained in the . - - - - Gets a value indicating whether access to the is synchronized (thread safe). - - - true if access to the is synchronized (thread safe); otherwise, false. - - - - Gets an object that can be used to synchronize access to the . - - - An object that can be used to synchronize access to the . - - - - Provides a generic collection that supports data binding. - - - This class wraps the CLR - in order to implement the Castle-specific . - - The type of elements in the list. - - - - Initializes a new instance of the class - using default values. - - - - - Initializes a new instance of the class - with the specified list. - - - An of items - to be contained in the . - - - - - Initializes a new instance of the class - wrapping the specified instance. - - - A - to be wrapped by the . - - - - - Defines the contract for retrieving dictionary values. - - - - - Gets the effective dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if return only existing. - The effective property value. - - - - Initializes a new instance of the class - that represents a child object in a larger object graph. - - - - - - - Contract for dictionary meta-data initialization. - - - - - Initializes the given object. - - The dictionary adapter factory. - The dictionary adapter meta. - - - - - Determines whether the given behavior should be included in a new - object. - - A dictionary behavior or annotation. - True if the behavior should be included; otherwise, false. - - behaviors are always included, - regardless of the result of this method. - - - - - - Checks whether or not collection is null or empty. Assumes colleciton can be safely enumerated multiple times. - - - - - - - Constant to use when making assembly internals visible to Castle.Core - [assembly: InternalsVisibleTo(CoreInternalsVisible.ToCastleCore)] - - - - - Constant to use when making assembly internals visible to proxy types generated by DynamicProxy. Required when proxying internal types. - [assembly: InternalsVisibleTo(CoreInternalsVisible.ToDynamicProxyGenAssembly2)] - - - - - Identifies a property should be represented as a nested component. - - - - - Defines the contract for building typed dictionary keys. - - - - - Builds the specified key. - - The dictionary adapter. - The current key. - The property. - The updated key - - - - Applies no prefix. - - - - - Gets or sets the prefix. - - The prefix. - - - - Identifies the dictionary adapter types. - - - - - Identifies an interface or property to be pre-fetched. - - - - - Instructs fetching to occur. - - - - - Instructs fetching according to - - - - - - Gets whether or not fetching should occur. - - - - - Assigns a property to a group. - - - - - Constructs a group assignment. - - The group name. - - - - Constructs a group assignment. - - The group name. - - - - Gets the group the property is assigned to. - - - - - Assigns a specific dictionary key. - - - - - Initializes a new instance of the class. - - The key. - - - - Initializes a new instance of the class. - - The compound key. - - - - Assigns a prefix to the keyed properties of an interface. - - - Key prefixes are not inherited by sub-interfaces. - - - - - Initializes a default instance of the class. - - - - - Initializes a new instance of the class. - - The prefix for the keyed properties of the interface. - - - - Gets the prefix key added to the properties of the interface. - - - - - Substitutes part of key with another string. - - - - - Initializes a new instance of the class. - - The old value. - The new value. - - - - Requests support for multi-level editing. - - - - - Generates a new GUID on demand. - - - - - Support for on-demand value resolution. - - - - - Provides simple string formatting from existing properties. - - - - - Gets the string format. - - - - - Gets the format properties. - - - - - Identifies a property should be represented as a delimited string value. - - - - - Gets the separator. - - - - - Converts all properties to strings. - - - - - Gets or sets the format. - - The format. - - - - Suppress property change notifications. - - - - - Contract for property descriptor initialization. - - - - - Performs any initialization of the - - The property descriptor. - The property behaviors. - - - - Assigns a prefix to the keyed properties using the interface name. - - - - - Manages conversion between property values. - - - - - Initializes a new instance of the class. - - The converter. - - - - Gets the effective dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if return only existing. - The effective property value. - - - - - - - - - Uses Reflection.Emit to expose the properties of a dictionary - through a dynamic implementation of a typed interface. - - - - - Defines the contract for building typed dictionary adapters. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - The property descriptor. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the namedValues. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the namedValues. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the . - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the . - - The type represented by T must be an interface with properties. - - - - - Gets the associated with the type. - - The typed interface. - The adapter meta-data. - - - - Gets the associated with the type. - - The typed interface. - The property descriptor. - The adapter meta-data. - - - - Gets the associated with the type. - - The typed interface. - Another from which to copy behaviors. - The adapter meta-data. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Contract for dictionary validation. - - - - - Determines if is valid. - - The dictionary adapter. - true if valid. - - - - Validates the . - - The dictionary adapter. - The error summary information. - - - - Validates the for a property. - - The dictionary adapter. - The property to validate. - The property summary information. - - - - Invalidates any results cached by the validator. - - The dictionary adapter. - - - - - - - - - Initializes a new instance of the class. - - The name values. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - key is null. - - - - Adapts the specified name values. - - The name values. - - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets or sets the with the specified key. - - - - - - Describes a dictionary property. - - - - - Initializes an empty class. - - - - - Initializes a new instance of the class. - - The property. - The annotations. - - - - Initializes a new instance class. - - - - - Copies an existinginstance of the class. - - - - - - - Gets the key. - - The dictionary adapter. - The key. - The descriptor. - - - - - Gets the property value. - - The dictionary adapter. - The key. - The stored value. - The descriptor. - true if return only existing. - - - - - Sets the property value. - - The dictionary adapter. - The key. - The value. - The descriptor. - - - - - Adds a single behavior. - - The behavior. - - - - Adds the behaviors. - - The behaviors. - - - - Adds the behaviors. - - The behaviors. - - - - Copies the behaviors to the other - - - - - - - Copies the - - - - - - - - - - - Gets the property name. - - - - - Gets the property type. - - - - - Gets the property. - - The property. - - - - Returns true if the property is dynamic. - - - - - Gets additional state. - - - - - Determines if property should be fetched. - - - - - Determines if property must exist first. - - - - - Determines if notifications should occur. - - - - - Gets the property behaviors. - - - - - Gets the type converter. - - The type converter. - - - - Gets the extended properties. - - - - - Gets the setter. - - The setter. - - - - Gets the key builders. - - The key builders. - - - - Gets the setter. - - The setter. - - - - Gets the getter. - - The getter. - - - - Gets the initializers. - - The initializers. - - - - Gets the meta-data initializers. - - The meta-data initializers. - - - - Helper class for retrieving attributes. - - - - - Gets the attribute. - - The member. - The member attribute. - - - - Gets the attributes. Does not consider inherited attributes! - - The member. - The member attributes. - - - - Gets the type attribute. - - The type. - The type attribute. - - - - Gets the type attributes. - - The type. - The type attributes. - - - - Gets the type converter. - - The member. - - - - - Gets the attribute. - - The member. - The member attribute. - - - - Contract for typed dynamic value resolution. - - - - - - Contract for dynamic value resolution. - - - - - Supporting Logger levels. - - - - - Logging will be off - - - - - Fatal logging level - - - - - Error logging level - - - - - Warn logging level - - - - - Info logging level - - - - - Debug logging level - - - - - Encapsulates an invocation of a proxied method. - - - - - Gets the value of the argument at the specified . - - The index. - The value of the argument at the specified . - - - - Returns the concrete instantiation of the on the proxy, with any generic - parameters bound to real types. - - - The concrete instantiation of the on the proxy, or the if - not a generic method. - - - Can be slower than calling . - - - - - Returns the concrete instantiation of , with any - generic parameters bound to real types. - For interface proxies, this will point to the on the target class. - - The concrete instantiation of , or - if not a generic method. - - In debug builds this can be slower than calling . - - - - - Proceeds the call to the next interceptor in line, and ultimately to the target method. - - - Since interface proxies without a target don't have the target implementation to proceed to, - it is important, that the last interceptor does not call this method, otherwise a - will be thrown. - - - - - Overrides the value of an argument at the given with the - new provided. - - - This method accepts an , however the value provided must be compatible - with the type of the argument defined on the method, otherwise an exception will be thrown. - - The index of the argument to override. - The new value for the argument. - - - - Gets the arguments that the has been invoked with. - - The arguments the method was invoked with. - - - - Gets the generic arguments of the method. - - The generic arguments, or null if not a generic method. - - - - Gets the object on which the invocation is performed. This is different from proxy object - because most of the time this will be the proxy target object. - - - The invocation target. - - - - Gets the representing the method being invoked on the proxy. - - The representing the method being invoked. - - - - For interface proxies, this will point to the on the target class. - - The method invocation target. - - - - Gets the proxy object on which the intercepted method is invoked. - - Proxy object on which the intercepted method is invoked. - - - - Gets or sets the return value of the method. - - The return value of the method. - - - - Gets the type of the target object for the intercepted method. - - The type of the target object. - - - - Used during the target type inspection process. Implementors have a chance to customize the - proxy generation process. - - - - - Invoked by the generation process to notify that the whole process has completed. - - - - - Invoked by the generation process to notify that a member was not marked as virtual. - - The type which declares the non-virtual member. - The non-virtual member. - - This method gives an opportunity to inspect any non-proxyable member of a type that has - been requested to be proxied, and if appropriate - throw an exception to notify the caller. - - - - - Invoked by the generation process to determine if the specified method should be proxied. - - The type which declares the given method. - The method to inspect. - True if the given method should be proxied; false otherwise. - - - - Interface describing elements composing generated type - - - - - Performs some basic screening and invokes the - to select methods. - - - - - - - - - Provides functionality for disassembling instances of attributes to CustomAttributeBuilder form, during the process of emiting new types by Dynamic Proxy. - - - - - Disassembles given attribute instance back to corresponding CustomAttributeBuilder. - - An instance of attribute to disassemble - corresponding 1 to 1 to given attribute instance, or null reference. - - Implementers should return that corresponds to given attribute instance 1 to 1, - that is after calling specified constructor with specified arguments, and setting specified properties and fields with values specified - we should be able to get an attribute instance identical to the one passed in . Implementer can return null - if it wishes to opt out of replicating the attribute. Notice however, that for some cases, like attributes passed explicitly by the user - it is illegal to return null, and doing so will result in exception. - - - - - Handles error during disassembly process - - Type of the attribute being disassembled - Exception thrown during the process - usually null, or (re)throws the exception - - - - Here we try to match a constructor argument to its value. - Since we can't get the values from the assembly, we use some heuristics to get it. - a/ we first try to match all the properties on the attributes by name (case insensitive) to the argument - b/ if we fail we try to match them by property type, with some smarts about convertions (i,e: can use Guid for string). - - - - - We have the following rules here. - Try to find a matching type, failing that, if the parameter is string, get the first property (under the assumption that - we can convert it. - - - - - Attributes can only accept simple types, so we return null for null, - if the value is passed as string we call to string (should help with converting), - otherwise, we use the value as is (enums, integer, etc). - - - - - Returns list of all unique interfaces implemented given types, including their base interfaces. - - - - - - - Applied to the assemblies saved by in order to persist the cache data included in the persisted assembly. - - - - - Base class that exposes the common functionalities - to proxy generation. - - - - - It is safe to add mapping (no mapping for the interface exists) - - - - - - - - Generates a parameters constructor that initializes the proxy - state with just to make it non-null. - - This constructor is important to allow proxies to be XML serializable - - - - - - Generates the constructor for the class that extends - - - - - - - - - Default implementation of interface producing in-memory proxy assemblies. - - - - - Abstracts the implementation of proxy type construction. - - - - - Creates a proxy type for given , implementing , using provided. - - The class type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified class and interfaces. - Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type that proxies calls to members on , implementing , using provided. - - The interface type to proxy. - Additional interface types to proxy. - Type implementing on which calls to the interface members should be intercepted. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface that 'proceeds' executions to the specified target. - Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type for given and that delegates all calls to the provided interceptors and allows interceptors to switch the actual target of invocation. - - The interface type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface(s) that delegate all executions to the specified interceptors - and uses an instance of the interface as their targets (i.e. ), rather than a class. All classes should then implement interface, - to allow interceptors to switch invocation target with instance of another type implementing called interface. - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type for given that delegates all calls to the provided interceptors. - - The interface type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface and additional interfaces that delegate all executions to the specified interceptors. - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Gets or sets the that this logs to. - - - - - Gets the associated with this builder. - - The module scope associated with this builder. - - - - Initializes a new instance of the class with new . - - - - - Initializes a new instance of the class. - - The module scope for generated proxy types. - - - - Registers custom disassembler to handle disassembly of specified type of attributes. - - Type of attributes to handle - Disassembler converting existing instances of Attributes to CustomAttributeBuilders - - When disassembling an attribute Dynamic Proxy will first check if an custom disassembler has been registered to handle attributes of that type, - and if none is found, it'll use the . - - - - - Attributes should be replicated if they are non-inheritable, - but there are some special cases where the attributes means - something to the CLR, where they should be skipped. - - - - - Initializes a new instance of the class. - - Target element. This is either target type or target method for invocation types. - The type of the proxy. This is base type for invocation types. - The interfaces. - The options. - - - - Initializes a new instance of the class. - - Type of the target. - The interfaces. - The options. - - - - s - Provides appropriate Ldc.X opcode for the type of primitive value to be loaded. - - - - - Provides appropriate Ldind.X opcode for - the type of primitive value to be loaded indirectly. - - - - - Emits a load indirect opcode of the appropriate type for a value or object reference. - Pops a pointer off the evaluation stack, dereferences it and loads - a value of the specified type. - - - - - - - Emits a load opcode of the appropriate kind for a constant string or - primitive value. - - - - - - - Emits a load opcode of the appropriate kind for the constant default value of a - type, such as 0 for value types and null for reference types. - - - - - Emits a store indirectopcode of the appropriate type for a value or object reference. - Pops a value of the specified type and a pointer off the evaluation stack, and - stores the value. - - - - - - - Summary description for PropertiesCollection. - - - - - Wraps a reference that is passed - ByRef and provides indirect load/store support. - - - - - Summary description for NewArrayExpression. - - - - - - - - - Provides appropriate Stind.X opcode - for the type of primitive value to be stored indirectly. - - - - - Initializes a new instance of the class. - - The name. - Type declaring the original event being overriten, or null. - - The add method. - The remove method. - The attributes. - - - - Represents the scope of uniquenes of names for types and their members - - - - - Gets a unique name based on - - Name suggested by the caller - Unique name based on . - - Implementers should provide name as closely resembling as possible. - Generally if no collision occurs it is suggested to return suggested name, otherwise append sequential suffix. - Implementers must return deterministic names, that is when is called twice - with the same suggested name, the same returned name should be provided each time. Non-deterministic return - values, like appending random suffices will break serialization of proxies. - - - - - Returns new, disposable naming scope. It is responsibilty of the caller to make sure that no naming collision - with enclosing scope, or other subscopes is possible. - - New naming scope. - - - - Returns the methods implemented by a type. Use this instead of Type.GetMethods() to work around a CLR issue - where duplicate MethodInfos are returned by Type.GetMethods() after a token of a generic type's method was loaded. - - - - - Determines whether the specified method is internal. - - The method. - - true if the specified method is internal; otherwise, false. - - - - - Determines whether this assembly has internals visible to dynamic proxy. - - The assembly to inspect. - - - - Checks if the method is public or protected. - - - - - - - Because we need to cache the types based on the mixed in mixins, we do the following here: - - Get all the mixin interfaces - - Sort them by full name - - Return them by position - - The idea is to have reproducible behavior for the case that mixins are registered in different orders. - This method is here because it is required - - - - - Summary description for ModuleScope. - - - - - The default file name used when the assembly is saved using . - - - - - The default assembly (simple) name used for the assemblies generated by a instance. - - - - - Initializes a new instance of the class; assemblies created by this instance will not be saved. - - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved. - - If set to true saves the generated module. - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved and what simple names are to be assigned to them. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - The simple name of the strong-named assembly generated by this . - The path and file name of the manifest module of the strong-named assembly generated by this . - The simple name of the weak-named assembly generated by this . - The path and file name of the manifest module of the weak-named assembly generated by this . - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved and what simple names are to be assigned to them. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - Naming scope used to provide unique names to generated types and their members (usually via sub-scopes). - The simple name of the strong-named assembly generated by this . - The path and file name of the manifest module of the strong-named assembly generated by this . - The simple name of the weak-named assembly generated by this . - The path and file name of the manifest module of the weak-named assembly generated by this . - - - - Returns a type from this scope's type cache, or null if the key cannot be found. - - The key to be looked up in the cache. - The type from this scope's type cache matching the key, or null if the key cannot be found - - - - Registers a type in this scope's type cache. - - The key to be associated with the type. - The type to be stored in the cache. - - - - Gets the key pair used to sign the strong-named assembly generated by this . - - - - - - Gets the specified module generated by this scope, creating a new one if none has yet been generated. - - If set to true, a strong-named module is returned; otherwise, a weak-named module is returned. - A strong-named or weak-named module generated by this scope, as specified by the parameter. - - - - Gets the strong-named module generated by this scope, creating a new one if none has yet been generated. - - A strong-named module generated by this scope. - - - - Gets the weak-named module generated by this scope, creating a new one if none has yet been generated. - - A weak-named module generated by this scope. - - - - Saves the generated assembly with the name and directory information given when this instance was created (or with - the and current directory if none was given). - - - - This method stores the generated assembly in the directory passed as part of the module information specified when this instance was - constructed (if any, else the current directory is used). If both a strong-named and a weak-named assembly - have been generated, it will throw an exception; in this case, use the overload. - - - If this was created without indicating that the assembly should be saved, this method does nothing. - - - Both a strong-named and a weak-named assembly have been generated. - The path of the generated assembly file, or null if no file has been generated. - - - - Saves the specified generated assembly with the name and directory information given when this instance was created - (or with the and current directory if none was given). - - True if the generated assembly with a strong name should be saved (see ); - false if the generated assembly without a strong name should be saved (see . - - - This method stores the specified generated assembly in the directory passed as part of the module information specified when this instance was - constructed (if any, else the current directory is used). - - - If this was created without indicating that the assembly should be saved, this method does nothing. - - - No assembly has been generated that matches the parameter. - - The path of the generated assembly file, or null if no file has been generated. - - - - Loads the generated types from the given assembly into this 's cache. - - The assembly to load types from. This assembly must have been saved via or - , or it must have the manually applied. - - This method can be used to load previously generated and persisted proxy types from disk into this scope's type cache, eg. in order - to avoid the performance hit associated with proxy generation. - - - - - Users of this should use this lock when accessing the cache. - - - - - Gets the strong-named module generated by this scope, or if none has yet been generated. - - The strong-named module generated by this scope, or if none has yet been generated. - - - - Gets the file name of the strongly named module generated by this scope. - - The file name of the strongly named module generated by this scope. - - - - Gets the directory where the strongly named module generated by this scope will be saved, or if the current directory - is used. - - The directory where the strongly named module generated by this scope will be saved when is called - (if this scope was created to save modules). - - - - Gets the weak-named module generated by this scope, or if none has yet been generated. - - The weak-named module generated by this scope, or if none has yet been generated. - - - - Gets the file name of the weakly named module generated by this scope. - - The file name of the weakly named module generated by this scope. - - - - Gets the directory where the weakly named module generated by this scope will be saved, or if the current directory - is used. - - The directory where the weakly named module generated by this scope will be saved when is called - (if this scope was created to save modules). - - - - ProxyBuilder that persists the generated type. - - - The saved assembly contains just the last generated type. - - - - - Initializes a new instance of the class. - - - - - Saves the generated assembly to a physical file. Note that this renders the unusable. - - The path of the generated assembly file, or null if no assembly has been generated. - - This method does not support saving multiple files. If both a signed and an unsigned module have been generated, use the - respective methods of the . - - - - - Initializes a new instance of the class. - - The hook. - - - - Initializes a new instance of the class. - - - - - Provides proxy objects for classes and interfaces. - - - - - Initializes a new instance of the class. - - Proxy types builder. - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - If true forces all types to be generated into an unsigned module. - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - Object proxying calls to members of on object. - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no parameterless constructor exists on type . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no parameterless constructor exists on type . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates the proxy type for class proxy with given class, implementing given and using provided . - - The base class for proxy type. - The interfaces that proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy with target for given interface, implementing given on given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - Actual type that the proxy type will encompass. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy with target interface for given interface, implementing given on given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy without target for given interface, implementing given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Gets or sets the that this log to. - - - - - Gets the proxy builder instance used to generate proxy types. - - The proxy builder. - - - - - - - - - - - - - For interface proxies, this will point to the - on the target class - - - - - Handles the deserialization of proxies. - - - - - Resets the used for deserialization to a new scope. - - - This is useful for test cases. - - - - - Resets the used for deserialization to a given . - - The scope to be used for deserialization. - - By default, the deserialization process uses a different scope than the rest of the application, which can lead to multiple proxies - being generated for the same type. By explicitly setting the deserialization scope to the application's scope, this can be avoided. - - - - - Gets the used for deserialization. - - As has no way of automatically determining the scope used by the application (and the application might use more than one scope at the same time), uses a dedicated scope instance for deserializing proxy types. This instance can be reset and set to a specific value via and . - - - - Holds objects representing methods of class. - - - - - Holds objects representing methods of class. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Provides an extension point that allows proxies to choose specific interceptors on - a per method basis. - - - - - Selects the interceptors that should intercept calls to the given . - - The type declaring the method to intercept. - The method that will be intercepted. - All interceptors registered with the proxy. - An array of interceptors to invoke upon calling the . - - This method is called only once per proxy instance, upon the first call to the - . Either an empty array or null are valid return values to indicate - that no interceptor should intercept calls to the method. Although it is not advised, it is - legal to return other implementations than these provided in - . - - - - - Creates a new lock. - - - - - - This interface should be implemented by classes - that are available in a bigger context, exposing - the container to different areas in the same application. - - For example, in Web application, the (global) HttpApplication - subclasses should implement this interface to expose - the configured container - - - - - - Exposes means to change target objects of proxies and invocations - - - - - Changes the target object () of current . - - The new value of target of invocation. - - Although the method takes the actual instance must be of type assignable to , otherwise an will be thrown. - Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. - In this case last interceptor in the pipeline mustn't call or a will be throws. - Also while it's technically legal to pass proxy itself as , this would create stack overflow. - In this case last interceptor in the pipeline mustn't call or a will be throws. - - Thrown when is not assignable to the proxied type. - - - - Permanently changes the target object of the proxy. This does not affect target of the current invocation. - - The new value of target of the proxy. - - Although the method takes the actual instance must be of type assignable to proxy's target type, otherwise an will be thrown. - Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. - In this case last interceptor in the pipeline mustn't call or a will be throws. - Also while it's technically legal to pass proxy itself as , this would create stack overflow. - In this case last interceptor in the pipeline mustn't call or a will be throws. - - Thrown when is not assignable to the proxied type. - - - - New interface that is going to be used by DynamicProxy 2 - - - - - Get the proxy target (note that null is a valid target!) - - - - - - Gets the interceptors for the proxy - - - - - - Defines that the implementation wants a - in order to - access other components. The creator must be aware - that the component might (or might not) implement - the interface. - - - Used by Castle Project components to, for example, - gather logging factories - - - - - Increments IServiceProvider with a generic service resolution operation. - - - - - Provides a factory that can produce either or - classes. - - - - - Manages the instantiation of s. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Gets the configuration file. - - i.e. log4net.config - - - - - Used to create the TraceLogger implementation of ILogger interface. See . - - - - - Gets the configuration file. - - i.e. log4net.config - - - - - Interface for Context Properties implementations - - - - This interface defines a basic property get set accessor. - - - Based on the ContextPropertiesBase of log4net, by Nicko Cadell. - - - - - - Gets or sets the value of a property - - - The value for the property with the specified key - - - - Gets or sets the value of a property - - - - - - NullLogFactory used when logging is turned off. - - - - - Creates an instance of ILogger with the specified name. - - Name. - - - - - Creates an instance of ILogger with the specified name and LoggerLevel. - - Name. - Level. - - - - - Creates outputing - to files. The name of the file is derived from the log name - plus the 'log' extension. - - - - - Provides an interface that supports and - allows the storage and retrieval of Contexts. These are supported in - both log4net and NLog. - - - - - Manages logging. - - - This is a facade for the different logging subsystems. - It offers a simplified interface that follows IOC patterns - and a simplified priority/level/severity abstraction. - - - - - Create a new child logger. - The name of the child logger is [current-loggers-name].[passed-in-name] - - The Subname of this logger. - The New ILogger instance. - If the name has an empty element name. - - - - Logs a debug message. - - The message to log - - - - Logs a debug message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a debug message. - - The exception to log - The message to log - - - - Logs a debug message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The message to log - - - - Logs an error message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs an error message. - - The exception to log - The message to log - - - - Logs an error message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The message to log - - - - Logs a fatal message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a fatal message. - - The exception to log - The message to log - - - - Logs a fatal message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The message to log - - - - Logs a info message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs an info message. - - The exception to log - The message to log - - - - Logs an info message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The message to log - - - - Logs a warn message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a warn message. - - The exception to log - The message to log - - - - Logs a warn message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Determines if messages of priority "debug" will be logged. - - True if "debug" messages will be logged. - - - - Determines if messages of priority "error" will be logged. - - True if "error" messages will be logged. - - - - Determines if messages of priority "fatal" will be logged. - - True if "fatal" messages will be logged. - - - - Determines if messages of priority "info" will be logged. - - True if "info" messages will be logged. - - - - Determines if messages of priority "warn" will be logged. - - True if "warn" messages will be logged. - - - - Exposes the Global Context of the extended logger. - - - - - Exposes the Thread Context of the extended logger. - - - - - Exposes the Thread Stack of the extended logger. - - - - - The Logger sending everything to the standard output streams. - This is mainly for the cases when you have a utility that - does not have a logger to supply. - - - - - The Level Filtered Logger class. This is a base clase which - provides a LogLevel attribute and reroutes all functions into - one Log method. - - - - - Creates a new LevelFilteredLogger. - - - - - Keep the instance alive in a remoting scenario - - - - - - Logs a debug message. - - The message to log - - - - Logs a debug message. - - The exception to log - The message to log - - - - Logs a debug message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The message to log - - - - Logs an info message. - - The exception to log - The message to log - - - - Logs an info message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The message to log - - - - Logs a warn message. - - The exception to log - The message to log - - - - Logs a warn message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The message to log - - - - Logs an error message. - - The exception to log - The message to log - - - - Logs an error message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The message to log - - - - Logs a fatal message. - - The exception to log - The message to log - - - - Logs a fatal message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Implementors output the log content by implementing this method only. - Note that exception can be null - - - - - - - - - The LoggerLevel that this logger - will be using. Defaults to LoggerLevel.Off - - - - - The name that this logger will be using. - Defaults to String.Empty - - - - - Determines if messages of priority "debug" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "info" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "warn" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "error" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "fatal" will be logged. - - true if log level flags include the bit - - - - Creates a new ConsoleLogger with the Level - set to LoggerLevel.Debug and the Name - set to String.Empty. - - - - - Creates a new ConsoleLogger with the Name - set to String.Empty. - - The logs Level. - - - - Creates a new ConsoleLogger with the Level - set to LoggerLevel.Debug. - - The logs Name. - - - - Creates a new ConsoleLogger. - - The logs Name. - The logs Level. - - - - A Common method to log. - - The level of logging - The name of the logger - The Message - The Exception - - - - Returns a new ConsoleLogger with the name - added after this loggers name, with a dot in between. - - The added hierarchical name. - A new ConsoleLogger. - - - - The Logger using standart Diagnostics namespace. - - - - - Creates a logger based on . - - - - - - Creates a logger based on . - - - - - - - Creates a logger based on . - - - - - - - - The Null Logger class. This is useful for implementations where you need - to provide a logger to a utility class, but do not want any output from it. - It also helps when you have a utility that does not have a logger to supply. - - - - - Returns this NullLogger. - - Ignored - This ILogger instance. - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - Returns empty context properties. - - - - - Returns empty context properties. - - - - - Returns empty context stacks. - - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - The Stream Logger class. This class can stream log information - to any stream, it is suitable for storing a log file to disk, - or to a MemoryStream for testing your components. - - - This logger is not thread safe. - - - - - Creates a new StreamLogger with default encoding - and buffer size. Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - - - Creates a new StreamLogger with default buffer size. - Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - The encoding that will be used for this stream. - - - - - - Creates a new StreamLogger. - Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - The encoding that will be used for this stream. - - - - The buffer size that will be used for this stream. - - - - - - Creates a new StreamLogger with - Debug as default Level. - - The name of the log. - The StreamWriter the log will write to. - - - - The TraceLogger sends all logging to the System.Diagnostics.TraceSource - built into the .net framework. - - - Logging can be configured in the system.diagnostics configuration - section. - - If logger doesn't find a source name with a full match it will - use source names which match the namespace partially. For example you can - configure from all castle components by adding a source name with the - name "Castle". - - If no portion of the namespace matches the source named "Default" will - be used. - - - - - Build a new trace logger based on the named TraceSource - - The name used to locate the best TraceSource. In most cases comes from the using type's fullname. - - - - Build a new trace logger based on the named TraceSource - - The name used to locate the best TraceSource. In most cases comes from the using type's fullname. - The default logging level at which this source should write messages. In almost all cases this - default value will be overridden in the config file. - - - - Create a new child logger. - The name of the child logger is [current-loggers-name].[passed-in-name] - - The Subname of this logger. - The New ILogger instance. - - - - This is an abstract implementation - that deals with methods that can be abstracted away - from underlying implementations. - - - AbstractConfiguration makes easier to implementers - to create a new version of - - - - - is a interface encapsulating a configuration node - used to retrieve configuration values. - - - - - Gets the value of the node and converts it - into specified . - - The - - The Default value returned if the conversion fails. - - The Value converted into the specified type. - - - - Gets the name of the node. - - - The Name of the node. - - - - - Gets the value of the node. - - - The Value of the node. - - - - - Gets an of - elements containing all node children. - - The Collection of child nodes. - - - - Gets an of the configuration attributes. - - - - - Gets the value of the node and converts it - into specified . - - The - - The Default value returned if the conversion fails. - - The Value converted into the specified type. - - - - Gets node attributes. - - - All attributes of the node. - - - - - Gets all child nodes. - - The of child nodes. - - - - Gets the name of the . - - - The Name of the . - - - - - Gets the value of . - - - The Value of the . - - - - - A collection of objects. - - - - - Creates a new instance of ConfigurationCollection. - - - - - Creates a new instance of ConfigurationCollection. - - - - - Summary description for MutableConfiguration. - - - - - Initializes a new instance of the class. - - The name. - - - - Gets the value of . - - - The Value of the . - - - - - Deserializes the specified node into an abstract representation of configuration. - - The node. - - - - - If a config value is an empty string we return null, this is to keep - backward compatibility with old code - - - - - General purpose class to represent a standard pair of values. - - Type of the first value - Type of the second value - - - - Constructs a pair with its values - - - - - - - List of utility methods related to dynamic proxy operations - - - - - Determines whether the specified type is a proxy generated by - DynamicProxy (1 or 2). - - The type. - - true if it is a proxy; otherwise, false. - - - - - Readonly implementation of which uses an anonymous object as its source. Uses names of properties as keys, and property values as... well - values. Keys are not case sensitive. - - - - - Initializes a new instance of the class. - - The target. - - - - Adds an element with the provided key and value to the object. - - The to use as the key of the element to add. - The to use as the value of the element to add. - - is null. - An element with the same key already exists in the object. - The is read-only.-or- The has a fixed size. - - - - Removes all elements from the object. - - The object is read-only. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - - is null. - - - - Removes the element with the specified key from the object. - - The key of the element to remove. - - is null. - The object is read-only.-or- The has a fixed size. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - - - - Copies the elements of the to an , starting at a particular index. - - The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. - The zero-based index in at which copying begins. - - is null. - - is less than zero. - - is multidimensional.-or- is equal to or greater than the length of .-or- The number of elements in the source is greater than the available space from to the end of the destination . - The type of the source cannot be cast automatically to the type of the destination . - - - - Returns an object for the object. - - - An object for the object. - - - - - Reads values of properties from and inserts them into using property names as keys. - - - - - - - Gets the number of elements contained in the . - - - The number of elements contained in the . - - - - Gets a value indicating whether access to the is synchronized (thread safe). - - - true if access to the is synchronized (thread safe); otherwise, false. - - - - Gets an object that can be used to synchronize access to the . - - - An object that can be used to synchronize access to the . - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets or sets the with the specified key. - - - - - - Gets an object containing the keys of the object. - - - An object containing the keys of the object. - - - - Gets an object containing the values in the object. - - - An object containing the values in the object. - - - - Gets a value indicating whether the object has a fixed size. - - - true if the object has a fixed size; otherwise, false. - - - - Represents a 'streamable' resource. Can - be a file, a resource in an assembly. - - - - - Returns a reader for the stream - - - It's up to the caller to dispose the reader. - - - - - - Returns a reader for the stream - - - It's up to the caller to dispose the reader. - - - - - - - Returns an instance of - created according to the relativePath - using itself as the root. - - - - - - - - - - Only valid for resources that - can be obtained through relative paths - - - - - - - - - - This returns a new stream instance each time it is called. - It is the responsibility of the caller to dispose of this stream - - - - - Depicts the contract for resource factories. - - - - - Used to check whether the resource factory - is able to deal with the given resource - identifier. - - - Implementors should return true - only if the given identifier is supported - by the resource factory - - - - - - - Creates an instance - for the given resource identifier - - - - - - - Creates an instance - for the given resource identifier - - - - - - - - - - - - - - - - - - Adapts a static string content as an - - - - - Enable access to files on network shares - - - - - Email sender abstraction. - - - - - Sends a mail message. - - From field - To field - E-mail's subject - message's body - - - - Sends a message. - - Message instance - - - - Sends multiple messages. - - List of messages - - - - Default implementation. - - - - - Initializes a new instance of the class based on the configuration provided in the application configuration file. - - - This constructor is based on the default configuration in the application configuration file. - - - - - This service implementation - requires a host name in order to work - - The smtp server name - - - - Sends a message. - - If any of the parameters is null - From field - To field - e-mail's subject - message's body - - - - Sends a message. - - If the message is null - Message instance - - - - Configures the sender - with port information and eventual credential - informed - - Message instance - - - - Gets or sets the port used to - access the SMTP server - - - - - Gets the hostname. - - The hostname. - - - - Gets or sets a value which is used to - configure if emails are going to be sent asynchronously or not. - - - - - Gets or sets a value that specifies - the amount of time after which a synchronous Send call times out. - - - - - Gets or sets a value indicating whether the email should be sent using - a secure communication channel. - - true if should use SSL; otherwise, false. - - - - Gets or sets the domain. - - The domain. - - - - Gets or sets the name of the user. - - The name of the user. - - - - Gets or sets the password. - - The password. - - - - Gets a value indicating whether credentials were informed. - - - if this instance has credentials; otherwise, . - - - - + + + + Castle.Core + + + + + Specifies assignment by reference rather than by copying. + + + + + Suppresses any on-demand behaviors. + + + + + Removes a property if null or empty string, guid or collection. + + + + + Removes a property if matches value. + + + + + Assigns a specific dictionary key. + + + + + Defines the contract for customizing dictionary access. + + + + + Copies the dictionary behavior. + + null if should not be copied. Otherwise copy. + + + + Determines relative order to apply related behaviors. + + + + + Defines the contract for updating dictionary values. + + + + + Sets the stored dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if the property should be stored. + + + + Contract for value matching. + + + + + Indicates that underlying values are changeable and should not be cached. + + + + + Contract for dictionary initialization. + + + + + Performs any initialization of the + + The dictionary adapter. + The dictionary behaviors. + + + + Abstract implementation of . + + + + + Conract for traversing a . + + + + + Contract for creating additional Dictionary adapters. + + + + + Contract for manipulating the Dictionary adapter. + + + + + Contract for editing the Dictionary adapter. + + + + + Contract for managing Dictionary adapter notifications. + + + + + Contract for validating Dictionary adapter. + + + + + Defines the contract for building s. + + + + + Builds the dictionary behaviors. + + + + + + Abstract adapter for the support + needed by the + + + + + Adds an element with the provided key and value to the object. + + The to use as the key of the element to add. + The to use as the value of the element to add. + An element with the same key already exists in the object. + key is null. + The is read-only.-or- The has a fixed size. + + + + Removes all elements from the object. + + The object is read-only. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + key is null. + + + + Returns an object for the object. + + + An object for the object. + + + + + Removes the element with the specified key from the object. + + The key of the element to remove. + The object is read-only.-or- The has a fixed size. + key is null. + + + + Copies the elements of the to an , starting at a particular index. + + The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. + The zero-based index in array at which copying begins. + array is null. + The type of the source cannot be cast automatically to the type of the destination array. + index is less than zero. + array is multidimensional.-or- index is equal to or greater than the length of array.-or- The number of elements in the source is greater than the available space from index to the end of the destination array. + + + + Returns an enumerator that iterates through a collection. + + + An object that can be used to iterate through the collection. + + + + + Gets a value indicating whether the object has a fixed size. + + + true if the object has a fixed size; otherwise, false. + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets an object containing the keys of the object. + + + An object containing the keys of the object. + + + + Gets an object containing the values in the object. + + + An object containing the values in the object. + + + + Gets or sets the with the specified key. + + + + + + Gets the number of elements contained in the . + + + The number of elements contained in the . + + + + Gets a value indicating whether access to the is synchronized (thread safe). + + + true if access to the is synchronized (thread safe); otherwise, false. + + + + Gets an object that can be used to synchronize access to the . + + + An object that can be used to synchronize access to the . + + + + Provides a generic collection that supports data binding. + + + This class wraps the CLR + in order to implement the Castle-specific . + + The type of elements in the list. + + + + Initializes a new instance of the class + using default values. + + + + + Initializes a new instance of the class + with the specified list. + + + An of items + to be contained in the . + + + + + Initializes a new instance of the class + wrapping the specified instance. + + + A + to be wrapped by the . + + + + + Defines the contract for retrieving dictionary values. + + + + + Gets the effective dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if return only existing. + The effective property value. + + + + Initializes a new instance of the class + that represents a child object in a larger object graph. + + + + + + + Contract for dictionary meta-data initialization. + + + + + Initializes the given object. + + The dictionary adapter factory. + The dictionary adapter meta. + + + + + Determines whether the given behavior should be included in a new + object. + + A dictionary behavior or annotation. + True if the behavior should be included; otherwise, false. + + behaviors are always included, + regardless of the result of this method. + + + + + + Checks whether or not collection is null or empty. Assumes colleciton can be safely enumerated multiple times. + + + + + + + Constant to use when making assembly internals visible to Castle.Core + [assembly: InternalsVisibleTo(CoreInternalsVisible.ToCastleCore)] + + + + + Constant to use when making assembly internals visible to proxy types generated by DynamicProxy. Required when proxying internal types. + [assembly: InternalsVisibleTo(CoreInternalsVisible.ToDynamicProxyGenAssembly2)] + + + + + Identifies a property should be represented as a nested component. + + + + + Defines the contract for building typed dictionary keys. + + + + + Builds the specified key. + + The dictionary adapter. + The current key. + The property. + The updated key + + + + Applies no prefix. + + + + + Gets or sets the prefix. + + The prefix. + + + + Identifies the dictionary adapter types. + + + + + Identifies an interface or property to be pre-fetched. + + + + + Instructs fetching to occur. + + + + + Instructs fetching according to + + + + + + Gets whether or not fetching should occur. + + + + + Assigns a property to a group. + + + + + Constructs a group assignment. + + The group name. + + + + Constructs a group assignment. + + The group name. + + + + Gets the group the property is assigned to. + + + + + Assigns a specific dictionary key. + + + + + Initializes a new instance of the class. + + The key. + + + + Initializes a new instance of the class. + + The compound key. + + + + Assigns a prefix to the keyed properties of an interface. + + + Key prefixes are not inherited by sub-interfaces. + + + + + Initializes a default instance of the class. + + + + + Initializes a new instance of the class. + + The prefix for the keyed properties of the interface. + + + + Gets the prefix key added to the properties of the interface. + + + + + Substitutes part of key with another string. + + + + + Initializes a new instance of the class. + + The old value. + The new value. + + + + Requests support for multi-level editing. + + + + + Generates a new GUID on demand. + + + + + Support for on-demand value resolution. + + + + + Provides simple string formatting from existing properties. + + + + + Gets the string format. + + + + + Gets the format properties. + + + + + Identifies a property should be represented as a delimited string value. + + + + + Gets the separator. + + + + + Converts all properties to strings. + + + + + Gets or sets the format. + + The format. + + + + Suppress property change notifications. + + + + + Contract for property descriptor initialization. + + + + + Performs any initialization of the + + The property descriptor. + The property behaviors. + + + + Assigns a prefix to the keyed properties using the interface name. + + + + + Manages conversion between property values. + + + + + Initializes a new instance of the class. + + The converter. + + + + Gets the effective dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if return only existing. + The effective property value. + + + + + + + + + Uses Reflection.Emit to expose the properties of a dictionary + through a dynamic implementation of a typed interface. + + + + + Defines the contract for building typed dictionary adapters. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + The property descriptor. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the namedValues. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the namedValues. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the . + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the . + + The type represented by T must be an interface with properties. + + + + + Gets the associated with the type. + + The typed interface. + The adapter meta-data. + + + + Gets the associated with the type. + + The typed interface. + The property descriptor. + The adapter meta-data. + + + + Gets the associated with the type. + + The typed interface. + Another from which to copy behaviors. + The adapter meta-data. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Contract for dictionary validation. + + + + + Determines if is valid. + + The dictionary adapter. + true if valid. + + + + Validates the . + + The dictionary adapter. + The error summary information. + + + + Validates the for a property. + + The dictionary adapter. + The property to validate. + The property summary information. + + + + Invalidates any results cached by the validator. + + The dictionary adapter. + + + + + + + + + Initializes a new instance of the class. + + The name values. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + key is null. + + + + Adapts the specified name values. + + The name values. + + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets or sets the with the specified key. + + + + + + Describes a dictionary property. + + + + + Initializes an empty class. + + + + + Initializes a new instance of the class. + + The property. + The annotations. + + + + Initializes a new instance class. + + + + + Copies an existinginstance of the class. + + + + + + + Gets the key. + + The dictionary adapter. + The key. + The descriptor. + + + + + Gets the property value. + + The dictionary adapter. + The key. + The stored value. + The descriptor. + true if return only existing. + + + + + Sets the property value. + + The dictionary adapter. + The key. + The value. + The descriptor. + + + + + Adds a single behavior. + + The behavior. + + + + Adds the behaviors. + + The behaviors. + + + + Adds the behaviors. + + The behaviors. + + + + Copies the behaviors to the other + + + + + + + Copies the + + + + + + + + + + + Gets the property name. + + + + + Gets the property type. + + + + + Gets the property. + + The property. + + + + Returns true if the property is dynamic. + + + + + Gets additional state. + + + + + Determines if property should be fetched. + + + + + Determines if property must exist first. + + + + + Determines if notifications should occur. + + + + + Gets the property behaviors. + + + + + Gets the type converter. + + The type converter. + + + + Gets the extended properties. + + + + + Gets the setter. + + The setter. + + + + Gets the key builders. + + The key builders. + + + + Gets the setter. + + The setter. + + + + Gets the getter. + + The getter. + + + + Gets the initializers. + + The initializers. + + + + Gets the meta-data initializers. + + The meta-data initializers. + + + + Helper class for retrieving attributes. + + + + + Gets the attribute. + + The member. + The member attribute. + + + + Gets the attributes. Does not consider inherited attributes! + + The member. + The member attributes. + + + + Gets the type attribute. + + The type. + The type attribute. + + + + Gets the type attributes. + + The type. + The type attributes. + + + + Gets the type converter. + + The member. + + + + + Gets the attribute. + + The member. + The member attribute. + + + + Contract for typed dynamic value resolution. + + + + + + Contract for dynamic value resolution. + + + + + Supporting Logger levels. + + + + + Logging will be off + + + + + Fatal logging level + + + + + Error logging level + + + + + Warn logging level + + + + + Info logging level + + + + + Debug logging level + + + + + Encapsulates an invocation of a proxied method. + + + + + Gets the value of the argument at the specified . + + The index. + The value of the argument at the specified . + + + + Returns the concrete instantiation of the on the proxy, with any generic + parameters bound to real types. + + + The concrete instantiation of the on the proxy, or the if + not a generic method. + + + Can be slower than calling . + + + + + Returns the concrete instantiation of , with any + generic parameters bound to real types. + For interface proxies, this will point to the on the target class. + + The concrete instantiation of , or + if not a generic method. + + In debug builds this can be slower than calling . + + + + + Proceeds the call to the next interceptor in line, and ultimately to the target method. + + + Since interface proxies without a target don't have the target implementation to proceed to, + it is important, that the last interceptor does not call this method, otherwise a + will be thrown. + + + + + Overrides the value of an argument at the given with the + new provided. + + + This method accepts an , however the value provided must be compatible + with the type of the argument defined on the method, otherwise an exception will be thrown. + + The index of the argument to override. + The new value for the argument. + + + + Gets the arguments that the has been invoked with. + + The arguments the method was invoked with. + + + + Gets the generic arguments of the method. + + The generic arguments, or null if not a generic method. + + + + Gets the object on which the invocation is performed. This is different from proxy object + because most of the time this will be the proxy target object. + + + The invocation target. + + + + Gets the representing the method being invoked on the proxy. + + The representing the method being invoked. + + + + For interface proxies, this will point to the on the target class. + + The method invocation target. + + + + Gets the proxy object on which the intercepted method is invoked. + + Proxy object on which the intercepted method is invoked. + + + + Gets or sets the return value of the method. + + The return value of the method. + + + + Gets the type of the target object for the intercepted method. + + The type of the target object. + + + + Used during the target type inspection process. Implementors have a chance to customize the + proxy generation process. + + + + + Invoked by the generation process to notify that the whole process has completed. + + + + + Invoked by the generation process to notify that a member was not marked as virtual. + + The type which declares the non-virtual member. + The non-virtual member. + + This method gives an opportunity to inspect any non-proxyable member of a type that has + been requested to be proxied, and if appropriate - throw an exception to notify the caller. + + + + + Invoked by the generation process to determine if the specified method should be proxied. + + The type which declares the given method. + The method to inspect. + True if the given method should be proxied; false otherwise. + + + + Interface describing elements composing generated type + + + + + Performs some basic screening and invokes the + to select methods. + + + + + + + + + Provides functionality for disassembling instances of attributes to CustomAttributeBuilder form, during the process of emiting new types by Dynamic Proxy. + + + + + Disassembles given attribute instance back to corresponding CustomAttributeBuilder. + + An instance of attribute to disassemble + corresponding 1 to 1 to given attribute instance, or null reference. + + Implementers should return that corresponds to given attribute instance 1 to 1, + that is after calling specified constructor with specified arguments, and setting specified properties and fields with values specified + we should be able to get an attribute instance identical to the one passed in . Implementer can return null + if it wishes to opt out of replicating the attribute. Notice however, that for some cases, like attributes passed explicitly by the user + it is illegal to return null, and doing so will result in exception. + + + + + Handles error during disassembly process + + Type of the attribute being disassembled + Exception thrown during the process + usually null, or (re)throws the exception + + + + Here we try to match a constructor argument to its value. + Since we can't get the values from the assembly, we use some heuristics to get it. + a/ we first try to match all the properties on the attributes by name (case insensitive) to the argument + b/ if we fail we try to match them by property type, with some smarts about convertions (i,e: can use Guid for string). + + + + + We have the following rules here. + Try to find a matching type, failing that, if the parameter is string, get the first property (under the assumption that + we can convert it. + + + + + Attributes can only accept simple types, so we return null for null, + if the value is passed as string we call to string (should help with converting), + otherwise, we use the value as is (enums, integer, etc). + + + + + Returns list of all unique interfaces implemented given types, including their base interfaces. + + + + + + + Applied to the assemblies saved by in order to persist the cache data included in the persisted assembly. + + + + + Base class that exposes the common functionalities + to proxy generation. + + + + + It is safe to add mapping (no mapping for the interface exists) + + + + + + + + Generates a parameters constructor that initializes the proxy + state with just to make it non-null. + + This constructor is important to allow proxies to be XML serializable + + + + + + Generates the constructor for the class that extends + + + + + + + + + Default implementation of interface producing in-memory proxy assemblies. + + + + + Abstracts the implementation of proxy type construction. + + + + + Creates a proxy type for given , implementing , using provided. + + The class type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified class and interfaces. + Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type that proxies calls to members on , implementing , using provided. + + The interface type to proxy. + Additional interface types to proxy. + Type implementing on which calls to the interface members should be intercepted. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface that 'proceeds' executions to the specified target. + Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type for given and that delegates all calls to the provided interceptors and allows interceptors to switch the actual target of invocation. + + The interface type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface(s) that delegate all executions to the specified interceptors + and uses an instance of the interface as their targets (i.e. ), rather than a class. All classes should then implement interface, + to allow interceptors to switch invocation target with instance of another type implementing called interface. + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type for given that delegates all calls to the provided interceptors. + + The interface type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface and additional interfaces that delegate all executions to the specified interceptors. + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Gets or sets the that this logs to. + + + + + Gets the associated with this builder. + + The module scope associated with this builder. + + + + Initializes a new instance of the class with new . + + + + + Initializes a new instance of the class. + + The module scope for generated proxy types. + + + + Registers custom disassembler to handle disassembly of specified type of attributes. + + Type of attributes to handle + Disassembler converting existing instances of Attributes to CustomAttributeBuilders + + When disassembling an attribute Dynamic Proxy will first check if an custom disassembler has been registered to handle attributes of that type, + and if none is found, it'll use the . + + + + + Attributes should be replicated if they are non-inheritable, + but there are some special cases where the attributes means + something to the CLR, where they should be skipped. + + + + + Initializes a new instance of the class. + + Target element. This is either target type or target method for invocation types. + The type of the proxy. This is base type for invocation types. + The interfaces. + The options. + + + + Initializes a new instance of the class. + + Type of the target. + The interfaces. + The options. + + + + s + Provides appropriate Ldc.X opcode for the type of primitive value to be loaded. + + + + + Provides appropriate Ldind.X opcode for + the type of primitive value to be loaded indirectly. + + + + + Emits a load indirect opcode of the appropriate type for a value or object reference. + Pops a pointer off the evaluation stack, dereferences it and loads + a value of the specified type. + + + + + + + Emits a load opcode of the appropriate kind for a constant string or + primitive value. + + + + + + + Emits a load opcode of the appropriate kind for the constant default value of a + type, such as 0 for value types and null for reference types. + + + + + Emits a store indirectopcode of the appropriate type for a value or object reference. + Pops a value of the specified type and a pointer off the evaluation stack, and + stores the value. + + + + + + + Summary description for PropertiesCollection. + + + + + Wraps a reference that is passed + ByRef and provides indirect load/store support. + + + + + Summary description for NewArrayExpression. + + + + + + + + + Provides appropriate Stind.X opcode + for the type of primitive value to be stored indirectly. + + + + + Initializes a new instance of the class. + + The name. + Type declaring the original event being overriten, or null. + + The add method. + The remove method. + The attributes. + + + + Represents the scope of uniquenes of names for types and their members + + + + + Gets a unique name based on + + Name suggested by the caller + Unique name based on . + + Implementers should provide name as closely resembling as possible. + Generally if no collision occurs it is suggested to return suggested name, otherwise append sequential suffix. + Implementers must return deterministic names, that is when is called twice + with the same suggested name, the same returned name should be provided each time. Non-deterministic return + values, like appending random suffices will break serialization of proxies. + + + + + Returns new, disposable naming scope. It is responsibilty of the caller to make sure that no naming collision + with enclosing scope, or other subscopes is possible. + + New naming scope. + + + + Returns the methods implemented by a type. Use this instead of Type.GetMethods() to work around a CLR issue + where duplicate MethodInfos are returned by Type.GetMethods() after a token of a generic type's method was loaded. + + + + + Determines whether the specified method is internal. + + The method. + + true if the specified method is internal; otherwise, false. + + + + + Determines whether this assembly has internals visible to dynamic proxy. + + The assembly to inspect. + + + + Checks if the method is public or protected. + + + + + + + Because we need to cache the types based on the mixed in mixins, we do the following here: + - Get all the mixin interfaces + - Sort them by full name + - Return them by position + + The idea is to have reproducible behavior for the case that mixins are registered in different orders. + This method is here because it is required + + + + + Summary description for ModuleScope. + + + + + The default file name used when the assembly is saved using . + + + + + The default assembly (simple) name used for the assemblies generated by a instance. + + + + + Initializes a new instance of the class; assemblies created by this instance will not be saved. + + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved. + + If set to true saves the generated module. + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved and what simple names are to be assigned to them. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + The simple name of the strong-named assembly generated by this . + The path and file name of the manifest module of the strong-named assembly generated by this . + The simple name of the weak-named assembly generated by this . + The path and file name of the manifest module of the weak-named assembly generated by this . + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved and what simple names are to be assigned to them. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + Naming scope used to provide unique names to generated types and their members (usually via sub-scopes). + The simple name of the strong-named assembly generated by this . + The path and file name of the manifest module of the strong-named assembly generated by this . + The simple name of the weak-named assembly generated by this . + The path and file name of the manifest module of the weak-named assembly generated by this . + + + + Returns a type from this scope's type cache, or null if the key cannot be found. + + The key to be looked up in the cache. + The type from this scope's type cache matching the key, or null if the key cannot be found + + + + Registers a type in this scope's type cache. + + The key to be associated with the type. + The type to be stored in the cache. + + + + Gets the key pair used to sign the strong-named assembly generated by this . + + + + + + Gets the specified module generated by this scope, creating a new one if none has yet been generated. + + If set to true, a strong-named module is returned; otherwise, a weak-named module is returned. + A strong-named or weak-named module generated by this scope, as specified by the parameter. + + + + Gets the strong-named module generated by this scope, creating a new one if none has yet been generated. + + A strong-named module generated by this scope. + + + + Gets the weak-named module generated by this scope, creating a new one if none has yet been generated. + + A weak-named module generated by this scope. + + + + Saves the generated assembly with the name and directory information given when this instance was created (or with + the and current directory if none was given). + + + + This method stores the generated assembly in the directory passed as part of the module information specified when this instance was + constructed (if any, else the current directory is used). If both a strong-named and a weak-named assembly + have been generated, it will throw an exception; in this case, use the overload. + + + If this was created without indicating that the assembly should be saved, this method does nothing. + + + Both a strong-named and a weak-named assembly have been generated. + The path of the generated assembly file, or null if no file has been generated. + + + + Saves the specified generated assembly with the name and directory information given when this instance was created + (or with the and current directory if none was given). + + True if the generated assembly with a strong name should be saved (see ); + false if the generated assembly without a strong name should be saved (see . + + + This method stores the specified generated assembly in the directory passed as part of the module information specified when this instance was + constructed (if any, else the current directory is used). + + + If this was created without indicating that the assembly should be saved, this method does nothing. + + + No assembly has been generated that matches the parameter. + + The path of the generated assembly file, or null if no file has been generated. + + + + Loads the generated types from the given assembly into this 's cache. + + The assembly to load types from. This assembly must have been saved via or + , or it must have the manually applied. + + This method can be used to load previously generated and persisted proxy types from disk into this scope's type cache, eg. in order + to avoid the performance hit associated with proxy generation. + + + + + Users of this should use this lock when accessing the cache. + + + + + Gets the strong-named module generated by this scope, or if none has yet been generated. + + The strong-named module generated by this scope, or if none has yet been generated. + + + + Gets the file name of the strongly named module generated by this scope. + + The file name of the strongly named module generated by this scope. + + + + Gets the directory where the strongly named module generated by this scope will be saved, or if the current directory + is used. + + The directory where the strongly named module generated by this scope will be saved when is called + (if this scope was created to save modules). + + + + Gets the weak-named module generated by this scope, or if none has yet been generated. + + The weak-named module generated by this scope, or if none has yet been generated. + + + + Gets the file name of the weakly named module generated by this scope. + + The file name of the weakly named module generated by this scope. + + + + Gets the directory where the weakly named module generated by this scope will be saved, or if the current directory + is used. + + The directory where the weakly named module generated by this scope will be saved when is called + (if this scope was created to save modules). + + + + ProxyBuilder that persists the generated type. + + + The saved assembly contains just the last generated type. + + + + + Initializes a new instance of the class. + + + + + Saves the generated assembly to a physical file. Note that this renders the unusable. + + The path of the generated assembly file, or null if no assembly has been generated. + + This method does not support saving multiple files. If both a signed and an unsigned module have been generated, use the + respective methods of the . + + + + + Initializes a new instance of the class. + + The hook. + + + + Initializes a new instance of the class. + + + + + Provides proxy objects for classes and interfaces. + + + + + Initializes a new instance of the class. + + Proxy types builder. + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + If true forces all types to be generated into an unsigned module. + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + Object proxying calls to members of on object. + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no parameterless constructor exists on type . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no parameterless constructor exists on type . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates the proxy type for class proxy with given class, implementing given and using provided . + + The base class for proxy type. + The interfaces that proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy with target for given interface, implementing given on given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + Actual type that the proxy type will encompass. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy with target interface for given interface, implementing given on given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy without target for given interface, implementing given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Gets or sets the that this log to. + + + + + Gets the proxy builder instance used to generate proxy types. + + The proxy builder. + + + + + + + + + + + + + For interface proxies, this will point to the + on the target class + + + + + Handles the deserialization of proxies. + + + + + Resets the used for deserialization to a new scope. + + + This is useful for test cases. + + + + + Resets the used for deserialization to a given . + + The scope to be used for deserialization. + + By default, the deserialization process uses a different scope than the rest of the application, which can lead to multiple proxies + being generated for the same type. By explicitly setting the deserialization scope to the application's scope, this can be avoided. + + + + + Gets the used for deserialization. + + As has no way of automatically determining the scope used by the application (and the application might use more than one scope at the same time), uses a dedicated scope instance for deserializing proxy types. This instance can be reset and set to a specific value via and . + + + + Holds objects representing methods of class. + + + + + Holds objects representing methods of class. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Provides an extension point that allows proxies to choose specific interceptors on + a per method basis. + + + + + Selects the interceptors that should intercept calls to the given . + + The type declaring the method to intercept. + The method that will be intercepted. + All interceptors registered with the proxy. + An array of interceptors to invoke upon calling the . + + This method is called only once per proxy instance, upon the first call to the + . Either an empty array or null are valid return values to indicate + that no interceptor should intercept calls to the method. Although it is not advised, it is + legal to return other implementations than these provided in + . + + + + + Creates a new lock. + + + + + + This interface should be implemented by classes + that are available in a bigger context, exposing + the container to different areas in the same application. + + For example, in Web application, the (global) HttpApplication + subclasses should implement this interface to expose + the configured container + + + + + + Exposes means to change target objects of proxies and invocations + + + + + Changes the target object () of current . + + The new value of target of invocation. + + Although the method takes the actual instance must be of type assignable to , otherwise an will be thrown. + Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. + In this case last interceptor in the pipeline mustn't call or a will be throws. + Also while it's technically legal to pass proxy itself as , this would create stack overflow. + In this case last interceptor in the pipeline mustn't call or a will be throws. + + Thrown when is not assignable to the proxied type. + + + + Permanently changes the target object of the proxy. This does not affect target of the current invocation. + + The new value of target of the proxy. + + Although the method takes the actual instance must be of type assignable to proxy's target type, otherwise an will be thrown. + Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. + In this case last interceptor in the pipeline mustn't call or a will be throws. + Also while it's technically legal to pass proxy itself as , this would create stack overflow. + In this case last interceptor in the pipeline mustn't call or a will be throws. + + Thrown when is not assignable to the proxied type. + + + + New interface that is going to be used by DynamicProxy 2 + + + + + Get the proxy target (note that null is a valid target!) + + + + + + Gets the interceptors for the proxy + + + + + + Defines that the implementation wants a + in order to + access other components. The creator must be aware + that the component might (or might not) implement + the interface. + + + Used by Castle Project components to, for example, + gather logging factories + + + + + Increments IServiceProvider with a generic service resolution operation. + + + + + Provides a factory that can produce either or + classes. + + + + + Manages the instantiation of s. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Gets the configuration file. + + i.e. log4net.config + + + + + Used to create the TraceLogger implementation of ILogger interface. See . + + + + + Gets the configuration file. + + i.e. log4net.config + + + + + Interface for Context Properties implementations + + + + This interface defines a basic property get set accessor. + + + Based on the ContextPropertiesBase of log4net, by Nicko Cadell. + + + + + + Gets or sets the value of a property + + + The value for the property with the specified key + + + + Gets or sets the value of a property + + + + + + NullLogFactory used when logging is turned off. + + + + + Creates an instance of ILogger with the specified name. + + Name. + + + + + Creates an instance of ILogger with the specified name and LoggerLevel. + + Name. + Level. + + + + + Creates outputing + to files. The name of the file is derived from the log name + plus the 'log' extension. + + + + + Provides an interface that supports and + allows the storage and retrieval of Contexts. These are supported in + both log4net and NLog. + + + + + Manages logging. + + + This is a facade for the different logging subsystems. + It offers a simplified interface that follows IOC patterns + and a simplified priority/level/severity abstraction. + + + + + Create a new child logger. + The name of the child logger is [current-loggers-name].[passed-in-name] + + The Subname of this logger. + The New ILogger instance. + If the name has an empty element name. + + + + Logs a debug message. + + The message to log + + + + Logs a debug message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a debug message. + + The exception to log + The message to log + + + + Logs a debug message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The message to log + + + + Logs an error message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs an error message. + + The exception to log + The message to log + + + + Logs an error message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The message to log + + + + Logs a fatal message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a fatal message. + + The exception to log + The message to log + + + + Logs a fatal message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The message to log + + + + Logs a info message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs an info message. + + The exception to log + The message to log + + + + Logs an info message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The message to log + + + + Logs a warn message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a warn message. + + The exception to log + The message to log + + + + Logs a warn message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Determines if messages of priority "debug" will be logged. + + True if "debug" messages will be logged. + + + + Determines if messages of priority "error" will be logged. + + True if "error" messages will be logged. + + + + Determines if messages of priority "fatal" will be logged. + + True if "fatal" messages will be logged. + + + + Determines if messages of priority "info" will be logged. + + True if "info" messages will be logged. + + + + Determines if messages of priority "warn" will be logged. + + True if "warn" messages will be logged. + + + + Exposes the Global Context of the extended logger. + + + + + Exposes the Thread Context of the extended logger. + + + + + Exposes the Thread Stack of the extended logger. + + + + + The Logger sending everything to the standard output streams. + This is mainly for the cases when you have a utility that + does not have a logger to supply. + + + + + The Level Filtered Logger class. This is a base clase which + provides a LogLevel attribute and reroutes all functions into + one Log method. + + + + + Creates a new LevelFilteredLogger. + + + + + Keep the instance alive in a remoting scenario + + + + + + Logs a debug message. + + The message to log + + + + Logs a debug message. + + The exception to log + The message to log + + + + Logs a debug message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The message to log + + + + Logs an info message. + + The exception to log + The message to log + + + + Logs an info message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The message to log + + + + Logs a warn message. + + The exception to log + The message to log + + + + Logs a warn message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The message to log + + + + Logs an error message. + + The exception to log + The message to log + + + + Logs an error message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The message to log + + + + Logs a fatal message. + + The exception to log + The message to log + + + + Logs a fatal message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Implementors output the log content by implementing this method only. + Note that exception can be null + + + + + + + + + The LoggerLevel that this logger + will be using. Defaults to LoggerLevel.Off + + + + + The name that this logger will be using. + Defaults to String.Empty + + + + + Determines if messages of priority "debug" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "info" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "warn" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "error" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "fatal" will be logged. + + true if log level flags include the bit + + + + Creates a new ConsoleLogger with the Level + set to LoggerLevel.Debug and the Name + set to String.Empty. + + + + + Creates a new ConsoleLogger with the Name + set to String.Empty. + + The logs Level. + + + + Creates a new ConsoleLogger with the Level + set to LoggerLevel.Debug. + + The logs Name. + + + + Creates a new ConsoleLogger. + + The logs Name. + The logs Level. + + + + A Common method to log. + + The level of logging + The name of the logger + The Message + The Exception + + + + Returns a new ConsoleLogger with the name + added after this loggers name, with a dot in between. + + The added hierarchical name. + A new ConsoleLogger. + + + + The Logger using standart Diagnostics namespace. + + + + + Creates a logger based on . + + + + + + Creates a logger based on . + + + + + + + Creates a logger based on . + + + + + + + + The Null Logger class. This is useful for implementations where you need + to provide a logger to a utility class, but do not want any output from it. + It also helps when you have a utility that does not have a logger to supply. + + + + + Returns this NullLogger. + + Ignored + This ILogger instance. + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + Returns empty context properties. + + + + + Returns empty context properties. + + + + + Returns empty context stacks. + + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + The Stream Logger class. This class can stream log information + to any stream, it is suitable for storing a log file to disk, + or to a MemoryStream for testing your components. + + + This logger is not thread safe. + + + + + Creates a new StreamLogger with default encoding + and buffer size. Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + + + Creates a new StreamLogger with default buffer size. + Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + The encoding that will be used for this stream. + + + + + + Creates a new StreamLogger. + Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + The encoding that will be used for this stream. + + + + The buffer size that will be used for this stream. + + + + + + Creates a new StreamLogger with + Debug as default Level. + + The name of the log. + The StreamWriter the log will write to. + + + + The TraceLogger sends all logging to the System.Diagnostics.TraceSource + built into the .net framework. + + + Logging can be configured in the system.diagnostics configuration + section. + + If logger doesn't find a source name with a full match it will + use source names which match the namespace partially. For example you can + configure from all castle components by adding a source name with the + name "Castle". + + If no portion of the namespace matches the source named "Default" will + be used. + + + + + Build a new trace logger based on the named TraceSource + + The name used to locate the best TraceSource. In most cases comes from the using type's fullname. + + + + Build a new trace logger based on the named TraceSource + + The name used to locate the best TraceSource. In most cases comes from the using type's fullname. + The default logging level at which this source should write messages. In almost all cases this + default value will be overridden in the config file. + + + + Create a new child logger. + The name of the child logger is [current-loggers-name].[passed-in-name] + + The Subname of this logger. + The New ILogger instance. + + + + This is an abstract implementation + that deals with methods that can be abstracted away + from underlying implementations. + + + AbstractConfiguration makes easier to implementers + to create a new version of + + + + + is a interface encapsulating a configuration node + used to retrieve configuration values. + + + + + Gets the value of the node and converts it + into specified . + + The + + The Default value returned if the conversion fails. + + The Value converted into the specified type. + + + + Gets the name of the node. + + + The Name of the node. + + + + + Gets the value of the node. + + + The Value of the node. + + + + + Gets an of + elements containing all node children. + + The Collection of child nodes. + + + + Gets an of the configuration attributes. + + + + + Gets the value of the node and converts it + into specified . + + The + + The Default value returned if the conversion fails. + + The Value converted into the specified type. + + + + Gets node attributes. + + + All attributes of the node. + + + + + Gets all child nodes. + + The of child nodes. + + + + Gets the name of the . + + + The Name of the . + + + + + Gets the value of . + + + The Value of the . + + + + + A collection of objects. + + + + + Creates a new instance of ConfigurationCollection. + + + + + Creates a new instance of ConfigurationCollection. + + + + + Summary description for MutableConfiguration. + + + + + Initializes a new instance of the class. + + The name. + + + + Gets the value of . + + + The Value of the . + + + + + Deserializes the specified node into an abstract representation of configuration. + + The node. + + + + + If a config value is an empty string we return null, this is to keep + backward compatibility with old code + + + + + General purpose class to represent a standard pair of values. + + Type of the first value + Type of the second value + + + + Constructs a pair with its values + + + + + + + List of utility methods related to dynamic proxy operations + + + + + Determines whether the specified type is a proxy generated by + DynamicProxy (1 or 2). + + The type. + + true if it is a proxy; otherwise, false. + + + + + Readonly implementation of which uses an anonymous object as its source. Uses names of properties as keys, and property values as... well - values. Keys are not case sensitive. + + + + + Initializes a new instance of the class. + + The target. + + + + Adds an element with the provided key and value to the object. + + The to use as the key of the element to add. + The to use as the value of the element to add. + + is null. + An element with the same key already exists in the object. + The is read-only.-or- The has a fixed size. + + + + Removes all elements from the object. + + The object is read-only. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + + is null. + + + + Removes the element with the specified key from the object. + + The key of the element to remove. + + is null. + The object is read-only.-or- The has a fixed size. + + + + Returns an enumerator that iterates through a collection. + + + An object that can be used to iterate through the collection. + + + + + Copies the elements of the to an , starting at a particular index. + + The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. + The zero-based index in at which copying begins. + + is null. + + is less than zero. + + is multidimensional.-or- is equal to or greater than the length of .-or- The number of elements in the source is greater than the available space from to the end of the destination . + The type of the source cannot be cast automatically to the type of the destination . + + + + Returns an object for the object. + + + An object for the object. + + + + + Reads values of properties from and inserts them into using property names as keys. + + + + + + + Gets the number of elements contained in the . + + + The number of elements contained in the . + + + + Gets a value indicating whether access to the is synchronized (thread safe). + + + true if access to the is synchronized (thread safe); otherwise, false. + + + + Gets an object that can be used to synchronize access to the . + + + An object that can be used to synchronize access to the . + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets or sets the with the specified key. + + + + + + Gets an object containing the keys of the object. + + + An object containing the keys of the object. + + + + Gets an object containing the values in the object. + + + An object containing the values in the object. + + + + Gets a value indicating whether the object has a fixed size. + + + true if the object has a fixed size; otherwise, false. + + + + Represents a 'streamable' resource. Can + be a file, a resource in an assembly. + + + + + Returns a reader for the stream + + + It's up to the caller to dispose the reader. + + + + + + Returns a reader for the stream + + + It's up to the caller to dispose the reader. + + + + + + + Returns an instance of + created according to the relativePath + using itself as the root. + + + + + + + + + + Only valid for resources that + can be obtained through relative paths + + + + + + + + + + This returns a new stream instance each time it is called. + It is the responsibility of the caller to dispose of this stream + + + + + Depicts the contract for resource factories. + + + + + Used to check whether the resource factory + is able to deal with the given resource + identifier. + + + Implementors should return true + only if the given identifier is supported + by the resource factory + + + + + + + Creates an instance + for the given resource identifier + + + + + + + Creates an instance + for the given resource identifier + + + + + + + + + + + + + + + + + + Adapts a static string content as an + + + + + Enable access to files on network shares + + + + + Email sender abstraction. + + + + + Sends a mail message. + + From field + To field + E-mail's subject + message's body + + + + Sends a message. + + Message instance + + + + Sends multiple messages. + + List of messages + + + + Default implementation. + + + + + Initializes a new instance of the class based on the configuration provided in the application configuration file. + + + This constructor is based on the default configuration in the application configuration file. + + + + + This service implementation + requires a host name in order to work + + The smtp server name + + + + Sends a message. + + If any of the parameters is null + From field + To field + e-mail's subject + message's body + + + + Sends a message. + + If the message is null + Message instance + + + + Configures the sender + with port information and eventual credential + informed + + Message instance + + + + Gets or sets the port used to + access the SMTP server + + + + + Gets the hostname. + + The hostname. + + + + Gets or sets a value which is used to + configure if emails are going to be sent asynchronously or not. + + + + + Gets or sets a value that specifies + the amount of time after which a synchronous Send call times out. + + + + + Gets or sets a value indicating whether the email should be sent using + a secure communication channel. + + true if should use SSL; otherwise, false. + + + + Gets or sets the domain. + + The domain. + + + + Gets or sets the name of the user. + + The name of the user. + + + + Gets or sets the password. + + The password. + + + + Gets a value indicating whether credentials were informed. + + + if this instance has credentials; otherwise, . + + + + diff --git a/packages/Castle.Core.3.2.1/lib/sl4/Castle.Core.dll b/packages/Castle.Core.3.2.1/lib/sl4/Castle.Core.dll new file mode 100644 index 0000000..c2d65bb Binary files /dev/null and b/packages/Castle.Core.3.2.1/lib/sl4/Castle.Core.dll differ diff --git a/packages/Castle.Core.3.2.0/lib/sl4/Castle.Core.xml b/packages/Castle.Core.3.2.1/lib/sl4/Castle.Core.xml similarity index 98% rename from packages/Castle.Core.3.2.0/lib/sl4/Castle.Core.xml rename to packages/Castle.Core.3.2.1/lib/sl4/Castle.Core.xml index 9051c06..766410f 100644 --- a/packages/Castle.Core.3.2.0/lib/sl4/Castle.Core.xml +++ b/packages/Castle.Core.3.2.1/lib/sl4/Castle.Core.xml @@ -1,4223 +1,4223 @@ - - - - Castle.Core - - - - - Specifies assignment by reference rather than by copying. - - - - - Suppresses any on-demand behaviors. - - - - - Removes a property if null or empty string, guid or collection. - - - - - Removes a property if matches value. - - - - - Assigns a specific dictionary key. - - - - - Defines the contract for customizing dictionary access. - - - - - Copies the dictionary behavior. - - null if should not be copied. Otherwise copy. - - - - Determines relative order to apply related behaviors. - - - - - Defines the contract for updating dictionary values. - - - - - Sets the stored dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if the property should be stored. - - - - Contract for value matching. - - - - - Indicates that underlying values are changeable and should not be cached. - - - - - Contract for dictionary initialization. - - - - - Performs any initialization of the - - The dictionary adapter. - The dictionary behaviors. - - - - Abstract implementation of . - - - - - Conract for traversing a . - - - - - Contract for creating additional Dictionary adapters. - - - - - Contract for manipulating the Dictionary adapter. - - - - - Contract for editing the Dictionary adapter. - - - - - Contract for managing Dictionary adapter notifications. - - - - - Contract for validating Dictionary adapter. - - - - - Defines the contract for building s. - - - - - Builds the dictionary behaviors. - - - - - - Abstract adapter for the support - needed by the - - - - - Adds an element with the provided key and value to the object. - - The to use as the key of the element to add. - The to use as the value of the element to add. - An element with the same key already exists in the object. - key is null. - The is read-only.-or- The has a fixed size. - - - - Removes all elements from the object. - - The object is read-only. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - key is null. - - - - Returns an object for the object. - - - An object for the object. - - - - - Removes the element with the specified key from the object. - - The key of the element to remove. - The object is read-only.-or- The has a fixed size. - key is null. - - - - Copies the elements of the to an , starting at a particular index. - - The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. - The zero-based index in array at which copying begins. - array is null. - The type of the source cannot be cast automatically to the type of the destination array. - index is less than zero. - array is multidimensional.-or- index is equal to or greater than the length of array.-or- The number of elements in the source is greater than the available space from index to the end of the destination array. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - - - - Gets a value indicating whether the object has a fixed size. - - - true if the object has a fixed size; otherwise, false. - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets an object containing the keys of the object. - - - An object containing the keys of the object. - - - - Gets an object containing the values in the object. - - - An object containing the values in the object. - - - - Gets or sets the with the specified key. - - - - - - Gets the number of elements contained in the . - - - The number of elements contained in the . - - - - Gets a value indicating whether access to the is synchronized (thread safe). - - - true if access to the is synchronized (thread safe); otherwise, false. - - - - Gets an object that can be used to synchronize access to the . - - - An object that can be used to synchronize access to the . - - - - Checks whether or not collection is null or empty. Assumes colleciton can be safely enumerated multiple times. - - - - - - - Constant to use when making assembly internals visible to Castle.Core - [assembly: InternalsVisibleTo(CoreInternalsVisible.ToCastleCore)] - - - - - Constant to use when making assembly internals visible to proxy types generated by DynamicProxy. Required when proxying internal types. - [assembly: InternalsVisibleTo(CoreInternalsVisible.ToDynamicProxyGenAssembly2)] - - - - - Identifies a property should be represented as a nested component. - - - - - Defines the contract for building typed dictionary keys. - - - - - Builds the specified key. - - The dictionary adapter. - The current key. - The property. - The updated key - - - - Defines the contract for retrieving dictionary values. - - - - - Gets the effective dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if return only existing. - The effective property value. - - - - Applies no prefix. - - - - - Gets or sets the prefix. - - The prefix. - - - - Identifies the dictionary adapter types. - - - - - Identifies an interface or property to be pre-fetched. - - - - - Instructs fetching to occur. - - - - - Instructs fetching according to - - - - - - Gets whether or not fetching should occur. - - - - - Assigns a property to a group. - - - - - Constructs a group assignment. - - The group name. - - - - Constructs a group assignment. - - The group name. - - - - Gets the group the property is assigned to. - - - - - Assigns a specific dictionary key. - - - - - Initializes a new instance of the class. - - The key. - - - - Initializes a new instance of the class. - - The compound key. - - - - Assigns a prefix to the keyed properties of an interface. - - - Key prefixes are not inherited by sub-interfaces. - - - - - Initializes a default instance of the class. - - - - - Initializes a new instance of the class. - - The prefix for the keyed properties of the interface. - - - - Gets the prefix key added to the properties of the interface. - - - - - Substitutes part of key with another string. - - - - - Initializes a new instance of the class. - - The old value. - The new value. - - - - Requests support for multi-level editing. - - - - - Generates a new GUID on demand. - - - - - Support for on-demand value resolution. - - - - - Provides simple string formatting from existing properties. - - - - - Gets the string format. - - - - - Gets the format properties. - - - - - Identifies a property should be represented as a delimited string value. - - - - - Gets the separator. - - - - - Converts all properties to strings. - - - - - Gets or sets the format. - - The format. - - - - Suppress property change notifications. - - - - - Contract for property descriptor initialization. - - - - - Performs any initialization of the - - The property descriptor. - The property behaviors. - - - - Assigns a prefix to the keyed properties using the interface name. - - - - - Manages conversion between property values. - - - - - Initializes a new instance of the class. - - The converter. - - - - Gets the effective dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if return only existing. - The effective property value. - - - - - - - - - Uses Reflection.Emit to expose the properties of a dictionary - through a dynamic implementation of a typed interface. - - - - - Defines the contract for building typed dictionary adapters. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - The property descriptor. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets the associated with the type. - - The typed interface. - The adapter meta-data. - - - - Gets the associated with the type. - - The typed interface. - The property descriptor. - The adapter meta-data. - - - - Gets the associated with the type. - - The typed interface. - Another from which to copy behaviors. - The adapter meta-data. - - - - - - - - - - - - - - - - - - - - - - - - - - - - Contract for dictionary meta-data initialization. - - - - - Initializes the given object. - - The dictionary adapter factory. - The dictionary adapter meta. - - - - - Determines whether the given behavior should be included in a new - object. - - A dictionary behavior or annotation. - True if the behavior should be included; otherwise, false. - - behaviors are always included, - regardless of the result of this method. - - - - - - Contract for dictionary validation. - - - - - Determines if is valid. - - The dictionary adapter. - true if valid. - - - - Validates the . - - The dictionary adapter. - The error summary information. - - - - Validates the for a property. - - The dictionary adapter. - The property to validate. - The property summary information. - - - - Invalidates any results cached by the validator. - - The dictionary adapter. - - - - Describes a dictionary property. - - - - - Initializes an empty class. - - - - - Initializes a new instance of the class. - - The property. - The annotations. - - - - Initializes a new instance class. - - - - - Copies an existinginstance of the class. - - - - - - - Gets the key. - - The dictionary adapter. - The key. - The descriptor. - - - - - Gets the property value. - - The dictionary adapter. - The key. - The stored value. - The descriptor. - true if return only existing. - - - - - Sets the property value. - - The dictionary adapter. - The key. - The value. - The descriptor. - - - - - Adds a single behavior. - - The behavior. - - - - Adds the behaviors. - - The behaviors. - - - - Adds the behaviors. - - The behaviors. - - - - Copies the behaviors to the other - - - - - - - Copies the - - - - - - - - - - - Gets the property name. - - - - - Gets the property type. - - - - - Gets the property. - - The property. - - - - Returns true if the property is dynamic. - - - - - Gets additional state. - - - - - Determines if property should be fetched. - - - - - Determines if property must exist first. - - - - - Determines if notifications should occur. - - - - - Gets the property behaviors. - - - - - Gets the type converter. - - The type converter. - - - - Gets the extended properties. - - - - - Gets the setter. - - The setter. - - - - Gets the key builders. - - The key builders. - - - - Gets the setter. - - The setter. - - - - Gets the getter. - - The getter. - - - - Gets the initializers. - - The initializers. - - - - Gets the meta-data initializers. - - The meta-data initializers. - - - - Helper class for retrieving attributes. - - - - - Gets the attribute. - - The member. - The member attribute. - - - - Gets the attributes. Does not consider inherited attributes! - - The member. - The member attributes. - - - - Gets the type attribute. - - The type. - The type attribute. - - - - Gets the type attributes. - - The type. - The type attributes. - - - - Gets the type converter. - - The member. - - - - - Gets the attribute. - - The member. - The member attribute. - - - - Contract for typed dynamic value resolution. - - - - - - Contract for dynamic value resolution. - - - - - Supporting Logger levels. - - - - - Logging will be off - - - - - Fatal logging level - - - - - Error logging level - - - - - Warn logging level - - - - - Info logging level - - - - - Debug logging level - - - - - Encapsulates an invocation of a proxied method. - - - - - Gets the value of the argument at the specified . - - The index. - The value of the argument at the specified . - - - - Returns the concrete instantiation of the on the proxy, with any generic - parameters bound to real types. - - - The concrete instantiation of the on the proxy, or the if - not a generic method. - - - Can be slower than calling . - - - - - Returns the concrete instantiation of , with any - generic parameters bound to real types. - For interface proxies, this will point to the on the target class. - - The concrete instantiation of , or - if not a generic method. - - In debug builds this can be slower than calling . - - - - - Proceeds the call to the next interceptor in line, and ultimately to the target method. - - - Since interface proxies without a target don't have the target implementation to proceed to, - it is important, that the last interceptor does not call this method, otherwise a - will be thrown. - - - - - Overrides the value of an argument at the given with the - new provided. - - - This method accepts an , however the value provided must be compatible - with the type of the argument defined on the method, otherwise an exception will be thrown. - - The index of the argument to override. - The new value for the argument. - - - - Gets the arguments that the has been invoked with. - - The arguments the method was invoked with. - - - - Gets the generic arguments of the method. - - The generic arguments, or null if not a generic method. - - - - Gets the object on which the invocation is performed. This is different from proxy object - because most of the time this will be the proxy target object. - - - The invocation target. - - - - Gets the representing the method being invoked on the proxy. - - The representing the method being invoked. - - - - For interface proxies, this will point to the on the target class. - - The method invocation target. - - - - Gets the proxy object on which the intercepted method is invoked. - - Proxy object on which the intercepted method is invoked. - - - - Gets or sets the return value of the method. - - The return value of the method. - - - - Gets the type of the target object for the intercepted method. - - The type of the target object. - - - - Used during the target type inspection process. Implementors have a chance to customize the - proxy generation process. - - - - - Invoked by the generation process to notify that the whole process has completed. - - - - - Invoked by the generation process to notify that a member was not marked as virtual. - - The type which declares the non-virtual member. - The non-virtual member. - - This method gives an opportunity to inspect any non-proxyable member of a type that has - been requested to be proxied, and if appropriate - throw an exception to notify the caller. - - - - - Invoked by the generation process to determine if the specified method should be proxied. - - The type which declares the given method. - The method to inspect. - True if the given method should be proxied; false otherwise. - - - - Interface describing elements composing generated type - - - - - Performs some basic screening and invokes the - to select methods. - - - - - - - - - Provides functionality for disassembling instances of attributes to CustomAttributeBuilder form, during the process of emiting new types by Dynamic Proxy. - - - - - Disassembles given attribute instance back to corresponding CustomAttributeBuilder. - - An instance of attribute to disassemble - corresponding 1 to 1 to given attribute instance, or null reference. - - Implementers should return that corresponds to given attribute instance 1 to 1, - that is after calling specified constructor with specified arguments, and setting specified properties and fields with values specified - we should be able to get an attribute instance identical to the one passed in . Implementer can return null - if it wishes to opt out of replicating the attribute. Notice however, that for some cases, like attributes passed explicitly by the user - it is illegal to return null, and doing so will result in exception. - - - - - Handles error during disassembly process - - Type of the attribute being disassembled - Exception thrown during the process - usually null, or (re)throws the exception - - - - Here we try to match a constructor argument to its value. - Since we can't get the values from the assembly, we use some heuristics to get it. - a/ we first try to match all the properties on the attributes by name (case insensitive) to the argument - b/ if we fail we try to match them by property type, with some smarts about convertions (i,e: can use Guid for string). - - - - - We have the following rules here. - Try to find a matching type, failing that, if the parameter is string, get the first property (under the assumption that - we can convert it. - - - - - Attributes can only accept simple types, so we return null for null, - if the value is passed as string we call to string (should help with converting), - otherwise, we use the value as is (enums, integer, etc). - - - - - Returns list of all unique interfaces implemented given types, including their base interfaces. - - - - - - - Base class that exposes the common functionalities - to proxy generation. - - - - - It is safe to add mapping (no mapping for the interface exists) - - - - - - - - Generates a parameters constructor that initializes the proxy - state with just to make it non-null. - - This constructor is important to allow proxies to be XML serializable - - - - - - Generates the constructor for the class that extends - - - - - - - - - Default implementation of interface producing in-memory proxy assemblies. - - - - - Abstracts the implementation of proxy type construction. - - - - - Creates a proxy type for given , implementing , using provided. - - The class type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified class and interfaces. - Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type that proxies calls to members on , implementing , using provided. - - The interface type to proxy. - Additional interface types to proxy. - Type implementing on which calls to the interface members should be intercepted. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface that 'proceeds' executions to the specified target. - Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type for given and that delegates all calls to the provided interceptors and allows interceptors to switch the actual target of invocation. - - The interface type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface(s) that delegate all executions to the specified interceptors - and uses an instance of the interface as their targets (i.e. ), rather than a class. All classes should then implement interface, - to allow interceptors to switch invocation target with instance of another type implementing called interface. - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type for given that delegates all calls to the provided interceptors. - - The interface type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface and additional interfaces that delegate all executions to the specified interceptors. - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Gets or sets the that this logs to. - - - - - Gets the associated with this builder. - - The module scope associated with this builder. - - - - Initializes a new instance of the class with new . - - - - - Initializes a new instance of the class. - - The module scope for generated proxy types. - - - - Registers custom disassembler to handle disassembly of specified type of attributes. - - Type of attributes to handle - Disassembler converting existing instances of Attributes to CustomAttributeBuilders - - When disassembling an attribute Dynamic Proxy will first check if an custom disassembler has been registered to handle attributes of that type, - and if none is found, it'll use the . - - - - - Attributes should be replicated if they are non-inheritable, - but there are some special cases where the attributes means - something to the CLR, where they should be skipped. - - - - - Initializes a new instance of the class. - - Target element. This is either target type or target method for invocation types. - The type of the proxy. This is base type for invocation types. - The interfaces. - The options. - - - - Initializes a new instance of the class. - - Type of the target. - The interfaces. - The options. - - - - s - Provides appropriate Ldc.X opcode for the type of primitive value to be loaded. - - - - - Provides appropriate Ldind.X opcode for - the type of primitive value to be loaded indirectly. - - - - - Emits a load indirect opcode of the appropriate type for a value or object reference. - Pops a pointer off the evaluation stack, dereferences it and loads - a value of the specified type. - - - - - - - Emits a load opcode of the appropriate kind for a constant string or - primitive value. - - - - - - - Emits a load opcode of the appropriate kind for the constant default value of a - type, such as 0 for value types and null for reference types. - - - - - Emits a store indirectopcode of the appropriate type for a value or object reference. - Pops a value of the specified type and a pointer off the evaluation stack, and - stores the value. - - - - - - - Summary description for PropertiesCollection. - - - - - Wraps a reference that is passed - ByRef and provides indirect load/store support. - - - - - Summary description for NewArrayExpression. - - - - - - - - - Provides appropriate Stind.X opcode - for the type of primitive value to be stored indirectly. - - - - - Initializes a new instance of the class. - - The name. - Type declaring the original event being overriten, or null. - - The add method. - The remove method. - The attributes. - - - - Represents the scope of uniquenes of names for types and their members - - - - - Gets a unique name based on - - Name suggested by the caller - Unique name based on . - - Implementers should provide name as closely resembling as possible. - Generally if no collision occurs it is suggested to return suggested name, otherwise append sequential suffix. - Implementers must return deterministic names, that is when is called twice - with the same suggested name, the same returned name should be provided each time. Non-deterministic return - values, like appending random suffices will break serialization of proxies. - - - - - Returns new, disposable naming scope. It is responsibilty of the caller to make sure that no naming collision - with enclosing scope, or other subscopes is possible. - - New naming scope. - - - - Returns the methods implemented by a type. Use this instead of Type.GetMethods() to work around a CLR issue - where duplicate MethodInfos are returned by Type.GetMethods() after a token of a generic type's method was loaded. - - - - - Determines whether the specified method is internal. - - The method. - - true if the specified method is internal; otherwise, false. - - - - - Determines whether this assembly has internals visible to dynamic proxy. - - The assembly to inspect. - - - - Checks if the method is public or protected. - - - - - - - Because we need to cache the types based on the mixed in mixins, we do the following here: - - Get all the mixin interfaces - - Sort them by full name - - Return them by position - - The idea is to have reproducible behavior for the case that mixins are registered in different orders. - This method is here because it is required - - - - - Summary description for ModuleScope. - - - - - The default file name used when the assembly is saved using . - - - - - The default assembly (simple) name used for the assemblies generated by a instance. - - - - - Initializes a new instance of the class; assemblies created by this instance will not be saved. - - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved. - - If set to true saves the generated module. - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved and what simple names are to be assigned to them. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - The simple name of the strong-named assembly generated by this . - The path and file name of the manifest module of the strong-named assembly generated by this . - The simple name of the weak-named assembly generated by this . - The path and file name of the manifest module of the weak-named assembly generated by this . - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved and what simple names are to be assigned to them. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - Naming scope used to provide unique names to generated types and their members (usually via sub-scopes). - The simple name of the strong-named assembly generated by this . - The path and file name of the manifest module of the strong-named assembly generated by this . - The simple name of the weak-named assembly generated by this . - The path and file name of the manifest module of the weak-named assembly generated by this . - - - - Returns a type from this scope's type cache, or null if the key cannot be found. - - The key to be looked up in the cache. - The type from this scope's type cache matching the key, or null if the key cannot be found - - - - Registers a type in this scope's type cache. - - The key to be associated with the type. - The type to be stored in the cache. - - - - Gets the key pair used to sign the strong-named assembly generated by this . - - - - - - Gets the specified module generated by this scope, creating a new one if none has yet been generated. - - If set to true, a strong-named module is returned; otherwise, a weak-named module is returned. - A strong-named or weak-named module generated by this scope, as specified by the parameter. - - - - Gets the strong-named module generated by this scope, creating a new one if none has yet been generated. - - A strong-named module generated by this scope. - - - - Gets the weak-named module generated by this scope, creating a new one if none has yet been generated. - - A weak-named module generated by this scope. - - - - Users of this should use this lock when accessing the cache. - - - - - Gets the strong-named module generated by this scope, or if none has yet been generated. - - The strong-named module generated by this scope, or if none has yet been generated. - - - - Gets the file name of the strongly named module generated by this scope. - - The file name of the strongly named module generated by this scope. - - - - Gets the weak-named module generated by this scope, or if none has yet been generated. - - The weak-named module generated by this scope, or if none has yet been generated. - - - - Gets the file name of the weakly named module generated by this scope. - - The file name of the weakly named module generated by this scope. - - - - Initializes a new instance of the class. - - The hook. - - - - Initializes a new instance of the class. - - - - - Provides proxy objects for classes and interfaces. - - - - - Initializes a new instance of the class. - - Proxy types builder. - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - If true forces all types to be generated into an unsigned module. - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - Object proxying calls to members of on object. - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no parameterless constructor exists on type . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no parameterless constructor exists on type . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates the proxy type for class proxy with given class, implementing given and using provided . - - The base class for proxy type. - The interfaces that proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy with target for given interface, implementing given on given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - Actual type that the proxy type will encompass. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy with target interface for given interface, implementing given on given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy without target for given interface, implementing given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Gets or sets the that this log to. - - - - - Gets the proxy builder instance used to generate proxy types. - - The proxy builder. - - - - The silverlight System.Type is missing the IsNested property so this exposes similar functionality. - - - - - - - Holds objects representing methods of class. - - - - - Provides an extension point that allows proxies to choose specific interceptors on - a per method basis. - - - - - Selects the interceptors that should intercept calls to the given . - - The type declaring the method to intercept. - The method that will be intercepted. - All interceptors registered with the proxy. - An array of interceptors to invoke upon calling the . - - This method is called only once per proxy instance, upon the first call to the - . Either an empty array or null are valid return values to indicate - that no interceptor should intercept calls to the method. Although it is not advised, it is - legal to return other implementations than these provided in - . - - - - - Creates a new lock. - - - - - - This interface should be implemented by classes - that are available in a bigger context, exposing - the container to different areas in the same application. - - For example, in Web application, the (global) HttpApplication - subclasses should implement this interface to expose - the configured container - - - - - - Exposes means to change target objects of proxies and invocations - - - - - Changes the target object () of current . - - The new value of target of invocation. - - Although the method takes the actual instance must be of type assignable to , otherwise an will be thrown. - Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. - In this case last interceptor in the pipeline mustn't call or a will be throws. - Also while it's technically legal to pass proxy itself as , this would create stack overflow. - In this case last interceptor in the pipeline mustn't call or a will be throws. - - Thrown when is not assignable to the proxied type. - - - - Permanently changes the target object of the proxy. This does not affect target of the current invocation. - - The new value of target of the proxy. - - Although the method takes the actual instance must be of type assignable to proxy's target type, otherwise an will be thrown. - Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. - In this case last interceptor in the pipeline mustn't call or a will be throws. - Also while it's technically legal to pass proxy itself as , this would create stack overflow. - In this case last interceptor in the pipeline mustn't call or a will be throws. - - Thrown when is not assignable to the proxied type. - - - - New interface that is going to be used by DynamicProxy 2 - - - - - Get the proxy target (note that null is a valid target!) - - - - - - Gets the interceptors for the proxy - - - - - - Defines that the implementation wants a - in order to - access other components. The creator must be aware - that the component might (or might not) implement - the interface. - - - Used by Castle Project components to, for example, - gather logging factories - - - - - Increments IServiceProvider with a generic service resolution operation. - - - - - Provides a factory that can produce either or - classes. - - - - - Manages the instantiation of s. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Gets the configuration file. - - i.e. log4net.config - - - - - Interface for Context Properties implementations - - - - This interface defines a basic property get set accessor. - - - Based on the ContextPropertiesBase of log4net, by Nicko Cadell. - - - - - - Gets or sets the value of a property - - - The value for the property with the specified key - - - - Gets or sets the value of a property - - - - - - Gets the configuration file. - - i.e. log4net.config - - - - - NullLogFactory used when logging is turned off. - - - - - Creates an instance of ILogger with the specified name. - - Name. - - - - - Creates an instance of ILogger with the specified name and LoggerLevel. - - Name. - Level. - - - - - Provides an interface that supports and - allows the storage and retrieval of Contexts. These are supported in - both log4net and NLog. - - - - - Manages logging. - - - This is a facade for the different logging subsystems. - It offers a simplified interface that follows IOC patterns - and a simplified priority/level/severity abstraction. - - - - - Create a new child logger. - The name of the child logger is [current-loggers-name].[passed-in-name] - - The Subname of this logger. - The New ILogger instance. - If the name has an empty element name. - - - - Logs a debug message. - - The message to log - - - - Logs a debug message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a debug message. - - The exception to log - The message to log - - - - Logs a debug message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The message to log - - - - Logs an error message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs an error message. - - The exception to log - The message to log - - - - Logs an error message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The message to log - - - - Logs a fatal message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a fatal message. - - The exception to log - The message to log - - - - Logs a fatal message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The message to log - - - - Logs a info message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs an info message. - - The exception to log - The message to log - - - - Logs an info message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The message to log - - - - Logs a warn message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a warn message. - - The exception to log - The message to log - - - - Logs a warn message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Determines if messages of priority "debug" will be logged. - - True if "debug" messages will be logged. - - - - Determines if messages of priority "error" will be logged. - - True if "error" messages will be logged. - - - - Determines if messages of priority "fatal" will be logged. - - True if "fatal" messages will be logged. - - - - Determines if messages of priority "info" will be logged. - - True if "info" messages will be logged. - - - - Determines if messages of priority "warn" will be logged. - - True if "warn" messages will be logged. - - - - Exposes the Global Context of the extended logger. - - - - - Exposes the Thread Context of the extended logger. - - - - - Exposes the Thread Stack of the extended logger. - - - - - The Logger sending everything to the standard output streams. - This is mainly for the cases when you have a utility that - does not have a logger to supply. - - - - - The Level Filtered Logger class. This is a base clase which - provides a LogLevel attribute and reroutes all functions into - one Log method. - - - - - Creates a new LevelFilteredLogger. - - - - - Logs a debug message. - - The message to log - - - - Logs a debug message. - - The exception to log - The message to log - - - - Logs a debug message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The message to log - - - - Logs an info message. - - The exception to log - The message to log - - - - Logs an info message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The message to log - - - - Logs a warn message. - - The exception to log - The message to log - - - - Logs a warn message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The message to log - - - - Logs an error message. - - The exception to log - The message to log - - - - Logs an error message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The message to log - - - - Logs a fatal message. - - The exception to log - The message to log - - - - Logs a fatal message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Implementors output the log content by implementing this method only. - Note that exception can be null - - - - - - - - - The LoggerLevel that this logger - will be using. Defaults to LoggerLevel.Off - - - - - The name that this logger will be using. - Defaults to String.Empty - - - - - Determines if messages of priority "debug" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "info" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "warn" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "error" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "fatal" will be logged. - - true if log level flags include the bit - - - - Creates a new ConsoleLogger with the Level - set to LoggerLevel.Debug and the Name - set to String.Empty. - - - - - Creates a new ConsoleLogger with the Name - set to String.Empty. - - The logs Level. - - - - Creates a new ConsoleLogger with the Level - set to LoggerLevel.Debug. - - The logs Name. - - - - Creates a new ConsoleLogger. - - The logs Name. - The logs Level. - - - - A Common method to log. - - The level of logging - The name of the logger - The Message - The Exception - - - - Returns a new ConsoleLogger with the name - added after this loggers name, with a dot in between. - - The added hierarchical name. - A new ConsoleLogger. - - - - The Null Logger class. This is useful for implementations where you need - to provide a logger to a utility class, but do not want any output from it. - It also helps when you have a utility that does not have a logger to supply. - - - - - Returns this NullLogger. - - Ignored - This ILogger instance. - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - Returns empty context properties. - - - - - Returns empty context properties. - - - - - Returns empty context stacks. - - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - The Stream Logger class. This class can stream log information - to any stream, it is suitable for storing a log file to disk, - or to a MemoryStream for testing your components. - - - This logger is not thread safe. - - - - - Creates a new StreamLogger with default encoding - and buffer size. Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - - - Creates a new StreamLogger with default buffer size. - Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - The encoding that will be used for this stream. - - - - - - Creates a new StreamLogger. - Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - The encoding that will be used for this stream. - - - - The buffer size that will be used for this stream. - - - - - - Creates a new StreamLogger with - Debug as default Level. - - The name of the log. - The StreamWriter the log will write to. - - - - This is an abstract implementation - that deals with methods that can be abstracted away - from underlying implementations. - - - AbstractConfiguration makes easier to implementers - to create a new version of - - - - - is a interface encapsulating a configuration node - used to retrieve configuration values. - - - - - Gets the value of the node and converts it - into specified . - - The - - The Default value returned if the conversion fails. - - The Value converted into the specified type. - - - - Gets the name of the node. - - - The Name of the node. - - - - - Gets the value of the node. - - - The Value of the node. - - - - - Gets an of - elements containing all node children. - - The Collection of child nodes. - - - - Gets an of the configuration attributes. - - - - - Gets the value of the node and converts it - into specified . - - The - - The Default value returned if the conversion fails. - - The Value converted into the specified type. - - - - Gets node attributes. - - - All attributes of the node. - - - - - Gets all child nodes. - - The of child nodes. - - - - Gets the name of the . - - - The Name of the . - - - - - Gets the value of . - - - The Value of the . - - - - - A collection of objects. - - - - - Creates a new instance of ConfigurationCollection. - - - - - Creates a new instance of ConfigurationCollection. - - - - - Summary description for MutableConfiguration. - - - - - Initializes a new instance of the class. - - The name. - - - - Gets the value of . - - - The Value of the . - - - - - General purpose class to represent a standard pair of values. - - Type of the first value - Type of the second value - - - - Constructs a pair with its values - - - - - - - List of utility methods related to dynamic proxy operations - - - - - Determines whether the specified type is a proxy generated by - DynamicProxy (1 or 2). - - The type. - - true if it is a proxy; otherwise, false. - - - - - Readonly implementation of which uses an anonymous object as its source. Uses names of properties as keys, and property values as... well - values. Keys are not case sensitive. - - - - - Initializes a new instance of the class. - - The target. - - - - Adds an element with the provided key and value to the object. - - The to use as the key of the element to add. - The to use as the value of the element to add. - - is null. - An element with the same key already exists in the object. - The is read-only.-or- The has a fixed size. - - - - Removes all elements from the object. - - The object is read-only. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - - is null. - - - - Removes the element with the specified key from the object. - - The key of the element to remove. - - is null. - The object is read-only.-or- The has a fixed size. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - - - - Copies the elements of the to an , starting at a particular index. - - The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. - The zero-based index in at which copying begins. - - is null. - - is less than zero. - - is multidimensional.-or- is equal to or greater than the length of .-or- The number of elements in the source is greater than the available space from to the end of the destination . - The type of the source cannot be cast automatically to the type of the destination . - - - - Returns an object for the object. - - - An object for the object. - - - - - Reads values of properties from and inserts them into using property names as keys. - - - - - - - Gets the number of elements contained in the . - - - The number of elements contained in the . - - - - Gets a value indicating whether access to the is synchronized (thread safe). - - - true if access to the is synchronized (thread safe); otherwise, false. - - - - Gets an object that can be used to synchronize access to the . - - - An object that can be used to synchronize access to the . - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets or sets the with the specified key. - - - - - - Gets an object containing the keys of the object. - - - An object containing the keys of the object. - - - - Gets an object containing the values in the object. - - - An object containing the values in the object. - - - - Gets a value indicating whether the object has a fixed size. - - - true if the object has a fixed size; otherwise, false. - - - - Represents a 'streamable' resource. Can - be a file, a resource in an assembly. - - - - - Returns a reader for the stream - - - It's up to the caller to dispose the reader. - - - - - - Returns a reader for the stream - - - It's up to the caller to dispose the reader. - - - - - - - Returns an instance of - created according to the relativePath - using itself as the root. - - - - - - - - - - Only valid for resources that - can be obtained through relative paths - - - - - - - - - - This returns a new stream instance each time it is called. - It is the responsibility of the caller to dispose of this stream - - - - - Depicts the contract for resource factories. - - - - - Used to check whether the resource factory - is able to deal with the given resource - identifier. - - - Implementors should return true - only if the given identifier is supported - by the resource factory - - - - - - - Creates an instance - for the given resource identifier - - - - - - - Creates an instance - for the given resource identifier - - - - - - - - - - - - - Adapts a static string content as an - - - - - Enable access to files on network shares - - - - + + + + Castle.Core + + + + + Specifies assignment by reference rather than by copying. + + + + + Suppresses any on-demand behaviors. + + + + + Removes a property if null or empty string, guid or collection. + + + + + Removes a property if matches value. + + + + + Assigns a specific dictionary key. + + + + + Defines the contract for customizing dictionary access. + + + + + Copies the dictionary behavior. + + null if should not be copied. Otherwise copy. + + + + Determines relative order to apply related behaviors. + + + + + Defines the contract for updating dictionary values. + + + + + Sets the stored dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if the property should be stored. + + + + Contract for value matching. + + + + + Indicates that underlying values are changeable and should not be cached. + + + + + Contract for dictionary initialization. + + + + + Performs any initialization of the + + The dictionary adapter. + The dictionary behaviors. + + + + Abstract implementation of . + + + + + Conract for traversing a . + + + + + Contract for creating additional Dictionary adapters. + + + + + Contract for manipulating the Dictionary adapter. + + + + + Contract for editing the Dictionary adapter. + + + + + Contract for managing Dictionary adapter notifications. + + + + + Contract for validating Dictionary adapter. + + + + + Defines the contract for building s. + + + + + Builds the dictionary behaviors. + + + + + + Abstract adapter for the support + needed by the + + + + + Adds an element with the provided key and value to the object. + + The to use as the key of the element to add. + The to use as the value of the element to add. + An element with the same key already exists in the object. + key is null. + The is read-only.-or- The has a fixed size. + + + + Removes all elements from the object. + + The object is read-only. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + key is null. + + + + Returns an object for the object. + + + An object for the object. + + + + + Removes the element with the specified key from the object. + + The key of the element to remove. + The object is read-only.-or- The has a fixed size. + key is null. + + + + Copies the elements of the to an , starting at a particular index. + + The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. + The zero-based index in array at which copying begins. + array is null. + The type of the source cannot be cast automatically to the type of the destination array. + index is less than zero. + array is multidimensional.-or- index is equal to or greater than the length of array.-or- The number of elements in the source is greater than the available space from index to the end of the destination array. + + + + Returns an enumerator that iterates through a collection. + + + An object that can be used to iterate through the collection. + + + + + Gets a value indicating whether the object has a fixed size. + + + true if the object has a fixed size; otherwise, false. + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets an object containing the keys of the object. + + + An object containing the keys of the object. + + + + Gets an object containing the values in the object. + + + An object containing the values in the object. + + + + Gets or sets the with the specified key. + + + + + + Gets the number of elements contained in the . + + + The number of elements contained in the . + + + + Gets a value indicating whether access to the is synchronized (thread safe). + + + true if access to the is synchronized (thread safe); otherwise, false. + + + + Gets an object that can be used to synchronize access to the . + + + An object that can be used to synchronize access to the . + + + + Checks whether or not collection is null or empty. Assumes colleciton can be safely enumerated multiple times. + + + + + + + Constant to use when making assembly internals visible to Castle.Core + [assembly: InternalsVisibleTo(CoreInternalsVisible.ToCastleCore)] + + + + + Constant to use when making assembly internals visible to proxy types generated by DynamicProxy. Required when proxying internal types. + [assembly: InternalsVisibleTo(CoreInternalsVisible.ToDynamicProxyGenAssembly2)] + + + + + Identifies a property should be represented as a nested component. + + + + + Defines the contract for building typed dictionary keys. + + + + + Builds the specified key. + + The dictionary adapter. + The current key. + The property. + The updated key + + + + Defines the contract for retrieving dictionary values. + + + + + Gets the effective dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if return only existing. + The effective property value. + + + + Applies no prefix. + + + + + Gets or sets the prefix. + + The prefix. + + + + Identifies the dictionary adapter types. + + + + + Identifies an interface or property to be pre-fetched. + + + + + Instructs fetching to occur. + + + + + Instructs fetching according to + + + + + + Gets whether or not fetching should occur. + + + + + Assigns a property to a group. + + + + + Constructs a group assignment. + + The group name. + + + + Constructs a group assignment. + + The group name. + + + + Gets the group the property is assigned to. + + + + + Assigns a specific dictionary key. + + + + + Initializes a new instance of the class. + + The key. + + + + Initializes a new instance of the class. + + The compound key. + + + + Assigns a prefix to the keyed properties of an interface. + + + Key prefixes are not inherited by sub-interfaces. + + + + + Initializes a default instance of the class. + + + + + Initializes a new instance of the class. + + The prefix for the keyed properties of the interface. + + + + Gets the prefix key added to the properties of the interface. + + + + + Substitutes part of key with another string. + + + + + Initializes a new instance of the class. + + The old value. + The new value. + + + + Requests support for multi-level editing. + + + + + Generates a new GUID on demand. + + + + + Support for on-demand value resolution. + + + + + Provides simple string formatting from existing properties. + + + + + Gets the string format. + + + + + Gets the format properties. + + + + + Identifies a property should be represented as a delimited string value. + + + + + Gets the separator. + + + + + Converts all properties to strings. + + + + + Gets or sets the format. + + The format. + + + + Suppress property change notifications. + + + + + Contract for property descriptor initialization. + + + + + Performs any initialization of the + + The property descriptor. + The property behaviors. + + + + Assigns a prefix to the keyed properties using the interface name. + + + + + Manages conversion between property values. + + + + + Initializes a new instance of the class. + + The converter. + + + + Gets the effective dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if return only existing. + The effective property value. + + + + + + + + + Uses Reflection.Emit to expose the properties of a dictionary + through a dynamic implementation of a typed interface. + + + + + Defines the contract for building typed dictionary adapters. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + The property descriptor. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets the associated with the type. + + The typed interface. + The adapter meta-data. + + + + Gets the associated with the type. + + The typed interface. + The property descriptor. + The adapter meta-data. + + + + Gets the associated with the type. + + The typed interface. + Another from which to copy behaviors. + The adapter meta-data. + + + + + + + + + + + + + + + + + + + + + + + + + + + + Contract for dictionary meta-data initialization. + + + + + Initializes the given object. + + The dictionary adapter factory. + The dictionary adapter meta. + + + + + Determines whether the given behavior should be included in a new + object. + + A dictionary behavior or annotation. + True if the behavior should be included; otherwise, false. + + behaviors are always included, + regardless of the result of this method. + + + + + + Contract for dictionary validation. + + + + + Determines if is valid. + + The dictionary adapter. + true if valid. + + + + Validates the . + + The dictionary adapter. + The error summary information. + + + + Validates the for a property. + + The dictionary adapter. + The property to validate. + The property summary information. + + + + Invalidates any results cached by the validator. + + The dictionary adapter. + + + + Describes a dictionary property. + + + + + Initializes an empty class. + + + + + Initializes a new instance of the class. + + The property. + The annotations. + + + + Initializes a new instance class. + + + + + Copies an existinginstance of the class. + + + + + + + Gets the key. + + The dictionary adapter. + The key. + The descriptor. + + + + + Gets the property value. + + The dictionary adapter. + The key. + The stored value. + The descriptor. + true if return only existing. + + + + + Sets the property value. + + The dictionary adapter. + The key. + The value. + The descriptor. + + + + + Adds a single behavior. + + The behavior. + + + + Adds the behaviors. + + The behaviors. + + + + Adds the behaviors. + + The behaviors. + + + + Copies the behaviors to the other + + + + + + + Copies the + + + + + + + + + + + Gets the property name. + + + + + Gets the property type. + + + + + Gets the property. + + The property. + + + + Returns true if the property is dynamic. + + + + + Gets additional state. + + + + + Determines if property should be fetched. + + + + + Determines if property must exist first. + + + + + Determines if notifications should occur. + + + + + Gets the property behaviors. + + + + + Gets the type converter. + + The type converter. + + + + Gets the extended properties. + + + + + Gets the setter. + + The setter. + + + + Gets the key builders. + + The key builders. + + + + Gets the setter. + + The setter. + + + + Gets the getter. + + The getter. + + + + Gets the initializers. + + The initializers. + + + + Gets the meta-data initializers. + + The meta-data initializers. + + + + Helper class for retrieving attributes. + + + + + Gets the attribute. + + The member. + The member attribute. + + + + Gets the attributes. Does not consider inherited attributes! + + The member. + The member attributes. + + + + Gets the type attribute. + + The type. + The type attribute. + + + + Gets the type attributes. + + The type. + The type attributes. + + + + Gets the type converter. + + The member. + + + + + Gets the attribute. + + The member. + The member attribute. + + + + Contract for typed dynamic value resolution. + + + + + + Contract for dynamic value resolution. + + + + + Supporting Logger levels. + + + + + Logging will be off + + + + + Fatal logging level + + + + + Error logging level + + + + + Warn logging level + + + + + Info logging level + + + + + Debug logging level + + + + + Encapsulates an invocation of a proxied method. + + + + + Gets the value of the argument at the specified . + + The index. + The value of the argument at the specified . + + + + Returns the concrete instantiation of the on the proxy, with any generic + parameters bound to real types. + + + The concrete instantiation of the on the proxy, or the if + not a generic method. + + + Can be slower than calling . + + + + + Returns the concrete instantiation of , with any + generic parameters bound to real types. + For interface proxies, this will point to the on the target class. + + The concrete instantiation of , or + if not a generic method. + + In debug builds this can be slower than calling . + + + + + Proceeds the call to the next interceptor in line, and ultimately to the target method. + + + Since interface proxies without a target don't have the target implementation to proceed to, + it is important, that the last interceptor does not call this method, otherwise a + will be thrown. + + + + + Overrides the value of an argument at the given with the + new provided. + + + This method accepts an , however the value provided must be compatible + with the type of the argument defined on the method, otherwise an exception will be thrown. + + The index of the argument to override. + The new value for the argument. + + + + Gets the arguments that the has been invoked with. + + The arguments the method was invoked with. + + + + Gets the generic arguments of the method. + + The generic arguments, or null if not a generic method. + + + + Gets the object on which the invocation is performed. This is different from proxy object + because most of the time this will be the proxy target object. + + + The invocation target. + + + + Gets the representing the method being invoked on the proxy. + + The representing the method being invoked. + + + + For interface proxies, this will point to the on the target class. + + The method invocation target. + + + + Gets the proxy object on which the intercepted method is invoked. + + Proxy object on which the intercepted method is invoked. + + + + Gets or sets the return value of the method. + + The return value of the method. + + + + Gets the type of the target object for the intercepted method. + + The type of the target object. + + + + Used during the target type inspection process. Implementors have a chance to customize the + proxy generation process. + + + + + Invoked by the generation process to notify that the whole process has completed. + + + + + Invoked by the generation process to notify that a member was not marked as virtual. + + The type which declares the non-virtual member. + The non-virtual member. + + This method gives an opportunity to inspect any non-proxyable member of a type that has + been requested to be proxied, and if appropriate - throw an exception to notify the caller. + + + + + Invoked by the generation process to determine if the specified method should be proxied. + + The type which declares the given method. + The method to inspect. + True if the given method should be proxied; false otherwise. + + + + Interface describing elements composing generated type + + + + + Performs some basic screening and invokes the + to select methods. + + + + + + + + + Provides functionality for disassembling instances of attributes to CustomAttributeBuilder form, during the process of emiting new types by Dynamic Proxy. + + + + + Disassembles given attribute instance back to corresponding CustomAttributeBuilder. + + An instance of attribute to disassemble + corresponding 1 to 1 to given attribute instance, or null reference. + + Implementers should return that corresponds to given attribute instance 1 to 1, + that is after calling specified constructor with specified arguments, and setting specified properties and fields with values specified + we should be able to get an attribute instance identical to the one passed in . Implementer can return null + if it wishes to opt out of replicating the attribute. Notice however, that for some cases, like attributes passed explicitly by the user + it is illegal to return null, and doing so will result in exception. + + + + + Handles error during disassembly process + + Type of the attribute being disassembled + Exception thrown during the process + usually null, or (re)throws the exception + + + + Here we try to match a constructor argument to its value. + Since we can't get the values from the assembly, we use some heuristics to get it. + a/ we first try to match all the properties on the attributes by name (case insensitive) to the argument + b/ if we fail we try to match them by property type, with some smarts about convertions (i,e: can use Guid for string). + + + + + We have the following rules here. + Try to find a matching type, failing that, if the parameter is string, get the first property (under the assumption that + we can convert it. + + + + + Attributes can only accept simple types, so we return null for null, + if the value is passed as string we call to string (should help with converting), + otherwise, we use the value as is (enums, integer, etc). + + + + + Returns list of all unique interfaces implemented given types, including their base interfaces. + + + + + + + Base class that exposes the common functionalities + to proxy generation. + + + + + It is safe to add mapping (no mapping for the interface exists) + + + + + + + + Generates a parameters constructor that initializes the proxy + state with just to make it non-null. + + This constructor is important to allow proxies to be XML serializable + + + + + + Generates the constructor for the class that extends + + + + + + + + + Default implementation of interface producing in-memory proxy assemblies. + + + + + Abstracts the implementation of proxy type construction. + + + + + Creates a proxy type for given , implementing , using provided. + + The class type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified class and interfaces. + Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type that proxies calls to members on , implementing , using provided. + + The interface type to proxy. + Additional interface types to proxy. + Type implementing on which calls to the interface members should be intercepted. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface that 'proceeds' executions to the specified target. + Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type for given and that delegates all calls to the provided interceptors and allows interceptors to switch the actual target of invocation. + + The interface type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface(s) that delegate all executions to the specified interceptors + and uses an instance of the interface as their targets (i.e. ), rather than a class. All classes should then implement interface, + to allow interceptors to switch invocation target with instance of another type implementing called interface. + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type for given that delegates all calls to the provided interceptors. + + The interface type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface and additional interfaces that delegate all executions to the specified interceptors. + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Gets or sets the that this logs to. + + + + + Gets the associated with this builder. + + The module scope associated with this builder. + + + + Initializes a new instance of the class with new . + + + + + Initializes a new instance of the class. + + The module scope for generated proxy types. + + + + Registers custom disassembler to handle disassembly of specified type of attributes. + + Type of attributes to handle + Disassembler converting existing instances of Attributes to CustomAttributeBuilders + + When disassembling an attribute Dynamic Proxy will first check if an custom disassembler has been registered to handle attributes of that type, + and if none is found, it'll use the . + + + + + Attributes should be replicated if they are non-inheritable, + but there are some special cases where the attributes means + something to the CLR, where they should be skipped. + + + + + Initializes a new instance of the class. + + Target element. This is either target type or target method for invocation types. + The type of the proxy. This is base type for invocation types. + The interfaces. + The options. + + + + Initializes a new instance of the class. + + Type of the target. + The interfaces. + The options. + + + + s + Provides appropriate Ldc.X opcode for the type of primitive value to be loaded. + + + + + Provides appropriate Ldind.X opcode for + the type of primitive value to be loaded indirectly. + + + + + Emits a load indirect opcode of the appropriate type for a value or object reference. + Pops a pointer off the evaluation stack, dereferences it and loads + a value of the specified type. + + + + + + + Emits a load opcode of the appropriate kind for a constant string or + primitive value. + + + + + + + Emits a load opcode of the appropriate kind for the constant default value of a + type, such as 0 for value types and null for reference types. + + + + + Emits a store indirectopcode of the appropriate type for a value or object reference. + Pops a value of the specified type and a pointer off the evaluation stack, and + stores the value. + + + + + + + Summary description for PropertiesCollection. + + + + + Wraps a reference that is passed + ByRef and provides indirect load/store support. + + + + + Summary description for NewArrayExpression. + + + + + + + + + Provides appropriate Stind.X opcode + for the type of primitive value to be stored indirectly. + + + + + Initializes a new instance of the class. + + The name. + Type declaring the original event being overriten, or null. + + The add method. + The remove method. + The attributes. + + + + Represents the scope of uniquenes of names for types and their members + + + + + Gets a unique name based on + + Name suggested by the caller + Unique name based on . + + Implementers should provide name as closely resembling as possible. + Generally if no collision occurs it is suggested to return suggested name, otherwise append sequential suffix. + Implementers must return deterministic names, that is when is called twice + with the same suggested name, the same returned name should be provided each time. Non-deterministic return + values, like appending random suffices will break serialization of proxies. + + + + + Returns new, disposable naming scope. It is responsibilty of the caller to make sure that no naming collision + with enclosing scope, or other subscopes is possible. + + New naming scope. + + + + Returns the methods implemented by a type. Use this instead of Type.GetMethods() to work around a CLR issue + where duplicate MethodInfos are returned by Type.GetMethods() after a token of a generic type's method was loaded. + + + + + Determines whether the specified method is internal. + + The method. + + true if the specified method is internal; otherwise, false. + + + + + Determines whether this assembly has internals visible to dynamic proxy. + + The assembly to inspect. + + + + Checks if the method is public or protected. + + + + + + + Because we need to cache the types based on the mixed in mixins, we do the following here: + - Get all the mixin interfaces + - Sort them by full name + - Return them by position + + The idea is to have reproducible behavior for the case that mixins are registered in different orders. + This method is here because it is required + + + + + Summary description for ModuleScope. + + + + + The default file name used when the assembly is saved using . + + + + + The default assembly (simple) name used for the assemblies generated by a instance. + + + + + Initializes a new instance of the class; assemblies created by this instance will not be saved. + + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved. + + If set to true saves the generated module. + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved and what simple names are to be assigned to them. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + The simple name of the strong-named assembly generated by this . + The path and file name of the manifest module of the strong-named assembly generated by this . + The simple name of the weak-named assembly generated by this . + The path and file name of the manifest module of the weak-named assembly generated by this . + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved and what simple names are to be assigned to them. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + Naming scope used to provide unique names to generated types and their members (usually via sub-scopes). + The simple name of the strong-named assembly generated by this . + The path and file name of the manifest module of the strong-named assembly generated by this . + The simple name of the weak-named assembly generated by this . + The path and file name of the manifest module of the weak-named assembly generated by this . + + + + Returns a type from this scope's type cache, or null if the key cannot be found. + + The key to be looked up in the cache. + The type from this scope's type cache matching the key, or null if the key cannot be found + + + + Registers a type in this scope's type cache. + + The key to be associated with the type. + The type to be stored in the cache. + + + + Gets the key pair used to sign the strong-named assembly generated by this . + + + + + + Gets the specified module generated by this scope, creating a new one if none has yet been generated. + + If set to true, a strong-named module is returned; otherwise, a weak-named module is returned. + A strong-named or weak-named module generated by this scope, as specified by the parameter. + + + + Gets the strong-named module generated by this scope, creating a new one if none has yet been generated. + + A strong-named module generated by this scope. + + + + Gets the weak-named module generated by this scope, creating a new one if none has yet been generated. + + A weak-named module generated by this scope. + + + + Users of this should use this lock when accessing the cache. + + + + + Gets the strong-named module generated by this scope, or if none has yet been generated. + + The strong-named module generated by this scope, or if none has yet been generated. + + + + Gets the file name of the strongly named module generated by this scope. + + The file name of the strongly named module generated by this scope. + + + + Gets the weak-named module generated by this scope, or if none has yet been generated. + + The weak-named module generated by this scope, or if none has yet been generated. + + + + Gets the file name of the weakly named module generated by this scope. + + The file name of the weakly named module generated by this scope. + + + + Initializes a new instance of the class. + + The hook. + + + + Initializes a new instance of the class. + + + + + Provides proxy objects for classes and interfaces. + + + + + Initializes a new instance of the class. + + Proxy types builder. + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + If true forces all types to be generated into an unsigned module. + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + Object proxying calls to members of on object. + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no parameterless constructor exists on type . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no parameterless constructor exists on type . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates the proxy type for class proxy with given class, implementing given and using provided . + + The base class for proxy type. + The interfaces that proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy with target for given interface, implementing given on given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + Actual type that the proxy type will encompass. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy with target interface for given interface, implementing given on given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy without target for given interface, implementing given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Gets or sets the that this log to. + + + + + Gets the proxy builder instance used to generate proxy types. + + The proxy builder. + + + + The silverlight System.Type is missing the IsNested property so this exposes similar functionality. + + + + + + + Holds objects representing methods of class. + + + + + Provides an extension point that allows proxies to choose specific interceptors on + a per method basis. + + + + + Selects the interceptors that should intercept calls to the given . + + The type declaring the method to intercept. + The method that will be intercepted. + All interceptors registered with the proxy. + An array of interceptors to invoke upon calling the . + + This method is called only once per proxy instance, upon the first call to the + . Either an empty array or null are valid return values to indicate + that no interceptor should intercept calls to the method. Although it is not advised, it is + legal to return other implementations than these provided in + . + + + + + Creates a new lock. + + + + + + This interface should be implemented by classes + that are available in a bigger context, exposing + the container to different areas in the same application. + + For example, in Web application, the (global) HttpApplication + subclasses should implement this interface to expose + the configured container + + + + + + Exposes means to change target objects of proxies and invocations + + + + + Changes the target object () of current . + + The new value of target of invocation. + + Although the method takes the actual instance must be of type assignable to , otherwise an will be thrown. + Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. + In this case last interceptor in the pipeline mustn't call or a will be throws. + Also while it's technically legal to pass proxy itself as , this would create stack overflow. + In this case last interceptor in the pipeline mustn't call or a will be throws. + + Thrown when is not assignable to the proxied type. + + + + Permanently changes the target object of the proxy. This does not affect target of the current invocation. + + The new value of target of the proxy. + + Although the method takes the actual instance must be of type assignable to proxy's target type, otherwise an will be thrown. + Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. + In this case last interceptor in the pipeline mustn't call or a will be throws. + Also while it's technically legal to pass proxy itself as , this would create stack overflow. + In this case last interceptor in the pipeline mustn't call or a will be throws. + + Thrown when is not assignable to the proxied type. + + + + New interface that is going to be used by DynamicProxy 2 + + + + + Get the proxy target (note that null is a valid target!) + + + + + + Gets the interceptors for the proxy + + + + + + Defines that the implementation wants a + in order to + access other components. The creator must be aware + that the component might (or might not) implement + the interface. + + + Used by Castle Project components to, for example, + gather logging factories + + + + + Increments IServiceProvider with a generic service resolution operation. + + + + + Provides a factory that can produce either or + classes. + + + + + Manages the instantiation of s. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Gets the configuration file. + + i.e. log4net.config + + + + + Interface for Context Properties implementations + + + + This interface defines a basic property get set accessor. + + + Based on the ContextPropertiesBase of log4net, by Nicko Cadell. + + + + + + Gets or sets the value of a property + + + The value for the property with the specified key + + + + Gets or sets the value of a property + + + + + + Gets the configuration file. + + i.e. log4net.config + + + + + NullLogFactory used when logging is turned off. + + + + + Creates an instance of ILogger with the specified name. + + Name. + + + + + Creates an instance of ILogger with the specified name and LoggerLevel. + + Name. + Level. + + + + + Provides an interface that supports and + allows the storage and retrieval of Contexts. These are supported in + both log4net and NLog. + + + + + Manages logging. + + + This is a facade for the different logging subsystems. + It offers a simplified interface that follows IOC patterns + and a simplified priority/level/severity abstraction. + + + + + Create a new child logger. + The name of the child logger is [current-loggers-name].[passed-in-name] + + The Subname of this logger. + The New ILogger instance. + If the name has an empty element name. + + + + Logs a debug message. + + The message to log + + + + Logs a debug message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a debug message. + + The exception to log + The message to log + + + + Logs a debug message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The message to log + + + + Logs an error message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs an error message. + + The exception to log + The message to log + + + + Logs an error message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The message to log + + + + Logs a fatal message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a fatal message. + + The exception to log + The message to log + + + + Logs a fatal message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The message to log + + + + Logs a info message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs an info message. + + The exception to log + The message to log + + + + Logs an info message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The message to log + + + + Logs a warn message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a warn message. + + The exception to log + The message to log + + + + Logs a warn message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Determines if messages of priority "debug" will be logged. + + True if "debug" messages will be logged. + + + + Determines if messages of priority "error" will be logged. + + True if "error" messages will be logged. + + + + Determines if messages of priority "fatal" will be logged. + + True if "fatal" messages will be logged. + + + + Determines if messages of priority "info" will be logged. + + True if "info" messages will be logged. + + + + Determines if messages of priority "warn" will be logged. + + True if "warn" messages will be logged. + + + + Exposes the Global Context of the extended logger. + + + + + Exposes the Thread Context of the extended logger. + + + + + Exposes the Thread Stack of the extended logger. + + + + + The Logger sending everything to the standard output streams. + This is mainly for the cases when you have a utility that + does not have a logger to supply. + + + + + The Level Filtered Logger class. This is a base clase which + provides a LogLevel attribute and reroutes all functions into + one Log method. + + + + + Creates a new LevelFilteredLogger. + + + + + Logs a debug message. + + The message to log + + + + Logs a debug message. + + The exception to log + The message to log + + + + Logs a debug message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The message to log + + + + Logs an info message. + + The exception to log + The message to log + + + + Logs an info message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The message to log + + + + Logs a warn message. + + The exception to log + The message to log + + + + Logs a warn message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The message to log + + + + Logs an error message. + + The exception to log + The message to log + + + + Logs an error message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The message to log + + + + Logs a fatal message. + + The exception to log + The message to log + + + + Logs a fatal message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Implementors output the log content by implementing this method only. + Note that exception can be null + + + + + + + + + The LoggerLevel that this logger + will be using. Defaults to LoggerLevel.Off + + + + + The name that this logger will be using. + Defaults to String.Empty + + + + + Determines if messages of priority "debug" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "info" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "warn" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "error" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "fatal" will be logged. + + true if log level flags include the bit + + + + Creates a new ConsoleLogger with the Level + set to LoggerLevel.Debug and the Name + set to String.Empty. + + + + + Creates a new ConsoleLogger with the Name + set to String.Empty. + + The logs Level. + + + + Creates a new ConsoleLogger with the Level + set to LoggerLevel.Debug. + + The logs Name. + + + + Creates a new ConsoleLogger. + + The logs Name. + The logs Level. + + + + A Common method to log. + + The level of logging + The name of the logger + The Message + The Exception + + + + Returns a new ConsoleLogger with the name + added after this loggers name, with a dot in between. + + The added hierarchical name. + A new ConsoleLogger. + + + + The Null Logger class. This is useful for implementations where you need + to provide a logger to a utility class, but do not want any output from it. + It also helps when you have a utility that does not have a logger to supply. + + + + + Returns this NullLogger. + + Ignored + This ILogger instance. + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + Returns empty context properties. + + + + + Returns empty context properties. + + + + + Returns empty context stacks. + + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + The Stream Logger class. This class can stream log information + to any stream, it is suitable for storing a log file to disk, + or to a MemoryStream for testing your components. + + + This logger is not thread safe. + + + + + Creates a new StreamLogger with default encoding + and buffer size. Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + + + Creates a new StreamLogger with default buffer size. + Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + The encoding that will be used for this stream. + + + + + + Creates a new StreamLogger. + Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + The encoding that will be used for this stream. + + + + The buffer size that will be used for this stream. + + + + + + Creates a new StreamLogger with + Debug as default Level. + + The name of the log. + The StreamWriter the log will write to. + + + + This is an abstract implementation + that deals with methods that can be abstracted away + from underlying implementations. + + + AbstractConfiguration makes easier to implementers + to create a new version of + + + + + is a interface encapsulating a configuration node + used to retrieve configuration values. + + + + + Gets the value of the node and converts it + into specified . + + The + + The Default value returned if the conversion fails. + + The Value converted into the specified type. + + + + Gets the name of the node. + + + The Name of the node. + + + + + Gets the value of the node. + + + The Value of the node. + + + + + Gets an of + elements containing all node children. + + The Collection of child nodes. + + + + Gets an of the configuration attributes. + + + + + Gets the value of the node and converts it + into specified . + + The + + The Default value returned if the conversion fails. + + The Value converted into the specified type. + + + + Gets node attributes. + + + All attributes of the node. + + + + + Gets all child nodes. + + The of child nodes. + + + + Gets the name of the . + + + The Name of the . + + + + + Gets the value of . + + + The Value of the . + + + + + A collection of objects. + + + + + Creates a new instance of ConfigurationCollection. + + + + + Creates a new instance of ConfigurationCollection. + + + + + Summary description for MutableConfiguration. + + + + + Initializes a new instance of the class. + + The name. + + + + Gets the value of . + + + The Value of the . + + + + + General purpose class to represent a standard pair of values. + + Type of the first value + Type of the second value + + + + Constructs a pair with its values + + + + + + + List of utility methods related to dynamic proxy operations + + + + + Determines whether the specified type is a proxy generated by + DynamicProxy (1 or 2). + + The type. + + true if it is a proxy; otherwise, false. + + + + + Readonly implementation of which uses an anonymous object as its source. Uses names of properties as keys, and property values as... well - values. Keys are not case sensitive. + + + + + Initializes a new instance of the class. + + The target. + + + + Adds an element with the provided key and value to the object. + + The to use as the key of the element to add. + The to use as the value of the element to add. + + is null. + An element with the same key already exists in the object. + The is read-only.-or- The has a fixed size. + + + + Removes all elements from the object. + + The object is read-only. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + + is null. + + + + Removes the element with the specified key from the object. + + The key of the element to remove. + + is null. + The object is read-only.-or- The has a fixed size. + + + + Returns an enumerator that iterates through a collection. + + + An object that can be used to iterate through the collection. + + + + + Copies the elements of the to an , starting at a particular index. + + The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. + The zero-based index in at which copying begins. + + is null. + + is less than zero. + + is multidimensional.-or- is equal to or greater than the length of .-or- The number of elements in the source is greater than the available space from to the end of the destination . + The type of the source cannot be cast automatically to the type of the destination . + + + + Returns an object for the object. + + + An object for the object. + + + + + Reads values of properties from and inserts them into using property names as keys. + + + + + + + Gets the number of elements contained in the . + + + The number of elements contained in the . + + + + Gets a value indicating whether access to the is synchronized (thread safe). + + + true if access to the is synchronized (thread safe); otherwise, false. + + + + Gets an object that can be used to synchronize access to the . + + + An object that can be used to synchronize access to the . + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets or sets the with the specified key. + + + + + + Gets an object containing the keys of the object. + + + An object containing the keys of the object. + + + + Gets an object containing the values in the object. + + + An object containing the values in the object. + + + + Gets a value indicating whether the object has a fixed size. + + + true if the object has a fixed size; otherwise, false. + + + + Represents a 'streamable' resource. Can + be a file, a resource in an assembly. + + + + + Returns a reader for the stream + + + It's up to the caller to dispose the reader. + + + + + + Returns a reader for the stream + + + It's up to the caller to dispose the reader. + + + + + + + Returns an instance of + created according to the relativePath + using itself as the root. + + + + + + + + + + Only valid for resources that + can be obtained through relative paths + + + + + + + + + + This returns a new stream instance each time it is called. + It is the responsibility of the caller to dispose of this stream + + + + + Depicts the contract for resource factories. + + + + + Used to check whether the resource factory + is able to deal with the given resource + identifier. + + + Implementors should return true + only if the given identifier is supported + by the resource factory + + + + + + + Creates an instance + for the given resource identifier + + + + + + + Creates an instance + for the given resource identifier + + + + + + + + + + + + + Adapts a static string content as an + + + + + Enable access to files on network shares + + + + diff --git a/packages/Castle.Core.3.2.1/lib/sl5/Castle.Core.dll b/packages/Castle.Core.3.2.1/lib/sl5/Castle.Core.dll new file mode 100644 index 0000000..4611f6e Binary files /dev/null and b/packages/Castle.Core.3.2.1/lib/sl5/Castle.Core.dll differ diff --git a/packages/Castle.Core.3.2.0/lib/sl5/Castle.Core.xml b/packages/Castle.Core.3.2.1/lib/sl5/Castle.Core.xml similarity index 98% rename from packages/Castle.Core.3.2.0/lib/sl5/Castle.Core.xml rename to packages/Castle.Core.3.2.1/lib/sl5/Castle.Core.xml index 9051c06..766410f 100644 --- a/packages/Castle.Core.3.2.0/lib/sl5/Castle.Core.xml +++ b/packages/Castle.Core.3.2.1/lib/sl5/Castle.Core.xml @@ -1,4223 +1,4223 @@ - - - - Castle.Core - - - - - Specifies assignment by reference rather than by copying. - - - - - Suppresses any on-demand behaviors. - - - - - Removes a property if null or empty string, guid or collection. - - - - - Removes a property if matches value. - - - - - Assigns a specific dictionary key. - - - - - Defines the contract for customizing dictionary access. - - - - - Copies the dictionary behavior. - - null if should not be copied. Otherwise copy. - - - - Determines relative order to apply related behaviors. - - - - - Defines the contract for updating dictionary values. - - - - - Sets the stored dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if the property should be stored. - - - - Contract for value matching. - - - - - Indicates that underlying values are changeable and should not be cached. - - - - - Contract for dictionary initialization. - - - - - Performs any initialization of the - - The dictionary adapter. - The dictionary behaviors. - - - - Abstract implementation of . - - - - - Conract for traversing a . - - - - - Contract for creating additional Dictionary adapters. - - - - - Contract for manipulating the Dictionary adapter. - - - - - Contract for editing the Dictionary adapter. - - - - - Contract for managing Dictionary adapter notifications. - - - - - Contract for validating Dictionary adapter. - - - - - Defines the contract for building s. - - - - - Builds the dictionary behaviors. - - - - - - Abstract adapter for the support - needed by the - - - - - Adds an element with the provided key and value to the object. - - The to use as the key of the element to add. - The to use as the value of the element to add. - An element with the same key already exists in the object. - key is null. - The is read-only.-or- The has a fixed size. - - - - Removes all elements from the object. - - The object is read-only. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - key is null. - - - - Returns an object for the object. - - - An object for the object. - - - - - Removes the element with the specified key from the object. - - The key of the element to remove. - The object is read-only.-or- The has a fixed size. - key is null. - - - - Copies the elements of the to an , starting at a particular index. - - The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. - The zero-based index in array at which copying begins. - array is null. - The type of the source cannot be cast automatically to the type of the destination array. - index is less than zero. - array is multidimensional.-or- index is equal to or greater than the length of array.-or- The number of elements in the source is greater than the available space from index to the end of the destination array. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - - - - Gets a value indicating whether the object has a fixed size. - - - true if the object has a fixed size; otherwise, false. - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets an object containing the keys of the object. - - - An object containing the keys of the object. - - - - Gets an object containing the values in the object. - - - An object containing the values in the object. - - - - Gets or sets the with the specified key. - - - - - - Gets the number of elements contained in the . - - - The number of elements contained in the . - - - - Gets a value indicating whether access to the is synchronized (thread safe). - - - true if access to the is synchronized (thread safe); otherwise, false. - - - - Gets an object that can be used to synchronize access to the . - - - An object that can be used to synchronize access to the . - - - - Checks whether or not collection is null or empty. Assumes colleciton can be safely enumerated multiple times. - - - - - - - Constant to use when making assembly internals visible to Castle.Core - [assembly: InternalsVisibleTo(CoreInternalsVisible.ToCastleCore)] - - - - - Constant to use when making assembly internals visible to proxy types generated by DynamicProxy. Required when proxying internal types. - [assembly: InternalsVisibleTo(CoreInternalsVisible.ToDynamicProxyGenAssembly2)] - - - - - Identifies a property should be represented as a nested component. - - - - - Defines the contract for building typed dictionary keys. - - - - - Builds the specified key. - - The dictionary adapter. - The current key. - The property. - The updated key - - - - Defines the contract for retrieving dictionary values. - - - - - Gets the effective dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if return only existing. - The effective property value. - - - - Applies no prefix. - - - - - Gets or sets the prefix. - - The prefix. - - - - Identifies the dictionary adapter types. - - - - - Identifies an interface or property to be pre-fetched. - - - - - Instructs fetching to occur. - - - - - Instructs fetching according to - - - - - - Gets whether or not fetching should occur. - - - - - Assigns a property to a group. - - - - - Constructs a group assignment. - - The group name. - - - - Constructs a group assignment. - - The group name. - - - - Gets the group the property is assigned to. - - - - - Assigns a specific dictionary key. - - - - - Initializes a new instance of the class. - - The key. - - - - Initializes a new instance of the class. - - The compound key. - - - - Assigns a prefix to the keyed properties of an interface. - - - Key prefixes are not inherited by sub-interfaces. - - - - - Initializes a default instance of the class. - - - - - Initializes a new instance of the class. - - The prefix for the keyed properties of the interface. - - - - Gets the prefix key added to the properties of the interface. - - - - - Substitutes part of key with another string. - - - - - Initializes a new instance of the class. - - The old value. - The new value. - - - - Requests support for multi-level editing. - - - - - Generates a new GUID on demand. - - - - - Support for on-demand value resolution. - - - - - Provides simple string formatting from existing properties. - - - - - Gets the string format. - - - - - Gets the format properties. - - - - - Identifies a property should be represented as a delimited string value. - - - - - Gets the separator. - - - - - Converts all properties to strings. - - - - - Gets or sets the format. - - The format. - - - - Suppress property change notifications. - - - - - Contract for property descriptor initialization. - - - - - Performs any initialization of the - - The property descriptor. - The property behaviors. - - - - Assigns a prefix to the keyed properties using the interface name. - - - - - Manages conversion between property values. - - - - - Initializes a new instance of the class. - - The converter. - - - - Gets the effective dictionary value. - - The dictionary adapter. - The key. - The stored value. - The property. - true if return only existing. - The effective property value. - - - - - - - - - Uses Reflection.Emit to expose the properties of a dictionary - through a dynamic implementation of a typed interface. - - - - - Defines the contract for building typed dictionary adapters. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets a typed adapter bound to the . - - The typed interface. - The underlying source of properties. - The property descriptor. - An implementation of the typed interface bound to the dictionary. - - The type represented by T must be an interface with properties. - - - - - Gets the associated with the type. - - The typed interface. - The adapter meta-data. - - - - Gets the associated with the type. - - The typed interface. - The property descriptor. - The adapter meta-data. - - - - Gets the associated with the type. - - The typed interface. - Another from which to copy behaviors. - The adapter meta-data. - - - - - - - - - - - - - - - - - - - - - - - - - - - - Contract for dictionary meta-data initialization. - - - - - Initializes the given object. - - The dictionary adapter factory. - The dictionary adapter meta. - - - - - Determines whether the given behavior should be included in a new - object. - - A dictionary behavior or annotation. - True if the behavior should be included; otherwise, false. - - behaviors are always included, - regardless of the result of this method. - - - - - - Contract for dictionary validation. - - - - - Determines if is valid. - - The dictionary adapter. - true if valid. - - - - Validates the . - - The dictionary adapter. - The error summary information. - - - - Validates the for a property. - - The dictionary adapter. - The property to validate. - The property summary information. - - - - Invalidates any results cached by the validator. - - The dictionary adapter. - - - - Describes a dictionary property. - - - - - Initializes an empty class. - - - - - Initializes a new instance of the class. - - The property. - The annotations. - - - - Initializes a new instance class. - - - - - Copies an existinginstance of the class. - - - - - - - Gets the key. - - The dictionary adapter. - The key. - The descriptor. - - - - - Gets the property value. - - The dictionary adapter. - The key. - The stored value. - The descriptor. - true if return only existing. - - - - - Sets the property value. - - The dictionary adapter. - The key. - The value. - The descriptor. - - - - - Adds a single behavior. - - The behavior. - - - - Adds the behaviors. - - The behaviors. - - - - Adds the behaviors. - - The behaviors. - - - - Copies the behaviors to the other - - - - - - - Copies the - - - - - - - - - - - Gets the property name. - - - - - Gets the property type. - - - - - Gets the property. - - The property. - - - - Returns true if the property is dynamic. - - - - - Gets additional state. - - - - - Determines if property should be fetched. - - - - - Determines if property must exist first. - - - - - Determines if notifications should occur. - - - - - Gets the property behaviors. - - - - - Gets the type converter. - - The type converter. - - - - Gets the extended properties. - - - - - Gets the setter. - - The setter. - - - - Gets the key builders. - - The key builders. - - - - Gets the setter. - - The setter. - - - - Gets the getter. - - The getter. - - - - Gets the initializers. - - The initializers. - - - - Gets the meta-data initializers. - - The meta-data initializers. - - - - Helper class for retrieving attributes. - - - - - Gets the attribute. - - The member. - The member attribute. - - - - Gets the attributes. Does not consider inherited attributes! - - The member. - The member attributes. - - - - Gets the type attribute. - - The type. - The type attribute. - - - - Gets the type attributes. - - The type. - The type attributes. - - - - Gets the type converter. - - The member. - - - - - Gets the attribute. - - The member. - The member attribute. - - - - Contract for typed dynamic value resolution. - - - - - - Contract for dynamic value resolution. - - - - - Supporting Logger levels. - - - - - Logging will be off - - - - - Fatal logging level - - - - - Error logging level - - - - - Warn logging level - - - - - Info logging level - - - - - Debug logging level - - - - - Encapsulates an invocation of a proxied method. - - - - - Gets the value of the argument at the specified . - - The index. - The value of the argument at the specified . - - - - Returns the concrete instantiation of the on the proxy, with any generic - parameters bound to real types. - - - The concrete instantiation of the on the proxy, or the if - not a generic method. - - - Can be slower than calling . - - - - - Returns the concrete instantiation of , with any - generic parameters bound to real types. - For interface proxies, this will point to the on the target class. - - The concrete instantiation of , or - if not a generic method. - - In debug builds this can be slower than calling . - - - - - Proceeds the call to the next interceptor in line, and ultimately to the target method. - - - Since interface proxies without a target don't have the target implementation to proceed to, - it is important, that the last interceptor does not call this method, otherwise a - will be thrown. - - - - - Overrides the value of an argument at the given with the - new provided. - - - This method accepts an , however the value provided must be compatible - with the type of the argument defined on the method, otherwise an exception will be thrown. - - The index of the argument to override. - The new value for the argument. - - - - Gets the arguments that the has been invoked with. - - The arguments the method was invoked with. - - - - Gets the generic arguments of the method. - - The generic arguments, or null if not a generic method. - - - - Gets the object on which the invocation is performed. This is different from proxy object - because most of the time this will be the proxy target object. - - - The invocation target. - - - - Gets the representing the method being invoked on the proxy. - - The representing the method being invoked. - - - - For interface proxies, this will point to the on the target class. - - The method invocation target. - - - - Gets the proxy object on which the intercepted method is invoked. - - Proxy object on which the intercepted method is invoked. - - - - Gets or sets the return value of the method. - - The return value of the method. - - - - Gets the type of the target object for the intercepted method. - - The type of the target object. - - - - Used during the target type inspection process. Implementors have a chance to customize the - proxy generation process. - - - - - Invoked by the generation process to notify that the whole process has completed. - - - - - Invoked by the generation process to notify that a member was not marked as virtual. - - The type which declares the non-virtual member. - The non-virtual member. - - This method gives an opportunity to inspect any non-proxyable member of a type that has - been requested to be proxied, and if appropriate - throw an exception to notify the caller. - - - - - Invoked by the generation process to determine if the specified method should be proxied. - - The type which declares the given method. - The method to inspect. - True if the given method should be proxied; false otherwise. - - - - Interface describing elements composing generated type - - - - - Performs some basic screening and invokes the - to select methods. - - - - - - - - - Provides functionality for disassembling instances of attributes to CustomAttributeBuilder form, during the process of emiting new types by Dynamic Proxy. - - - - - Disassembles given attribute instance back to corresponding CustomAttributeBuilder. - - An instance of attribute to disassemble - corresponding 1 to 1 to given attribute instance, or null reference. - - Implementers should return that corresponds to given attribute instance 1 to 1, - that is after calling specified constructor with specified arguments, and setting specified properties and fields with values specified - we should be able to get an attribute instance identical to the one passed in . Implementer can return null - if it wishes to opt out of replicating the attribute. Notice however, that for some cases, like attributes passed explicitly by the user - it is illegal to return null, and doing so will result in exception. - - - - - Handles error during disassembly process - - Type of the attribute being disassembled - Exception thrown during the process - usually null, or (re)throws the exception - - - - Here we try to match a constructor argument to its value. - Since we can't get the values from the assembly, we use some heuristics to get it. - a/ we first try to match all the properties on the attributes by name (case insensitive) to the argument - b/ if we fail we try to match them by property type, with some smarts about convertions (i,e: can use Guid for string). - - - - - We have the following rules here. - Try to find a matching type, failing that, if the parameter is string, get the first property (under the assumption that - we can convert it. - - - - - Attributes can only accept simple types, so we return null for null, - if the value is passed as string we call to string (should help with converting), - otherwise, we use the value as is (enums, integer, etc). - - - - - Returns list of all unique interfaces implemented given types, including their base interfaces. - - - - - - - Base class that exposes the common functionalities - to proxy generation. - - - - - It is safe to add mapping (no mapping for the interface exists) - - - - - - - - Generates a parameters constructor that initializes the proxy - state with just to make it non-null. - - This constructor is important to allow proxies to be XML serializable - - - - - - Generates the constructor for the class that extends - - - - - - - - - Default implementation of interface producing in-memory proxy assemblies. - - - - - Abstracts the implementation of proxy type construction. - - - - - Creates a proxy type for given , implementing , using provided. - - The class type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified class and interfaces. - Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type that proxies calls to members on , implementing , using provided. - - The interface type to proxy. - Additional interface types to proxy. - Type implementing on which calls to the interface members should be intercepted. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface that 'proceeds' executions to the specified target. - Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type for given and that delegates all calls to the provided interceptors and allows interceptors to switch the actual target of invocation. - - The interface type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface(s) that delegate all executions to the specified interceptors - and uses an instance of the interface as their targets (i.e. ), rather than a class. All classes should then implement interface, - to allow interceptors to switch invocation target with instance of another type implementing called interface. - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Creates a proxy type for given that delegates all calls to the provided interceptors. - - The interface type to proxy. - Additional interface types to proxy. - The proxy generation options. - The generated proxy type. - - Implementers should return a proxy type for the specified interface and additional interfaces that delegate all executions to the specified interceptors. - - Thrown when or any of is a generic type definition. - Thrown when or any of is not public. - Note that to avoid this exception, you can mark offending type internal, and define - pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. - - - - - Gets or sets the that this logs to. - - - - - Gets the associated with this builder. - - The module scope associated with this builder. - - - - Initializes a new instance of the class with new . - - - - - Initializes a new instance of the class. - - The module scope for generated proxy types. - - - - Registers custom disassembler to handle disassembly of specified type of attributes. - - Type of attributes to handle - Disassembler converting existing instances of Attributes to CustomAttributeBuilders - - When disassembling an attribute Dynamic Proxy will first check if an custom disassembler has been registered to handle attributes of that type, - and if none is found, it'll use the . - - - - - Attributes should be replicated if they are non-inheritable, - but there are some special cases where the attributes means - something to the CLR, where they should be skipped. - - - - - Initializes a new instance of the class. - - Target element. This is either target type or target method for invocation types. - The type of the proxy. This is base type for invocation types. - The interfaces. - The options. - - - - Initializes a new instance of the class. - - Type of the target. - The interfaces. - The options. - - - - s - Provides appropriate Ldc.X opcode for the type of primitive value to be loaded. - - - - - Provides appropriate Ldind.X opcode for - the type of primitive value to be loaded indirectly. - - - - - Emits a load indirect opcode of the appropriate type for a value or object reference. - Pops a pointer off the evaluation stack, dereferences it and loads - a value of the specified type. - - - - - - - Emits a load opcode of the appropriate kind for a constant string or - primitive value. - - - - - - - Emits a load opcode of the appropriate kind for the constant default value of a - type, such as 0 for value types and null for reference types. - - - - - Emits a store indirectopcode of the appropriate type for a value or object reference. - Pops a value of the specified type and a pointer off the evaluation stack, and - stores the value. - - - - - - - Summary description for PropertiesCollection. - - - - - Wraps a reference that is passed - ByRef and provides indirect load/store support. - - - - - Summary description for NewArrayExpression. - - - - - - - - - Provides appropriate Stind.X opcode - for the type of primitive value to be stored indirectly. - - - - - Initializes a new instance of the class. - - The name. - Type declaring the original event being overriten, or null. - - The add method. - The remove method. - The attributes. - - - - Represents the scope of uniquenes of names for types and their members - - - - - Gets a unique name based on - - Name suggested by the caller - Unique name based on . - - Implementers should provide name as closely resembling as possible. - Generally if no collision occurs it is suggested to return suggested name, otherwise append sequential suffix. - Implementers must return deterministic names, that is when is called twice - with the same suggested name, the same returned name should be provided each time. Non-deterministic return - values, like appending random suffices will break serialization of proxies. - - - - - Returns new, disposable naming scope. It is responsibilty of the caller to make sure that no naming collision - with enclosing scope, or other subscopes is possible. - - New naming scope. - - - - Returns the methods implemented by a type. Use this instead of Type.GetMethods() to work around a CLR issue - where duplicate MethodInfos are returned by Type.GetMethods() after a token of a generic type's method was loaded. - - - - - Determines whether the specified method is internal. - - The method. - - true if the specified method is internal; otherwise, false. - - - - - Determines whether this assembly has internals visible to dynamic proxy. - - The assembly to inspect. - - - - Checks if the method is public or protected. - - - - - - - Because we need to cache the types based on the mixed in mixins, we do the following here: - - Get all the mixin interfaces - - Sort them by full name - - Return them by position - - The idea is to have reproducible behavior for the case that mixins are registered in different orders. - This method is here because it is required - - - - - Summary description for ModuleScope. - - - - - The default file name used when the assembly is saved using . - - - - - The default assembly (simple) name used for the assemblies generated by a instance. - - - - - Initializes a new instance of the class; assemblies created by this instance will not be saved. - - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved. - - If set to true saves the generated module. - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved and what simple names are to be assigned to them. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - The simple name of the strong-named assembly generated by this . - The path and file name of the manifest module of the strong-named assembly generated by this . - The simple name of the weak-named assembly generated by this . - The path and file name of the manifest module of the weak-named assembly generated by this . - - - - Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance - should be saved and what simple names are to be assigned to them. - - If set to true saves the generated module. - If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. - Naming scope used to provide unique names to generated types and their members (usually via sub-scopes). - The simple name of the strong-named assembly generated by this . - The path and file name of the manifest module of the strong-named assembly generated by this . - The simple name of the weak-named assembly generated by this . - The path and file name of the manifest module of the weak-named assembly generated by this . - - - - Returns a type from this scope's type cache, or null if the key cannot be found. - - The key to be looked up in the cache. - The type from this scope's type cache matching the key, or null if the key cannot be found - - - - Registers a type in this scope's type cache. - - The key to be associated with the type. - The type to be stored in the cache. - - - - Gets the key pair used to sign the strong-named assembly generated by this . - - - - - - Gets the specified module generated by this scope, creating a new one if none has yet been generated. - - If set to true, a strong-named module is returned; otherwise, a weak-named module is returned. - A strong-named or weak-named module generated by this scope, as specified by the parameter. - - - - Gets the strong-named module generated by this scope, creating a new one if none has yet been generated. - - A strong-named module generated by this scope. - - - - Gets the weak-named module generated by this scope, creating a new one if none has yet been generated. - - A weak-named module generated by this scope. - - - - Users of this should use this lock when accessing the cache. - - - - - Gets the strong-named module generated by this scope, or if none has yet been generated. - - The strong-named module generated by this scope, or if none has yet been generated. - - - - Gets the file name of the strongly named module generated by this scope. - - The file name of the strongly named module generated by this scope. - - - - Gets the weak-named module generated by this scope, or if none has yet been generated. - - The weak-named module generated by this scope, or if none has yet been generated. - - - - Gets the file name of the weakly named module generated by this scope. - - The file name of the weakly named module generated by this scope. - - - - Initializes a new instance of the class. - - The hook. - - - - Initializes a new instance of the class. - - - - - Provides proxy objects for classes and interfaces. - - - - - Initializes a new instance of the class. - - Proxy types builder. - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - If true forces all types to be generated into an unsigned module. - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - Object proxying calls to members of on object. - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target - use method. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on object with given . - Interceptors can use interface to provide other target for method invocation than default . - - Type of the interface implemented by which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - Thrown when given does not implement interface. - Thrown when no default constructor exists on actual type of object. - Thrown when default constructor of actual type of throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of types on generated target object. - - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - As a result of that also at least one implementation must be provided. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of type on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not an interface type. - - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . - - Type of the interface which will be proxied. - The proxy generation options used to influence generated proxy type and object. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - Object proxying calls to members of and types on generated target object. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given array is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not an interface type. - - Since this method uses an empty-shell implementation of to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. - They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no parameterless constructor exists on type . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The target object, calls to which will be intercepted. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no parameterless constructor exists on type . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of type. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The proxy generation options used to influence generated proxy type and object. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no default constructor exists on type . - Thrown when default constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . - - Type of class which will be proxied. - Additional interface types. Calls to their members will be proxied as well. - The proxy generation options used to influence generated proxy type and object. - Arguments of constructor of type which should be used to create a new instance of that type. - The interceptors called during the invocation of proxied methods. - - New object of type proxying calls to virtual members of and types. - - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given object is a null reference (Nothing in Visual Basic). - Thrown when given or any of is a generic type definition. - Thrown when given is not a class type. - Thrown when no constructor exists on type with parameters matching . - Thrown when constructor of type throws an exception. - - This method uses implementation to generate a proxy type. - As such caller should expect any type of exception that given implementation may throw. - - - - - Creates the proxy type for class proxy with given class, implementing given and using provided . - - The base class for proxy type. - The interfaces that proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy with target for given interface, implementing given on given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - Actual type that the proxy type will encompass. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy with target interface for given interface, implementing given on given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Creates the proxy type for interface proxy without target for given interface, implementing given and using provided . - - The interface proxy type should implement. - The additional interfaces proxy type should implement. - The options for proxy generation process. - of proxy. - - - - Gets or sets the that this log to. - - - - - Gets the proxy builder instance used to generate proxy types. - - The proxy builder. - - - - The silverlight System.Type is missing the IsNested property so this exposes similar functionality. - - - - - - - Holds objects representing methods of class. - - - - - Provides an extension point that allows proxies to choose specific interceptors on - a per method basis. - - - - - Selects the interceptors that should intercept calls to the given . - - The type declaring the method to intercept. - The method that will be intercepted. - All interceptors registered with the proxy. - An array of interceptors to invoke upon calling the . - - This method is called only once per proxy instance, upon the first call to the - . Either an empty array or null are valid return values to indicate - that no interceptor should intercept calls to the method. Although it is not advised, it is - legal to return other implementations than these provided in - . - - - - - Creates a new lock. - - - - - - This interface should be implemented by classes - that are available in a bigger context, exposing - the container to different areas in the same application. - - For example, in Web application, the (global) HttpApplication - subclasses should implement this interface to expose - the configured container - - - - - - Exposes means to change target objects of proxies and invocations - - - - - Changes the target object () of current . - - The new value of target of invocation. - - Although the method takes the actual instance must be of type assignable to , otherwise an will be thrown. - Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. - In this case last interceptor in the pipeline mustn't call or a will be throws. - Also while it's technically legal to pass proxy itself as , this would create stack overflow. - In this case last interceptor in the pipeline mustn't call or a will be throws. - - Thrown when is not assignable to the proxied type. - - - - Permanently changes the target object of the proxy. This does not affect target of the current invocation. - - The new value of target of the proxy. - - Although the method takes the actual instance must be of type assignable to proxy's target type, otherwise an will be thrown. - Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. - In this case last interceptor in the pipeline mustn't call or a will be throws. - Also while it's technically legal to pass proxy itself as , this would create stack overflow. - In this case last interceptor in the pipeline mustn't call or a will be throws. - - Thrown when is not assignable to the proxied type. - - - - New interface that is going to be used by DynamicProxy 2 - - - - - Get the proxy target (note that null is a valid target!) - - - - - - Gets the interceptors for the proxy - - - - - - Defines that the implementation wants a - in order to - access other components. The creator must be aware - that the component might (or might not) implement - the interface. - - - Used by Castle Project components to, for example, - gather logging factories - - - - - Increments IServiceProvider with a generic service resolution operation. - - - - - Provides a factory that can produce either or - classes. - - - - - Manages the instantiation of s. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new extended logger, getting the logger name from the specified type. - - - - - Creates a new extended logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Creates a new logger, getting the logger name from the specified type. - - - - - Creates a new logger. - - - - - Gets the configuration file. - - i.e. log4net.config - - - - - Interface for Context Properties implementations - - - - This interface defines a basic property get set accessor. - - - Based on the ContextPropertiesBase of log4net, by Nicko Cadell. - - - - - - Gets or sets the value of a property - - - The value for the property with the specified key - - - - Gets or sets the value of a property - - - - - - Gets the configuration file. - - i.e. log4net.config - - - - - NullLogFactory used when logging is turned off. - - - - - Creates an instance of ILogger with the specified name. - - Name. - - - - - Creates an instance of ILogger with the specified name and LoggerLevel. - - Name. - Level. - - - - - Provides an interface that supports and - allows the storage and retrieval of Contexts. These are supported in - both log4net and NLog. - - - - - Manages logging. - - - This is a facade for the different logging subsystems. - It offers a simplified interface that follows IOC patterns - and a simplified priority/level/severity abstraction. - - - - - Create a new child logger. - The name of the child logger is [current-loggers-name].[passed-in-name] - - The Subname of this logger. - The New ILogger instance. - If the name has an empty element name. - - - - Logs a debug message. - - The message to log - - - - Logs a debug message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a debug message. - - The exception to log - The message to log - - - - Logs a debug message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The message to log - - - - Logs an error message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs an error message. - - The exception to log - The message to log - - - - Logs an error message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The message to log - - - - Logs a fatal message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a fatal message. - - The exception to log - The message to log - - - - Logs a fatal message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The message to log - - - - Logs a info message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs an info message. - - The exception to log - The message to log - - - - Logs an info message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The message to log - - - - Logs a warn message with lazily constructed message. The message will be constructed only if the is true. - - - - - - Logs a warn message. - - The exception to log - The message to log - - - - Logs a warn message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Determines if messages of priority "debug" will be logged. - - True if "debug" messages will be logged. - - - - Determines if messages of priority "error" will be logged. - - True if "error" messages will be logged. - - - - Determines if messages of priority "fatal" will be logged. - - True if "fatal" messages will be logged. - - - - Determines if messages of priority "info" will be logged. - - True if "info" messages will be logged. - - - - Determines if messages of priority "warn" will be logged. - - True if "warn" messages will be logged. - - - - Exposes the Global Context of the extended logger. - - - - - Exposes the Thread Context of the extended logger. - - - - - Exposes the Thread Stack of the extended logger. - - - - - The Logger sending everything to the standard output streams. - This is mainly for the cases when you have a utility that - does not have a logger to supply. - - - - - The Level Filtered Logger class. This is a base clase which - provides a LogLevel attribute and reroutes all functions into - one Log method. - - - - - Creates a new LevelFilteredLogger. - - - - - Logs a debug message. - - The message to log - - - - Logs a debug message. - - The exception to log - The message to log - - - - Logs a debug message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a debug message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The message to log - - - - Logs an info message. - - The exception to log - The message to log - - - - Logs an info message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an info message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The message to log - - - - Logs a warn message. - - The exception to log - The message to log - - - - Logs a warn message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a warn message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The message to log - - - - Logs an error message. - - The exception to log - The message to log - - - - Logs an error message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs an error message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The message to log - - - - Logs a fatal message. - - The exception to log - The message to log - - - - Logs a fatal message. - - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Logs a fatal message. - - The exception to log - The format provider to use - Format string for the message to log - Format arguments for the message to log - - - - Implementors output the log content by implementing this method only. - Note that exception can be null - - - - - - - - - The LoggerLevel that this logger - will be using. Defaults to LoggerLevel.Off - - - - - The name that this logger will be using. - Defaults to String.Empty - - - - - Determines if messages of priority "debug" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "info" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "warn" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "error" will be logged. - - true if log level flags include the bit - - - - Determines if messages of priority "fatal" will be logged. - - true if log level flags include the bit - - - - Creates a new ConsoleLogger with the Level - set to LoggerLevel.Debug and the Name - set to String.Empty. - - - - - Creates a new ConsoleLogger with the Name - set to String.Empty. - - The logs Level. - - - - Creates a new ConsoleLogger with the Level - set to LoggerLevel.Debug. - - The logs Name. - - - - Creates a new ConsoleLogger. - - The logs Name. - The logs Level. - - - - A Common method to log. - - The level of logging - The name of the logger - The Message - The Exception - - - - Returns a new ConsoleLogger with the name - added after this loggers name, with a dot in between. - - The added hierarchical name. - A new ConsoleLogger. - - - - The Null Logger class. This is useful for implementations where you need - to provide a logger to a utility class, but do not want any output from it. - It also helps when you have a utility that does not have a logger to supply. - - - - - Returns this NullLogger. - - Ignored - This ILogger instance. - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - - - - No-op. - - Ignored - Ignored - Ignored - Ignored - - - - Returns empty context properties. - - - - - Returns empty context properties. - - - - - Returns empty context stacks. - - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - No-op. - - false - - - - The Stream Logger class. This class can stream log information - to any stream, it is suitable for storing a log file to disk, - or to a MemoryStream for testing your components. - - - This logger is not thread safe. - - - - - Creates a new StreamLogger with default encoding - and buffer size. Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - - - Creates a new StreamLogger with default buffer size. - Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - The encoding that will be used for this stream. - - - - - - Creates a new StreamLogger. - Initial Level is set to Debug. - - - The name of the log. - - - The stream that will be used for logging, - seeking while the logger is alive - - - The encoding that will be used for this stream. - - - - The buffer size that will be used for this stream. - - - - - - Creates a new StreamLogger with - Debug as default Level. - - The name of the log. - The StreamWriter the log will write to. - - - - This is an abstract implementation - that deals with methods that can be abstracted away - from underlying implementations. - - - AbstractConfiguration makes easier to implementers - to create a new version of - - - - - is a interface encapsulating a configuration node - used to retrieve configuration values. - - - - - Gets the value of the node and converts it - into specified . - - The - - The Default value returned if the conversion fails. - - The Value converted into the specified type. - - - - Gets the name of the node. - - - The Name of the node. - - - - - Gets the value of the node. - - - The Value of the node. - - - - - Gets an of - elements containing all node children. - - The Collection of child nodes. - - - - Gets an of the configuration attributes. - - - - - Gets the value of the node and converts it - into specified . - - The - - The Default value returned if the conversion fails. - - The Value converted into the specified type. - - - - Gets node attributes. - - - All attributes of the node. - - - - - Gets all child nodes. - - The of child nodes. - - - - Gets the name of the . - - - The Name of the . - - - - - Gets the value of . - - - The Value of the . - - - - - A collection of objects. - - - - - Creates a new instance of ConfigurationCollection. - - - - - Creates a new instance of ConfigurationCollection. - - - - - Summary description for MutableConfiguration. - - - - - Initializes a new instance of the class. - - The name. - - - - Gets the value of . - - - The Value of the . - - - - - General purpose class to represent a standard pair of values. - - Type of the first value - Type of the second value - - - - Constructs a pair with its values - - - - - - - List of utility methods related to dynamic proxy operations - - - - - Determines whether the specified type is a proxy generated by - DynamicProxy (1 or 2). - - The type. - - true if it is a proxy; otherwise, false. - - - - - Readonly implementation of which uses an anonymous object as its source. Uses names of properties as keys, and property values as... well - values. Keys are not case sensitive. - - - - - Initializes a new instance of the class. - - The target. - - - - Adds an element with the provided key and value to the object. - - The to use as the key of the element to add. - The to use as the value of the element to add. - - is null. - An element with the same key already exists in the object. - The is read-only.-or- The has a fixed size. - - - - Removes all elements from the object. - - The object is read-only. - - - - Determines whether the object contains an element with the specified key. - - The key to locate in the object. - - true if the contains an element with the key; otherwise, false. - - - is null. - - - - Removes the element with the specified key from the object. - - The key of the element to remove. - - is null. - The object is read-only.-or- The has a fixed size. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - - - - Copies the elements of the to an , starting at a particular index. - - The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. - The zero-based index in at which copying begins. - - is null. - - is less than zero. - - is multidimensional.-or- is equal to or greater than the length of .-or- The number of elements in the source is greater than the available space from to the end of the destination . - The type of the source cannot be cast automatically to the type of the destination . - - - - Returns an object for the object. - - - An object for the object. - - - - - Reads values of properties from and inserts them into using property names as keys. - - - - - - - Gets the number of elements contained in the . - - - The number of elements contained in the . - - - - Gets a value indicating whether access to the is synchronized (thread safe). - - - true if access to the is synchronized (thread safe); otherwise, false. - - - - Gets an object that can be used to synchronize access to the . - - - An object that can be used to synchronize access to the . - - - - Gets a value indicating whether the object is read-only. - - - true if the object is read-only; otherwise, false. - - - - Gets or sets the with the specified key. - - - - - - Gets an object containing the keys of the object. - - - An object containing the keys of the object. - - - - Gets an object containing the values in the object. - - - An object containing the values in the object. - - - - Gets a value indicating whether the object has a fixed size. - - - true if the object has a fixed size; otherwise, false. - - - - Represents a 'streamable' resource. Can - be a file, a resource in an assembly. - - - - - Returns a reader for the stream - - - It's up to the caller to dispose the reader. - - - - - - Returns a reader for the stream - - - It's up to the caller to dispose the reader. - - - - - - - Returns an instance of - created according to the relativePath - using itself as the root. - - - - - - - - - - Only valid for resources that - can be obtained through relative paths - - - - - - - - - - This returns a new stream instance each time it is called. - It is the responsibility of the caller to dispose of this stream - - - - - Depicts the contract for resource factories. - - - - - Used to check whether the resource factory - is able to deal with the given resource - identifier. - - - Implementors should return true - only if the given identifier is supported - by the resource factory - - - - - - - Creates an instance - for the given resource identifier - - - - - - - Creates an instance - for the given resource identifier - - - - - - - - - - - - - Adapts a static string content as an - - - - - Enable access to files on network shares - - - - + + + + Castle.Core + + + + + Specifies assignment by reference rather than by copying. + + + + + Suppresses any on-demand behaviors. + + + + + Removes a property if null or empty string, guid or collection. + + + + + Removes a property if matches value. + + + + + Assigns a specific dictionary key. + + + + + Defines the contract for customizing dictionary access. + + + + + Copies the dictionary behavior. + + null if should not be copied. Otherwise copy. + + + + Determines relative order to apply related behaviors. + + + + + Defines the contract for updating dictionary values. + + + + + Sets the stored dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if the property should be stored. + + + + Contract for value matching. + + + + + Indicates that underlying values are changeable and should not be cached. + + + + + Contract for dictionary initialization. + + + + + Performs any initialization of the + + The dictionary adapter. + The dictionary behaviors. + + + + Abstract implementation of . + + + + + Conract for traversing a . + + + + + Contract for creating additional Dictionary adapters. + + + + + Contract for manipulating the Dictionary adapter. + + + + + Contract for editing the Dictionary adapter. + + + + + Contract for managing Dictionary adapter notifications. + + + + + Contract for validating Dictionary adapter. + + + + + Defines the contract for building s. + + + + + Builds the dictionary behaviors. + + + + + + Abstract adapter for the support + needed by the + + + + + Adds an element with the provided key and value to the object. + + The to use as the key of the element to add. + The to use as the value of the element to add. + An element with the same key already exists in the object. + key is null. + The is read-only.-or- The has a fixed size. + + + + Removes all elements from the object. + + The object is read-only. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + key is null. + + + + Returns an object for the object. + + + An object for the object. + + + + + Removes the element with the specified key from the object. + + The key of the element to remove. + The object is read-only.-or- The has a fixed size. + key is null. + + + + Copies the elements of the to an , starting at a particular index. + + The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. + The zero-based index in array at which copying begins. + array is null. + The type of the source cannot be cast automatically to the type of the destination array. + index is less than zero. + array is multidimensional.-or- index is equal to or greater than the length of array.-or- The number of elements in the source is greater than the available space from index to the end of the destination array. + + + + Returns an enumerator that iterates through a collection. + + + An object that can be used to iterate through the collection. + + + + + Gets a value indicating whether the object has a fixed size. + + + true if the object has a fixed size; otherwise, false. + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets an object containing the keys of the object. + + + An object containing the keys of the object. + + + + Gets an object containing the values in the object. + + + An object containing the values in the object. + + + + Gets or sets the with the specified key. + + + + + + Gets the number of elements contained in the . + + + The number of elements contained in the . + + + + Gets a value indicating whether access to the is synchronized (thread safe). + + + true if access to the is synchronized (thread safe); otherwise, false. + + + + Gets an object that can be used to synchronize access to the . + + + An object that can be used to synchronize access to the . + + + + Checks whether or not collection is null or empty. Assumes colleciton can be safely enumerated multiple times. + + + + + + + Constant to use when making assembly internals visible to Castle.Core + [assembly: InternalsVisibleTo(CoreInternalsVisible.ToCastleCore)] + + + + + Constant to use when making assembly internals visible to proxy types generated by DynamicProxy. Required when proxying internal types. + [assembly: InternalsVisibleTo(CoreInternalsVisible.ToDynamicProxyGenAssembly2)] + + + + + Identifies a property should be represented as a nested component. + + + + + Defines the contract for building typed dictionary keys. + + + + + Builds the specified key. + + The dictionary adapter. + The current key. + The property. + The updated key + + + + Defines the contract for retrieving dictionary values. + + + + + Gets the effective dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if return only existing. + The effective property value. + + + + Applies no prefix. + + + + + Gets or sets the prefix. + + The prefix. + + + + Identifies the dictionary adapter types. + + + + + Identifies an interface or property to be pre-fetched. + + + + + Instructs fetching to occur. + + + + + Instructs fetching according to + + + + + + Gets whether or not fetching should occur. + + + + + Assigns a property to a group. + + + + + Constructs a group assignment. + + The group name. + + + + Constructs a group assignment. + + The group name. + + + + Gets the group the property is assigned to. + + + + + Assigns a specific dictionary key. + + + + + Initializes a new instance of the class. + + The key. + + + + Initializes a new instance of the class. + + The compound key. + + + + Assigns a prefix to the keyed properties of an interface. + + + Key prefixes are not inherited by sub-interfaces. + + + + + Initializes a default instance of the class. + + + + + Initializes a new instance of the class. + + The prefix for the keyed properties of the interface. + + + + Gets the prefix key added to the properties of the interface. + + + + + Substitutes part of key with another string. + + + + + Initializes a new instance of the class. + + The old value. + The new value. + + + + Requests support for multi-level editing. + + + + + Generates a new GUID on demand. + + + + + Support for on-demand value resolution. + + + + + Provides simple string formatting from existing properties. + + + + + Gets the string format. + + + + + Gets the format properties. + + + + + Identifies a property should be represented as a delimited string value. + + + + + Gets the separator. + + + + + Converts all properties to strings. + + + + + Gets or sets the format. + + The format. + + + + Suppress property change notifications. + + + + + Contract for property descriptor initialization. + + + + + Performs any initialization of the + + The property descriptor. + The property behaviors. + + + + Assigns a prefix to the keyed properties using the interface name. + + + + + Manages conversion between property values. + + + + + Initializes a new instance of the class. + + The converter. + + + + Gets the effective dictionary value. + + The dictionary adapter. + The key. + The stored value. + The property. + true if return only existing. + The effective property value. + + + + + + + + + Uses Reflection.Emit to expose the properties of a dictionary + through a dynamic implementation of a typed interface. + + + + + Defines the contract for building typed dictionary adapters. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets a typed adapter bound to the . + + The typed interface. + The underlying source of properties. + The property descriptor. + An implementation of the typed interface bound to the dictionary. + + The type represented by T must be an interface with properties. + + + + + Gets the associated with the type. + + The typed interface. + The adapter meta-data. + + + + Gets the associated with the type. + + The typed interface. + The property descriptor. + The adapter meta-data. + + + + Gets the associated with the type. + + The typed interface. + Another from which to copy behaviors. + The adapter meta-data. + + + + + + + + + + + + + + + + + + + + + + + + + + + + Contract for dictionary meta-data initialization. + + + + + Initializes the given object. + + The dictionary adapter factory. + The dictionary adapter meta. + + + + + Determines whether the given behavior should be included in a new + object. + + A dictionary behavior or annotation. + True if the behavior should be included; otherwise, false. + + behaviors are always included, + regardless of the result of this method. + + + + + + Contract for dictionary validation. + + + + + Determines if is valid. + + The dictionary adapter. + true if valid. + + + + Validates the . + + The dictionary adapter. + The error summary information. + + + + Validates the for a property. + + The dictionary adapter. + The property to validate. + The property summary information. + + + + Invalidates any results cached by the validator. + + The dictionary adapter. + + + + Describes a dictionary property. + + + + + Initializes an empty class. + + + + + Initializes a new instance of the class. + + The property. + The annotations. + + + + Initializes a new instance class. + + + + + Copies an existinginstance of the class. + + + + + + + Gets the key. + + The dictionary adapter. + The key. + The descriptor. + + + + + Gets the property value. + + The dictionary adapter. + The key. + The stored value. + The descriptor. + true if return only existing. + + + + + Sets the property value. + + The dictionary adapter. + The key. + The value. + The descriptor. + + + + + Adds a single behavior. + + The behavior. + + + + Adds the behaviors. + + The behaviors. + + + + Adds the behaviors. + + The behaviors. + + + + Copies the behaviors to the other + + + + + + + Copies the + + + + + + + + + + + Gets the property name. + + + + + Gets the property type. + + + + + Gets the property. + + The property. + + + + Returns true if the property is dynamic. + + + + + Gets additional state. + + + + + Determines if property should be fetched. + + + + + Determines if property must exist first. + + + + + Determines if notifications should occur. + + + + + Gets the property behaviors. + + + + + Gets the type converter. + + The type converter. + + + + Gets the extended properties. + + + + + Gets the setter. + + The setter. + + + + Gets the key builders. + + The key builders. + + + + Gets the setter. + + The setter. + + + + Gets the getter. + + The getter. + + + + Gets the initializers. + + The initializers. + + + + Gets the meta-data initializers. + + The meta-data initializers. + + + + Helper class for retrieving attributes. + + + + + Gets the attribute. + + The member. + The member attribute. + + + + Gets the attributes. Does not consider inherited attributes! + + The member. + The member attributes. + + + + Gets the type attribute. + + The type. + The type attribute. + + + + Gets the type attributes. + + The type. + The type attributes. + + + + Gets the type converter. + + The member. + + + + + Gets the attribute. + + The member. + The member attribute. + + + + Contract for typed dynamic value resolution. + + + + + + Contract for dynamic value resolution. + + + + + Supporting Logger levels. + + + + + Logging will be off + + + + + Fatal logging level + + + + + Error logging level + + + + + Warn logging level + + + + + Info logging level + + + + + Debug logging level + + + + + Encapsulates an invocation of a proxied method. + + + + + Gets the value of the argument at the specified . + + The index. + The value of the argument at the specified . + + + + Returns the concrete instantiation of the on the proxy, with any generic + parameters bound to real types. + + + The concrete instantiation of the on the proxy, or the if + not a generic method. + + + Can be slower than calling . + + + + + Returns the concrete instantiation of , with any + generic parameters bound to real types. + For interface proxies, this will point to the on the target class. + + The concrete instantiation of , or + if not a generic method. + + In debug builds this can be slower than calling . + + + + + Proceeds the call to the next interceptor in line, and ultimately to the target method. + + + Since interface proxies without a target don't have the target implementation to proceed to, + it is important, that the last interceptor does not call this method, otherwise a + will be thrown. + + + + + Overrides the value of an argument at the given with the + new provided. + + + This method accepts an , however the value provided must be compatible + with the type of the argument defined on the method, otherwise an exception will be thrown. + + The index of the argument to override. + The new value for the argument. + + + + Gets the arguments that the has been invoked with. + + The arguments the method was invoked with. + + + + Gets the generic arguments of the method. + + The generic arguments, or null if not a generic method. + + + + Gets the object on which the invocation is performed. This is different from proxy object + because most of the time this will be the proxy target object. + + + The invocation target. + + + + Gets the representing the method being invoked on the proxy. + + The representing the method being invoked. + + + + For interface proxies, this will point to the on the target class. + + The method invocation target. + + + + Gets the proxy object on which the intercepted method is invoked. + + Proxy object on which the intercepted method is invoked. + + + + Gets or sets the return value of the method. + + The return value of the method. + + + + Gets the type of the target object for the intercepted method. + + The type of the target object. + + + + Used during the target type inspection process. Implementors have a chance to customize the + proxy generation process. + + + + + Invoked by the generation process to notify that the whole process has completed. + + + + + Invoked by the generation process to notify that a member was not marked as virtual. + + The type which declares the non-virtual member. + The non-virtual member. + + This method gives an opportunity to inspect any non-proxyable member of a type that has + been requested to be proxied, and if appropriate - throw an exception to notify the caller. + + + + + Invoked by the generation process to determine if the specified method should be proxied. + + The type which declares the given method. + The method to inspect. + True if the given method should be proxied; false otherwise. + + + + Interface describing elements composing generated type + + + + + Performs some basic screening and invokes the + to select methods. + + + + + + + + + Provides functionality for disassembling instances of attributes to CustomAttributeBuilder form, during the process of emiting new types by Dynamic Proxy. + + + + + Disassembles given attribute instance back to corresponding CustomAttributeBuilder. + + An instance of attribute to disassemble + corresponding 1 to 1 to given attribute instance, or null reference. + + Implementers should return that corresponds to given attribute instance 1 to 1, + that is after calling specified constructor with specified arguments, and setting specified properties and fields with values specified + we should be able to get an attribute instance identical to the one passed in . Implementer can return null + if it wishes to opt out of replicating the attribute. Notice however, that for some cases, like attributes passed explicitly by the user + it is illegal to return null, and doing so will result in exception. + + + + + Handles error during disassembly process + + Type of the attribute being disassembled + Exception thrown during the process + usually null, or (re)throws the exception + + + + Here we try to match a constructor argument to its value. + Since we can't get the values from the assembly, we use some heuristics to get it. + a/ we first try to match all the properties on the attributes by name (case insensitive) to the argument + b/ if we fail we try to match them by property type, with some smarts about convertions (i,e: can use Guid for string). + + + + + We have the following rules here. + Try to find a matching type, failing that, if the parameter is string, get the first property (under the assumption that + we can convert it. + + + + + Attributes can only accept simple types, so we return null for null, + if the value is passed as string we call to string (should help with converting), + otherwise, we use the value as is (enums, integer, etc). + + + + + Returns list of all unique interfaces implemented given types, including their base interfaces. + + + + + + + Base class that exposes the common functionalities + to proxy generation. + + + + + It is safe to add mapping (no mapping for the interface exists) + + + + + + + + Generates a parameters constructor that initializes the proxy + state with just to make it non-null. + + This constructor is important to allow proxies to be XML serializable + + + + + + Generates the constructor for the class that extends + + + + + + + + + Default implementation of interface producing in-memory proxy assemblies. + + + + + Abstracts the implementation of proxy type construction. + + + + + Creates a proxy type for given , implementing , using provided. + + The class type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified class and interfaces. + Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type that proxies calls to members on , implementing , using provided. + + The interface type to proxy. + Additional interface types to proxy. + Type implementing on which calls to the interface members should be intercepted. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface that 'proceeds' executions to the specified target. + Additional interfaces should be only 'mark' interfaces, that is, they should work like interface proxy without target. (See method.) + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type for given and that delegates all calls to the provided interceptors and allows interceptors to switch the actual target of invocation. + + The interface type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface(s) that delegate all executions to the specified interceptors + and uses an instance of the interface as their targets (i.e. ), rather than a class. All classes should then implement interface, + to allow interceptors to switch invocation target with instance of another type implementing called interface. + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Creates a proxy type for given that delegates all calls to the provided interceptors. + + The interface type to proxy. + Additional interface types to proxy. + The proxy generation options. + The generated proxy type. + + Implementers should return a proxy type for the specified interface and additional interfaces that delegate all executions to the specified interceptors. + + Thrown when or any of is a generic type definition. + Thrown when or any of is not public. + Note that to avoid this exception, you can mark offending type internal, and define + pointing to Castle Dynamic Proxy assembly, in assembly containing that type, if this is appropriate. + + + + + Gets or sets the that this logs to. + + + + + Gets the associated with this builder. + + The module scope associated with this builder. + + + + Initializes a new instance of the class with new . + + + + + Initializes a new instance of the class. + + The module scope for generated proxy types. + + + + Registers custom disassembler to handle disassembly of specified type of attributes. + + Type of attributes to handle + Disassembler converting existing instances of Attributes to CustomAttributeBuilders + + When disassembling an attribute Dynamic Proxy will first check if an custom disassembler has been registered to handle attributes of that type, + and if none is found, it'll use the . + + + + + Attributes should be replicated if they are non-inheritable, + but there are some special cases where the attributes means + something to the CLR, where they should be skipped. + + + + + Initializes a new instance of the class. + + Target element. This is either target type or target method for invocation types. + The type of the proxy. This is base type for invocation types. + The interfaces. + The options. + + + + Initializes a new instance of the class. + + Type of the target. + The interfaces. + The options. + + + + s + Provides appropriate Ldc.X opcode for the type of primitive value to be loaded. + + + + + Provides appropriate Ldind.X opcode for + the type of primitive value to be loaded indirectly. + + + + + Emits a load indirect opcode of the appropriate type for a value or object reference. + Pops a pointer off the evaluation stack, dereferences it and loads + a value of the specified type. + + + + + + + Emits a load opcode of the appropriate kind for a constant string or + primitive value. + + + + + + + Emits a load opcode of the appropriate kind for the constant default value of a + type, such as 0 for value types and null for reference types. + + + + + Emits a store indirectopcode of the appropriate type for a value or object reference. + Pops a value of the specified type and a pointer off the evaluation stack, and + stores the value. + + + + + + + Summary description for PropertiesCollection. + + + + + Wraps a reference that is passed + ByRef and provides indirect load/store support. + + + + + Summary description for NewArrayExpression. + + + + + + + + + Provides appropriate Stind.X opcode + for the type of primitive value to be stored indirectly. + + + + + Initializes a new instance of the class. + + The name. + Type declaring the original event being overriten, or null. + + The add method. + The remove method. + The attributes. + + + + Represents the scope of uniquenes of names for types and their members + + + + + Gets a unique name based on + + Name suggested by the caller + Unique name based on . + + Implementers should provide name as closely resembling as possible. + Generally if no collision occurs it is suggested to return suggested name, otherwise append sequential suffix. + Implementers must return deterministic names, that is when is called twice + with the same suggested name, the same returned name should be provided each time. Non-deterministic return + values, like appending random suffices will break serialization of proxies. + + + + + Returns new, disposable naming scope. It is responsibilty of the caller to make sure that no naming collision + with enclosing scope, or other subscopes is possible. + + New naming scope. + + + + Returns the methods implemented by a type. Use this instead of Type.GetMethods() to work around a CLR issue + where duplicate MethodInfos are returned by Type.GetMethods() after a token of a generic type's method was loaded. + + + + + Determines whether the specified method is internal. + + The method. + + true if the specified method is internal; otherwise, false. + + + + + Determines whether this assembly has internals visible to dynamic proxy. + + The assembly to inspect. + + + + Checks if the method is public or protected. + + + + + + + Because we need to cache the types based on the mixed in mixins, we do the following here: + - Get all the mixin interfaces + - Sort them by full name + - Return them by position + + The idea is to have reproducible behavior for the case that mixins are registered in different orders. + This method is here because it is required + + + + + Summary description for ModuleScope. + + + + + The default file name used when the assembly is saved using . + + + + + The default assembly (simple) name used for the assemblies generated by a instance. + + + + + Initializes a new instance of the class; assemblies created by this instance will not be saved. + + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved. + + If set to true saves the generated module. + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved and what simple names are to be assigned to them. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + The simple name of the strong-named assembly generated by this . + The path and file name of the manifest module of the strong-named assembly generated by this . + The simple name of the weak-named assembly generated by this . + The path and file name of the manifest module of the weak-named assembly generated by this . + + + + Initializes a new instance of the class, allowing to specify whether the assemblies generated by this instance + should be saved and what simple names are to be assigned to them. + + If set to true saves the generated module. + If set to true disables ability to generate signed module. This should be used in cases where ran under constrained permissions. + Naming scope used to provide unique names to generated types and their members (usually via sub-scopes). + The simple name of the strong-named assembly generated by this . + The path and file name of the manifest module of the strong-named assembly generated by this . + The simple name of the weak-named assembly generated by this . + The path and file name of the manifest module of the weak-named assembly generated by this . + + + + Returns a type from this scope's type cache, or null if the key cannot be found. + + The key to be looked up in the cache. + The type from this scope's type cache matching the key, or null if the key cannot be found + + + + Registers a type in this scope's type cache. + + The key to be associated with the type. + The type to be stored in the cache. + + + + Gets the key pair used to sign the strong-named assembly generated by this . + + + + + + Gets the specified module generated by this scope, creating a new one if none has yet been generated. + + If set to true, a strong-named module is returned; otherwise, a weak-named module is returned. + A strong-named or weak-named module generated by this scope, as specified by the parameter. + + + + Gets the strong-named module generated by this scope, creating a new one if none has yet been generated. + + A strong-named module generated by this scope. + + + + Gets the weak-named module generated by this scope, creating a new one if none has yet been generated. + + A weak-named module generated by this scope. + + + + Users of this should use this lock when accessing the cache. + + + + + Gets the strong-named module generated by this scope, or if none has yet been generated. + + The strong-named module generated by this scope, or if none has yet been generated. + + + + Gets the file name of the strongly named module generated by this scope. + + The file name of the strongly named module generated by this scope. + + + + Gets the weak-named module generated by this scope, or if none has yet been generated. + + The weak-named module generated by this scope, or if none has yet been generated. + + + + Gets the file name of the weakly named module generated by this scope. + + The file name of the weakly named module generated by this scope. + + + + Initializes a new instance of the class. + + The hook. + + + + Initializes a new instance of the class. + + + + + Provides proxy objects for classes and interfaces. + + + + + Initializes a new instance of the class. + + Proxy types builder. + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + If true forces all types to be generated into an unsigned module. + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + Object proxying calls to members of on object. + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method generates new proxy type for each type of , which affects performance. If you don't want to proxy types differently depending on the type of the target + use method. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on object with given . + Interceptors can use interface to provide other target for method invocation than default . + + Type of the interface implemented by which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on object or alternative implementation swapped at runtime by an interceptor. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + Thrown when given does not implement interface. + Thrown when no default constructor exists on actual type of object. + Thrown when default constructor of actual type of throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of types on generated target object. + + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + As a result of that also at least one implementation must be provided. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of type on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of interfaces to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not an interface type. + + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to members of interface on target object generated at runtime with given . + + Type of the interface which will be proxied. + The proxy generation options used to influence generated proxy type and object. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + Object proxying calls to members of and types on generated target object. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given array is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not an interface type. + + Since this method uses an empty-shell implementation of to proxy generated at runtime, the actual implementation of proxied methods must be provided by given implementations. + They are responsible for setting return value (and out parameters) on proxied methods. It is also illegal for an interceptor to call , since there's no actual implementation to proceed with. + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no parameterless constructor exists on type . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The target object, calls to which will be intercepted. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no parameterless constructor exists on type . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of type. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The proxy generation options used to influence generated proxy type and object. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no default constructor exists on type . + Thrown when default constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates proxy object intercepting calls to virtual members of type on newly created instance of that type with given . + + Type of class which will be proxied. + Additional interface types. Calls to their members will be proxied as well. + The proxy generation options used to influence generated proxy type and object. + Arguments of constructor of type which should be used to create a new instance of that type. + The interceptors called during the invocation of proxied methods. + + New object of type proxying calls to virtual members of and types. + + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given object is a null reference (Nothing in Visual Basic). + Thrown when given or any of is a generic type definition. + Thrown when given is not a class type. + Thrown when no constructor exists on type with parameters matching . + Thrown when constructor of type throws an exception. + + This method uses implementation to generate a proxy type. + As such caller should expect any type of exception that given implementation may throw. + + + + + Creates the proxy type for class proxy with given class, implementing given and using provided . + + The base class for proxy type. + The interfaces that proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy with target for given interface, implementing given on given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + Actual type that the proxy type will encompass. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy with target interface for given interface, implementing given on given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Creates the proxy type for interface proxy without target for given interface, implementing given and using provided . + + The interface proxy type should implement. + The additional interfaces proxy type should implement. + The options for proxy generation process. + of proxy. + + + + Gets or sets the that this log to. + + + + + Gets the proxy builder instance used to generate proxy types. + + The proxy builder. + + + + The silverlight System.Type is missing the IsNested property so this exposes similar functionality. + + + + + + + Holds objects representing methods of class. + + + + + Provides an extension point that allows proxies to choose specific interceptors on + a per method basis. + + + + + Selects the interceptors that should intercept calls to the given . + + The type declaring the method to intercept. + The method that will be intercepted. + All interceptors registered with the proxy. + An array of interceptors to invoke upon calling the . + + This method is called only once per proxy instance, upon the first call to the + . Either an empty array or null are valid return values to indicate + that no interceptor should intercept calls to the method. Although it is not advised, it is + legal to return other implementations than these provided in + . + + + + + Creates a new lock. + + + + + + This interface should be implemented by classes + that are available in a bigger context, exposing + the container to different areas in the same application. + + For example, in Web application, the (global) HttpApplication + subclasses should implement this interface to expose + the configured container + + + + + + Exposes means to change target objects of proxies and invocations + + + + + Changes the target object () of current . + + The new value of target of invocation. + + Although the method takes the actual instance must be of type assignable to , otherwise an will be thrown. + Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. + In this case last interceptor in the pipeline mustn't call or a will be throws. + Also while it's technically legal to pass proxy itself as , this would create stack overflow. + In this case last interceptor in the pipeline mustn't call or a will be throws. + + Thrown when is not assignable to the proxied type. + + + + Permanently changes the target object of the proxy. This does not affect target of the current invocation. + + The new value of target of the proxy. + + Although the method takes the actual instance must be of type assignable to proxy's target type, otherwise an will be thrown. + Also while it's technically legal to pass null reference (Nothing in Visual Basic) as , for obvious reasons Dynamic Proxy will not be able to call the intercepted method on such target. + In this case last interceptor in the pipeline mustn't call or a will be throws. + Also while it's technically legal to pass proxy itself as , this would create stack overflow. + In this case last interceptor in the pipeline mustn't call or a will be throws. + + Thrown when is not assignable to the proxied type. + + + + New interface that is going to be used by DynamicProxy 2 + + + + + Get the proxy target (note that null is a valid target!) + + + + + + Gets the interceptors for the proxy + + + + + + Defines that the implementation wants a + in order to + access other components. The creator must be aware + that the component might (or might not) implement + the interface. + + + Used by Castle Project components to, for example, + gather logging factories + + + + + Increments IServiceProvider with a generic service resolution operation. + + + + + Provides a factory that can produce either or + classes. + + + + + Manages the instantiation of s. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new extended logger, getting the logger name from the specified type. + + + + + Creates a new extended logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Creates a new logger, getting the logger name from the specified type. + + + + + Creates a new logger. + + + + + Gets the configuration file. + + i.e. log4net.config + + + + + Interface for Context Properties implementations + + + + This interface defines a basic property get set accessor. + + + Based on the ContextPropertiesBase of log4net, by Nicko Cadell. + + + + + + Gets or sets the value of a property + + + The value for the property with the specified key + + + + Gets or sets the value of a property + + + + + + Gets the configuration file. + + i.e. log4net.config + + + + + NullLogFactory used when logging is turned off. + + + + + Creates an instance of ILogger with the specified name. + + Name. + + + + + Creates an instance of ILogger with the specified name and LoggerLevel. + + Name. + Level. + + + + + Provides an interface that supports and + allows the storage and retrieval of Contexts. These are supported in + both log4net and NLog. + + + + + Manages logging. + + + This is a facade for the different logging subsystems. + It offers a simplified interface that follows IOC patterns + and a simplified priority/level/severity abstraction. + + + + + Create a new child logger. + The name of the child logger is [current-loggers-name].[passed-in-name] + + The Subname of this logger. + The New ILogger instance. + If the name has an empty element name. + + + + Logs a debug message. + + The message to log + + + + Logs a debug message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a debug message. + + The exception to log + The message to log + + + + Logs a debug message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The message to log + + + + Logs an error message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs an error message. + + The exception to log + The message to log + + + + Logs an error message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The message to log + + + + Logs a fatal message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a fatal message. + + The exception to log + The message to log + + + + Logs a fatal message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The message to log + + + + Logs a info message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs an info message. + + The exception to log + The message to log + + + + Logs an info message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The message to log + + + + Logs a warn message with lazily constructed message. The message will be constructed only if the is true. + + + + + + Logs a warn message. + + The exception to log + The message to log + + + + Logs a warn message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Determines if messages of priority "debug" will be logged. + + True if "debug" messages will be logged. + + + + Determines if messages of priority "error" will be logged. + + True if "error" messages will be logged. + + + + Determines if messages of priority "fatal" will be logged. + + True if "fatal" messages will be logged. + + + + Determines if messages of priority "info" will be logged. + + True if "info" messages will be logged. + + + + Determines if messages of priority "warn" will be logged. + + True if "warn" messages will be logged. + + + + Exposes the Global Context of the extended logger. + + + + + Exposes the Thread Context of the extended logger. + + + + + Exposes the Thread Stack of the extended logger. + + + + + The Logger sending everything to the standard output streams. + This is mainly for the cases when you have a utility that + does not have a logger to supply. + + + + + The Level Filtered Logger class. This is a base clase which + provides a LogLevel attribute and reroutes all functions into + one Log method. + + + + + Creates a new LevelFilteredLogger. + + + + + Logs a debug message. + + The message to log + + + + Logs a debug message. + + The exception to log + The message to log + + + + Logs a debug message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a debug message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The message to log + + + + Logs an info message. + + The exception to log + The message to log + + + + Logs an info message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an info message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The message to log + + + + Logs a warn message. + + The exception to log + The message to log + + + + Logs a warn message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a warn message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The message to log + + + + Logs an error message. + + The exception to log + The message to log + + + + Logs an error message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs an error message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The message to log + + + + Logs a fatal message. + + The exception to log + The message to log + + + + Logs a fatal message. + + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Logs a fatal message. + + The exception to log + The format provider to use + Format string for the message to log + Format arguments for the message to log + + + + Implementors output the log content by implementing this method only. + Note that exception can be null + + + + + + + + + The LoggerLevel that this logger + will be using. Defaults to LoggerLevel.Off + + + + + The name that this logger will be using. + Defaults to String.Empty + + + + + Determines if messages of priority "debug" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "info" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "warn" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "error" will be logged. + + true if log level flags include the bit + + + + Determines if messages of priority "fatal" will be logged. + + true if log level flags include the bit + + + + Creates a new ConsoleLogger with the Level + set to LoggerLevel.Debug and the Name + set to String.Empty. + + + + + Creates a new ConsoleLogger with the Name + set to String.Empty. + + The logs Level. + + + + Creates a new ConsoleLogger with the Level + set to LoggerLevel.Debug. + + The logs Name. + + + + Creates a new ConsoleLogger. + + The logs Name. + The logs Level. + + + + A Common method to log. + + The level of logging + The name of the logger + The Message + The Exception + + + + Returns a new ConsoleLogger with the name + added after this loggers name, with a dot in between. + + The added hierarchical name. + A new ConsoleLogger. + + + + The Null Logger class. This is useful for implementations where you need + to provide a logger to a utility class, but do not want any output from it. + It also helps when you have a utility that does not have a logger to supply. + + + + + Returns this NullLogger. + + Ignored + This ILogger instance. + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + + + + No-op. + + Ignored + Ignored + Ignored + Ignored + + + + Returns empty context properties. + + + + + Returns empty context properties. + + + + + Returns empty context stacks. + + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + No-op. + + false + + + + The Stream Logger class. This class can stream log information + to any stream, it is suitable for storing a log file to disk, + or to a MemoryStream for testing your components. + + + This logger is not thread safe. + + + + + Creates a new StreamLogger with default encoding + and buffer size. Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + + + Creates a new StreamLogger with default buffer size. + Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + The encoding that will be used for this stream. + + + + + + Creates a new StreamLogger. + Initial Level is set to Debug. + + + The name of the log. + + + The stream that will be used for logging, + seeking while the logger is alive + + + The encoding that will be used for this stream. + + + + The buffer size that will be used for this stream. + + + + + + Creates a new StreamLogger with + Debug as default Level. + + The name of the log. + The StreamWriter the log will write to. + + + + This is an abstract implementation + that deals with methods that can be abstracted away + from underlying implementations. + + + AbstractConfiguration makes easier to implementers + to create a new version of + + + + + is a interface encapsulating a configuration node + used to retrieve configuration values. + + + + + Gets the value of the node and converts it + into specified . + + The + + The Default value returned if the conversion fails. + + The Value converted into the specified type. + + + + Gets the name of the node. + + + The Name of the node. + + + + + Gets the value of the node. + + + The Value of the node. + + + + + Gets an of + elements containing all node children. + + The Collection of child nodes. + + + + Gets an of the configuration attributes. + + + + + Gets the value of the node and converts it + into specified . + + The + + The Default value returned if the conversion fails. + + The Value converted into the specified type. + + + + Gets node attributes. + + + All attributes of the node. + + + + + Gets all child nodes. + + The of child nodes. + + + + Gets the name of the . + + + The Name of the . + + + + + Gets the value of . + + + The Value of the . + + + + + A collection of objects. + + + + + Creates a new instance of ConfigurationCollection. + + + + + Creates a new instance of ConfigurationCollection. + + + + + Summary description for MutableConfiguration. + + + + + Initializes a new instance of the class. + + The name. + + + + Gets the value of . + + + The Value of the . + + + + + General purpose class to represent a standard pair of values. + + Type of the first value + Type of the second value + + + + Constructs a pair with its values + + + + + + + List of utility methods related to dynamic proxy operations + + + + + Determines whether the specified type is a proxy generated by + DynamicProxy (1 or 2). + + The type. + + true if it is a proxy; otherwise, false. + + + + + Readonly implementation of which uses an anonymous object as its source. Uses names of properties as keys, and property values as... well - values. Keys are not case sensitive. + + + + + Initializes a new instance of the class. + + The target. + + + + Adds an element with the provided key and value to the object. + + The to use as the key of the element to add. + The to use as the value of the element to add. + + is null. + An element with the same key already exists in the object. + The is read-only.-or- The has a fixed size. + + + + Removes all elements from the object. + + The object is read-only. + + + + Determines whether the object contains an element with the specified key. + + The key to locate in the object. + + true if the contains an element with the key; otherwise, false. + + + is null. + + + + Removes the element with the specified key from the object. + + The key of the element to remove. + + is null. + The object is read-only.-or- The has a fixed size. + + + + Returns an enumerator that iterates through a collection. + + + An object that can be used to iterate through the collection. + + + + + Copies the elements of the to an , starting at a particular index. + + The one-dimensional that is the destination of the elements copied from . The must have zero-based indexing. + The zero-based index in at which copying begins. + + is null. + + is less than zero. + + is multidimensional.-or- is equal to or greater than the length of .-or- The number of elements in the source is greater than the available space from to the end of the destination . + The type of the source cannot be cast automatically to the type of the destination . + + + + Returns an object for the object. + + + An object for the object. + + + + + Reads values of properties from and inserts them into using property names as keys. + + + + + + + Gets the number of elements contained in the . + + + The number of elements contained in the . + + + + Gets a value indicating whether access to the is synchronized (thread safe). + + + true if access to the is synchronized (thread safe); otherwise, false. + + + + Gets an object that can be used to synchronize access to the . + + + An object that can be used to synchronize access to the . + + + + Gets a value indicating whether the object is read-only. + + + true if the object is read-only; otherwise, false. + + + + Gets or sets the with the specified key. + + + + + + Gets an object containing the keys of the object. + + + An object containing the keys of the object. + + + + Gets an object containing the values in the object. + + + An object containing the values in the object. + + + + Gets a value indicating whether the object has a fixed size. + + + true if the object has a fixed size; otherwise, false. + + + + Represents a 'streamable' resource. Can + be a file, a resource in an assembly. + + + + + Returns a reader for the stream + + + It's up to the caller to dispose the reader. + + + + + + Returns a reader for the stream + + + It's up to the caller to dispose the reader. + + + + + + + Returns an instance of + created according to the relativePath + using itself as the root. + + + + + + + + + + Only valid for resources that + can be obtained through relative paths + + + + + + + + + + This returns a new stream instance each time it is called. + It is the responsibility of the caller to dispose of this stream + + + + + Depicts the contract for resource factories. + + + + + Used to check whether the resource factory + is able to deal with the given resource + identifier. + + + Implementors should return true + only if the given identifier is supported + by the resource factory + + + + + + + Creates an instance + for the given resource identifier + + + + + + + Creates an instance + for the given resource identifier + + + + + + + + + + + + + Adapts a static string content as an + + + + + Enable access to files on network shares + + + + diff --git a/packages/Castle.Core.3.2.0/readme.txt b/packages/Castle.Core.3.2.1/readme.txt similarity index 98% rename from packages/Castle.Core.3.2.0/readme.txt rename to packages/Castle.Core.3.2.1/readme.txt index b947840..239ae67 100644 --- a/packages/Castle.Core.3.2.0/readme.txt +++ b/packages/Castle.Core.3.2.1/readme.txt @@ -1,10 +1,10 @@ -Thanks for downloading this Castle package. -You can find full list of changes in changes.txt - -Documentation (work in progress, contributions appreciated): -Dictionary Adapter - http://docs.castleproject.org/Tools.Castle-DictionaryAdapter.ashx -DynamicProxy - http://docs.castleproject.org/Tools.DynamicProxy.ashx -Discusssion group: - http://groups.google.com/group/castle-project-users -StackOverflow tags: - castle-dynamicproxy, castle-dictionaryadapter, castle - +Thanks for downloading this Castle package. +You can find full list of changes in changes.txt + +Documentation (work in progress, contributions appreciated): +Dictionary Adapter - http://docs.castleproject.org/Tools.Castle-DictionaryAdapter.ashx +DynamicProxy - http://docs.castleproject.org/Tools.DynamicProxy.ashx +Discusssion group: - http://groups.google.com/group/castle-project-users +StackOverflow tags: - castle-dynamicproxy, castle-dictionaryadapter, castle + Issue tracker: - http://issues.castleproject.org/dashboard \ No newline at end of file diff --git a/packages/FakeItEasy.1.11.0/FakeItEasy.1.11.0.nupkg b/packages/FakeItEasy.1.11.0/FakeItEasy.1.11.0.nupkg deleted file mode 100644 index 786d888..0000000 Binary files a/packages/FakeItEasy.1.11.0/FakeItEasy.1.11.0.nupkg and /dev/null differ diff --git a/packages/FakeItEasy.1.11.0/lib/net35/FakeItEasy.dll b/packages/FakeItEasy.1.11.0/lib/net35/FakeItEasy.dll deleted file mode 100644 index ac75daf..0000000 Binary files a/packages/FakeItEasy.1.11.0/lib/net35/FakeItEasy.dll and /dev/null differ diff --git a/packages/FakeItEasy.1.11.0/lib/net40/FakeItEasy.dll b/packages/FakeItEasy.1.11.0/lib/net40/FakeItEasy.dll deleted file mode 100644 index fc7bb43..0000000 Binary files a/packages/FakeItEasy.1.11.0/lib/net40/FakeItEasy.dll and /dev/null differ diff --git a/packages/FakeItEasy.1.11.0/lib/sl40/FakeItEasy.dll b/packages/FakeItEasy.1.11.0/lib/sl40/FakeItEasy.dll deleted file mode 100644 index e89c281..0000000 Binary files a/packages/FakeItEasy.1.11.0/lib/sl40/FakeItEasy.dll and /dev/null differ diff --git a/packages/FakeItEasy.1.14.0/FakeItEasy.1.14.0.nupkg b/packages/FakeItEasy.1.14.0/FakeItEasy.1.14.0.nupkg new file mode 100644 index 0000000..de53efc Binary files /dev/null and b/packages/FakeItEasy.1.14.0/FakeItEasy.1.14.0.nupkg differ diff --git a/packages/FakeItEasy.1.11.0/FakeItEasy.1.11.0.nuspec b/packages/FakeItEasy.1.14.0/FakeItEasy.1.14.0.nuspec similarity index 54% rename from packages/FakeItEasy.1.11.0/FakeItEasy.1.11.0.nuspec rename to packages/FakeItEasy.1.14.0/FakeItEasy.1.14.0.nuspec index fe1c75a..60c67aa 100644 --- a/packages/FakeItEasy.1.11.0/FakeItEasy.1.11.0.nuspec +++ b/packages/FakeItEasy.1.14.0/FakeItEasy.1.14.0.nuspec @@ -1,19 +1,21 @@ - - - - FakeItEasy - 1.11.0 - Fake it Easy! - Patrik Hägne - Patrik Hägne - https://github.com/FakeItEasy/FakeItEasy/blob/master/License.txt - https://github.com/FakeItEasy/FakeItEasy/ - https://raw.github.com/FakeItEasy/FakeItEasy/master/Resources/fakeiteasy_128x128.png - false - It's faking amazing! The easy mocking framework for .NET that works great in C# and VB.NET alike. No need to know the difference between a stub, a mock or a spy, everything's a fake! The easy to use, refactoring friendly API makes faking a breeze. - Enhancment: Add generic type arguments to method signatures in exception messages - https://github.com/FakeItEasy/FakeItEasy/issues/100/ -Enhancement: Better error message when faking internals without the InternalsVisibleTo() attribute - https://github.com/FakeItEasy/FakeItEasy/issues/98/ - en-US - TDD unittesting mocks mocking fakes faking stubs stubbing spy spies doubles isolation substitutes substitution - + + + + FakeItEasy + 1.14.0 + Fake it Easy! + Patrik Hägne + Patrik Hägne + https://github.com/FakeItEasy/FakeItEasy/blob/master/License.txt + http://fakeiteasy.github.io/ + http://fakeiteasy.github.io/img/talkingladies.png + false + It's faking amazing! The easy mocking framework for .NET that works great in C# and VB.NET alike. No need to know the difference between a stub, a mock or a spy, everything's a fake! The easy to use, refactoring friendly API makes faking a breeze. + New: Expose DynamicProxy exception messages when fake creation fails - https://github.com/FakeItEasy/FakeItEasy/issues/178 +New: Using Castle.Core 3.2.1 - https://github.com/FakeItEasy/FakeItEasy/issues/178 +Fixed: Misleading exception message when failing to fake an inaccessible type - https://github.com/FakeItEasy/FakeItEasy/issues/157 +Fixed: ArgumentValueFormatter.ResolveTypeFormatter should prefer exact type match over interface implementation - https://github.com/FakeItEasy/FakeItEasy/issues/142 + en-US + TDD unittesting mocks mocking fakes faking stubs stubbing spy spies doubles isolation substitutes substitution + \ No newline at end of file diff --git a/packages/FakeItEasy.1.14.0/lib/net35/FakeItEasy.dll b/packages/FakeItEasy.1.14.0/lib/net35/FakeItEasy.dll new file mode 100644 index 0000000..3ffcda3 Binary files /dev/null and b/packages/FakeItEasy.1.14.0/lib/net35/FakeItEasy.dll differ diff --git a/packages/FakeItEasy.1.11.0/lib/net40/FakeItEasy.xml b/packages/FakeItEasy.1.14.0/lib/net35/FakeItEasy.xml similarity index 96% rename from packages/FakeItEasy.1.11.0/lib/net40/FakeItEasy.xml rename to packages/FakeItEasy.1.14.0/lib/net35/FakeItEasy.xml index 3bc9348..3bbf21d 100644 --- a/packages/FakeItEasy.1.11.0/lib/net40/FakeItEasy.xml +++ b/packages/FakeItEasy.1.14.0/lib/net35/FakeItEasy.xml @@ -1,3492 +1,3535 @@ - - - - FakeItEasy - - - - - Provides methods for generating fake objects. - - - - - Creates a fake object of the type T. - - The type of fake object to create. - A fake object. - - - - Creates a fake object of the type T. - - The type of fake object to create. - A lambda where options for the built fake object can be specified. - A fake object. - - - - Creates a collection of fakes of the specified type. - - The type of fakes to create. - The number of fakes in the collection. - A collection of fake objects of the specified type. - - - - Gets a dummy object of the specified type. The value of a dummy object - should be irrelevant. Dummy objects should not be configured. - - The type of dummy to return. - A dummy object of the specified type. - Dummies of the specified type can not be created. - - - - Gets a value indicating whether the two objects are equal. - - The first object to compare. - The second object to compare. - True if the two objects are equal. - - - - Gets a value indicating whether the two objects are the same reference. - - The object A. - The object B. - True if the objects are the same reference. - - - - Configures a call to a faked object. - - An expression where the configured member is called. - A configuration object. - - - - Gets a configuration object allowing for further configuration of - any call to the specified faked object. - - - The fake to configure. - - - A configuration object. - - - - - Configures a call to a faked object. - - The type of member on the faked object to configure. - An expression where the configured member is called. - A configuration object. - - - - Provides configuration for any (not a specific) call on a faked object. - - - - - Gets a configuration object allowing for further configuration of - any call to the specified faked object. - - The faked object to configure. - A configuration object. - - - - Gets a value indicating whether the two objects are equal. - - The first object to compare. - The second object to compare. - True if the two objects are equal. - - - - Gets a value indicating whether the two objects are the same reference. - - The object A. - The object B. - True if the objects are the same reference. - - - - Provides string formatting for arguments of type T when written in call lists. - - The type of the arguments which will be formatted by this instance. - - - - Provides string formatting for arguments when written in - call lists. - - - - - Gets a string representing the specified argument value. - - The argument value to get as a string. - A string representation of the value. - - - - Gets the type of arguments this formatter works on. - - - - - Gets the priority of the formatter, when two formatters are - registered for the same type the one with the highest - priority is used. - - - - - Gets a string representing the specified argument value. - - The argument value to get as a string. - A string representation of the value. - - - - Gets a string representing the specified argument value. - - The argument value to get as a string. - A string representation of the value. - - - - Gets the type of arguments this formatter works on. - - - - - Gets the priority of the formatter, when two formatters are - registered for the same type the one with the highest - priority is used. - - - - - Provides the base for rules that can be built using the FakeConfiguration. - - - - - Represents a call rule that has a description of the calls the - rule is applicable to. - - - - - Allows for intercepting call to a fake object and - act upon them. - - - - - Gets whether this interceptor is applicable to the specified - call, if true is returned the Apply-method of the interceptor will - be called. - - The call to check for applicability. - True if the interceptor is applicable. - - - - Applies an action to the call, might set a return value or throw - an exception. - - The call to apply the interceptor to. - - - - Gets the number of times this call rule is valid, if it's set - to null its infinitely valid. - - - - - Writes a description of calls the rule is applicable to. - - The writer. - - - - Gets if this rule is applicable to the specified call. - - The call to validate. - True if the rule applies to the call. - - - - Writes a description of calls the rule is applicable to. - - The writer to write the description to. - - - - Gets or sets an action that is called by the Apply method to apply this - rule to a fake object call. - - - - - Gets a collection of actions that should be invoked when the configured - call is made. - - - - - Gets or sets values to apply to output and reference variables. - - - - - Gets or sets a value indicating whether the base method of the fake object call should be - called when the fake object call is made. - - - - - Gets or sets the number of times the configured rule should be used. - - - - - Gets a description of calls the rule is applicable to. - - - - - - Aggregate of IReturnValueArgumentValidationConfiguration<T> and IWhereConfiguration<IAnyCallConfigurationWithReturnTypeSpecified<T>>. - - The type of fake object that is configured. - - - - Configures a call that returns a value and allows the use to - specify validations for arguments. - - The type of the member. - - - - Configures a call that returns a value. - - The type of the member. - - - - Configuration that lets the developer specify that an exception should be - thrown by a fake object call. - - - - - Hides standard Object members to make fluent interfaces - easier to read. Found in the source of Autofac: - Based on blog post here: - - - - - - Hides the ToString-method. - - A string representation of the implementing object. - - - - Determines whether the specified is equal to this instance. - - The to compare with this instance. - - true if the specified is equal to this instance; otherwise, false. - - - - - Returns a hash code for this instance. - - - A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. - - - - - Gets the type. - - The exact runtime type of the current instance. - - - - Throws the specified exception when the currently configured - call gets called. - - A function that creates the exception to throw. - Configuration object. - - - - Configuration for callbacks of fake object calls. - - The type of interface to return. - - - - Executes the specified action when a matching call is being made. - - The action to invoke. - A configuration object. - - - - Allows the developer to assert on a call that's configured. - - - - - Asserts that the configured call has happened the number of times - constrained by the repeatConstraint parameter. - - A constraint for how many times the call - must have happened. - The call has not been called a number of times - that passes the repeat constraint. - - - - Configuration that lets you specify that a fake object call should call it's base method. - - - - - When the configured method or methods are called the call - will be delegated to the base method of the faked method. - - A configuration object. - The fake object is of an abstract type or an interface - and no base method exists. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - A function that produces the return value. - A configuration object. - - - - Provides configurations to validate arguments of a fake object call. - - The type of interface to return. - - - - Configures the call to be accepted when the specified predicate returns true. - - The argument predicate. - A configuration object. - - - - Provides a way to configure predicates for when a call should be applied. - - The type of fake object that is going to be configured.. - - - - Applies a predicate to constrain which calls will be considered for interception. - - A predicate for a fake object call. - An action that writes a description of the predicate - to the output. - The configuration object. - - - - Provides an API entry point for constraining arguments of fake object calls. - - The type of argument to validate. - - - - Gets an argument constraint object that will be used to constrain a method call argument. - - - - - Gets a constraint that considers any value of an argument as valid. - - This is a shortcut for the "Ignored"-property. - - - - Gets a constraint that considers any value of an argument as valid. - - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to The Apply method of the ExpressionInterceptor may no be called before the Applicator property has been set.. - - - - - Looks up a localized string similar to The specified argument name does not exist in the ArgumentList.. - - - - - Looks up a localized string similar to Arguments for constructor was specified when generating proxy of interface type.. - - - - - Looks up a localized string similar to An argument validation was not configured correctly.. - - - - - Looks up a localized string similar to The method '{0}' was called too few times, expected #{1} times but was called #{2} times.. - - - - - Looks up a localized string similar to The method '{0}' was called too many times, expected #{1} times but was called #{2} times.. - - - - - Looks up a localized string similar to Can not create fake of the type '{0}', it's not registered in the current container and the current IProxyGenerator can not generate the fake. - - The following constructors failed: - {1}. - - - - - Looks up a localized string similar to Error when accessing FakeObject, the specified argument is of the type '{0}' which is not faked.. - - - - - Looks up a localized string similar to An ExpressionCallMatcher can only be created for expressions that represents a method call or a property getter.. - - - - - Looks up a localized string similar to - - The current proxy generator failed to create a proxy with the specified arguments for the constructor: - - Reason for failure: - - {0} - - . - - - - - Looks up a localized string similar to FakeItEasy failed to create fake object of type "{0}". - - 1. The type is not registered in the current IFakeObjectContainer. - 2. The current IProxyGenerator failed to generate a proxy for the following reason: - - {1}. - - - - - Looks up a localized string similar to Unable to create fake object.. - - - - - Looks up a localized string similar to Only abstract classes can be faked using the A.Fake-method that takes an enumerable of objects as arguments for constructor, use the overload that takes an expression instead.. - - - - - Looks up a localized string similar to The member accessor expression must be a lambda expression with a MethodCallExpression or MemberAccessExpression as its body.. - - - - - Looks up a localized string similar to The specified method can not be configured since it can not be intercepted by the current IProxyGenerator.. - - - - - Looks up a localized string similar to The method of the call did not match the method of the recorded call, the recorded sequence is no longer valid.. - - - - - Looks up a localized string similar to No constructor matching the specified arguments was found on the type {0}.. - - - - - Looks up a localized string similar to Can not generate fake object for the class since no default constructor was found, specify a constructor call.. - - - - - Looks up a localized string similar to All the recorded calls has been applied, the recorded sequence is no longer valid.. - - - - - Looks up a localized string similar to Only expression of the type ExpressionType.New (constructor calls) are accepted.. - - - - - Looks up a localized string similar to The Now-method on the event raise is not meant to be called directly, only use it to register to an event on a fake object that you want to be raised.. - - - - - Looks up a localized string similar to The number of values for out and ref parameters specified does not match the number of out and ref parameters in the call.. - - - - - Looks up a localized string similar to A scope for ordered assertions is already opened, close that scope before opening another one.. - - - - - Looks up a localized string similar to The specified call is not made on a fake object.. - - - - - Looks up a localized string similar to The current fake proxy generator can not create proxies of the type {0}.. - - - - - Looks up a localized string similar to FakeItEasy was unable to create dummy of type "{0}", register it in the current IFakeObjectContainer to enable this.. - - - - - Looks up a localized string similar to Expected to find call {0} the number of times specified by the predicate '{1}' but found it {2} times among the calls:. - - - - - Looks up a localized string similar to The number of argument names does not match the number of arguments.. - - - - - A class exposing an event handler to attach to an event of a faked object - in order to raise that event. - - The type of the event args. - - - - Used by the event raising rule of fake objects to get the event arguments used in - a call to Raise.With. - - - - - Gets the sender of the event. - - - - - Gets the event arguments of the event. - - - - - Register this event handler to an event on a faked object in order to raise that event. - - The sender of the event. - Event args for the event. - - - - Gets a generic event handler to attach to the event to raise. - - - - - Represents a fake object that provides an API for configuring a faked object, exposed by the - FakedObject-property. - - The type of the faked object. - - - - Provides methods for configuring a fake object. - - The type of fake object. - - - - Configures the behavior of the fake object when a call that matches the specified - call happens. - - The type of the return value of the member. - An expression that specifies the calls to configure. - A configuration object. - - - - Configures the behavior of the fake object when a call that matches the specified - call happens. - - An expression that specifies the calls to configure. - A configuration object. - - - - Configures the behavior of the fake object when a call is made to any method on the - object. - - A configuration object. - - - - Initializes a new instance of the class. - Creates a new fake object. - - - - - Initializes a new instance of the class. - Creates a new fake object using the specified options. - - - Options used to create the fake object. - - - - - Configures calls to the specified member. - - An expression specifying the call to configure. - A configuration object. - - - - Configures calls to the specified member. - - The type of value the member returns. - An expression specifying the call to configure. - A configuration object. - - - - Configures any call to the fake object. - - A configuration object. - - - - Gets the faked object. - - - - - Gets all calls made to the faked object. - - - - - Access all types in all assemblies in the same directory as the FakeItEasy assembly. - - - - - Provides a set of types that are available. - - - - - Gets a collection of available types. - - The available types. - - - - Initializes a new instance of the class. - - - - - Gets a collection of available types. - - The available types. - - - - Configuration for any call to a faked object. - - - - - Provides configuration methods for methods that does not have a return value and - allows the use to specify validations for arguments. - - - - - Provides configuration methods for methods that does not have a return value. - - - - - Lets the developer configure output values of out and ref parameters. - - - - - Specifies output values for out and ref parameters. Specify the values in the order - the ref and out parameters has in the configured call, any non out and ref parameters are ignored. - - The values. - A configuration object. - - - - Configures the specified call to do nothing when called. - - A configuration object. - - - - Matches calls that has the return type specified in the generic type parameter. - - The return type of the members to configure. - A configuration object. - - - - Manages registration of a set of components in a DictionaryContainer. - - - - - Registers the components of this module. - - The container to register components in. - - - - A factory that creates instances of the RecordingCallRuleType. - - - - - Creates the specified fake object. - - The type of the fake. - The fake object the rule belongs to. - The rule that's being recorded. - A RecordingCallRule instance. - - - - A factory responsible for creating start configuration for fake objects. - - - - - Creates a start configuration for the specified fake object that fakes the - specified type. - - The type of the fake object. - The fake object to configure. - A configuration object. - - - - An exception that can be thrown when something goes wrong with the configuration - of a fake object. - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - The message. - - - - Initializes a new instance of the class. - - The message. - The inner exception. - - - - Initializes a new instance of the class. - - The that holds the serialized object data about the exception being thrown. - The that contains contextual information about the source or destination. - - The parameter is null. - - - The class name is null or is zero (0). - - - - - Handles the configuration of fake object given an expression specifying - a call on a faked object. - - - - - Lets you set up expectations and configure repeat for the configured call. - - - - - Provides configuration for method calls that has a return value. - - - - - Specifies the number of times for the configured event. - - The number of times to repeat. - - - - A combination of the IAfterCallSpecifiedConfiguration and IOutAndRefParametersConfiguration - interfaces. - - - - - Configurations for when a configured call is recorded. - - - - - Provides configuration from VisualBasic. - - - - - A call rule that has been recorded. - - - - - A call rule that "sits and waits" for the next call, when - that call occurs the recorded rule is added for that call. - - The type of the fake. - - - - Provides access to a set of calls and a call matcher for these calls. - - - - - Provides access to a call matcher. - - - - - Gets a call predicate that can be used to check if a fake object call matches - the specified constraint. - - - - - Gets the set of calls. - - - - - Represents a delegate that creates a configuration object from - a fake object and the rule to build. - - The rule that's being built. - The fake object the rule is for. - A configuration object. - - - - Represents a predicate that matches a fake object call. - - - - - Gets a value indicating whether the call matches the predicate. - - The call to match. - True if the call matches the predicate. - - - - Represents an argument and a dummy value to use for that argument. - - - - - Initializes a new instance of the class. - - A value indicating if the dummy value was successfully resolved. - The type of argument. - The resolved value. - - - - Gets a value indicating whether a dummy argument value was successfully - resolved. - - - - - Gets the type of the argument. - - - - - Gets the resolved value. - - - - - Represents an event that happens when a call has been intercepted by a proxy. - - - - - Initializes a new instance of the class. - - The call. - - - - Gets the call that was intercepted. - - The call. - - - - Keeps track of metadata for interceptions. - - - - - Gets whether the rule has been called the number of times specified or not. - - True if the rule has not been called the number of times specified. - - - - Gets or sets the number of times the rule has been used. - - - - - Gets or sets the rule this metadata object is tracking. - - - - - Manages attaching of argument constraints. - - The type of argument to constrain. - - - - Constrains the argument with a predicate. - - The predicate that should constrain the argument. - An action that will be write a description of the constraint. - A dummy argument value. - - - - Inverts the logic of the matches method. - - - - - Validates an argument, checks that it's valid in a specific fake call. - - - - - Writes a description of the argument constraint to the specified writer. - - - The writer. - - - - - Gets whether the argument is valid. - - The argument to validate. - True if the argument is valid. - - - - Default implementation of . - - - - - Attaches a fake manager to the proxy so that intercepted - calls can be configured. - - - - - Attaches a to the specified proxy, listening to - the event raiser. - - The type of the fake object proxy. - The proxy to attach to. - The event raiser to listen to. - - - - Gets the fake manager associated with the proxy. - - The proxy to get the manager from. - A fake manager. - - - - Attaches a to the specified proxy, listening to - the event raiser. - - The type of the fake object proxy. - The proxy to attach to. - The event raiser to listen to. - - - - Gets the fake manager associated with the proxy. - - The proxy to get the manager from. - A fake manager. - - - - Represents an object that can be tagged with another object. When implemented - by a proxy returned from an FakeItEasy uses the tag - to store a reference to the that handles that proxy. - - - - - Gets or sets the tag. - - - - - The default implementation of the IFakeObjectCallFormatter interface. - - - - - Provides string formatting for fake object calls. - - - - - Gets a human readable description of the specified - fake object call. - - The call to get a description for. - A description of the call. - - - - Gets a human readable description of the specified - fake object call. - - The call to get a description for. - A description of the call. - - - - Handles configuring of fake objects to delegate all their calls to a wrapped instance. - - - - - Manages configuration of fake objects to wrap instances. - - - - - Configures the specified faked object to wrap the specified instance. - - The faked object to configure. - The instance to wrap. - The recorder to use, null if no recording should be made. - - - - Configures the specified faked object to wrap the specified instance. - - The faked object to configure. - The instance to wrap. - The recorder to use, null if no recording should be made. - - - - A fake object container where delegates can be registered that are used to - resolve fake objects. - - - - - A container that can create fake objects. - - - - - Handles global configuration of fake object. - - - - - Applies base configuration to a fake object. - - The type the fake object represents. - The fake object to configure. - - - - Creates a dummy object of the specified type using the specified arguments if it's - supported by the container, returns a value indicating if it's supported or not. - - The type of dummy object to create. - The dummy object that was created if the method returns true. - True if a dummy object can be created. - - - - Initializes a new instance of the class. - Creates a new instance of the DelegateFakeObjectContainer. - - - - - Creates a fake object of the specified type using the specified arguments if it's - supported by the container, returns a value indicating if it's supported or not. - - The type of dummy object to create. - The fake object that was created if the method returns true. - True if a fake object can be created. - - - - Configures the fake. - - The type of fake. - The fake object. - - - - Registers the specified fake delegate. - - The type of the return value of the method that encapsulates. - The fake delegate. - - - - A IFakeObjectContainer implementation that uses MEF to load IFakeDefinitions and - IFakeConfigurations. - - - - - Initializes a new instance of the class. - - The dummy definitions. - The fake configurators. - - - - Creates a fake object of the specified type using the specified arguments if it's - supported by the container, returns a value indicating if it's supported or not. - - The type of fake object to create. - The fake object that was created if the method returns true. - True if a fake object can be created. - - - - Applies base configuration to a fake object. - - The type the fake object represents. - The fake object to configure. - - - - An exception that is thrown when there was an error creating a fake object. - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - The message. - - - - Initializes a new instance of the class. - - The message. - The inner exception. - - - - Initializes a new instance of the class. - - The that holds the serialized object data about the exception being thrown. - The that contains contextual information about the source or destination. - - The parameter is null. - - - The class name is null or is zero (0). - - - - Auto fake property rule. - - The central point in the API for proxied fake objects handles interception - of fake object calls by using a set of rules. User defined rules can be inserted - by using the AddRule-method. - - Event rule. - Object member rule. - Property behavior rule. - Property setter rule. - - - - Initializes a new instance of the class. - - - - - Adds a call rule to the fake object. - - The rule to add. - - - - Adds a call rule last in the list of user rules, meaning it has the lowest priority possible. - - The rule to add. - - - - Removes the specified rule for the fake object. - - The rule to remove. - - - - Adds an interception listener to the manager. - - The listener to add. - - - - Removes any specified user rules. - - - - - Gets the faked object. - - - - - Gets the faked type. - - - - - Gets the interceptions that are currently registered with the fake object. - - - - - Gets a collection of all the calls made to the fake object within the current scope. - - - - - A delegate responsible for creating FakeObject instances. - - An instance of . - - - - Represents a call to a fake object at interception time. - - - - - Represents a fake object call that can be edited. - - - - - Represents a call to a fake object. - - - - - Gets the method that's called. - - - - - Gets the arguments used in the call. - - - - - Gets the faked object the call is performed on. - - - - - Sets the return value of the call. - - The return value to set. - - - - Calls the base method of the faked type. - - - - - Sets the value of the argument at the specified index in the parameters list. - - The index of the argument to set the value of. - The value to set to the argument. - - - - Freezes the call so that it can no longer be modified. - - A completed fake object call. - - - - Sets that the call should not be recorded by the fake manager. - - - - - Represents a scope for fake objects, calls configured within a scope - are only valid within that scope. Only calls made within a scope - are accessible from within a scope so for example asserts will only - assert on those calls done within the scope. - - - - - Provides access to all calls made to fake objects within a scope. - Scopes calls so that only calls made within the scope are visible. - - - - - Creates a new scope and sets it as the current scope. - - The created scope. - - - - Creates a new scope and sets it as the current scope, using the specified - container as the container for the new scope. - - The container to use for the new scope. - The created scope. - - - - Closes the scope. - - - - - Adds an intercepted call to the current scope. - - The fake object. - The call that is intercepted. - - - - Adds a fake object call to the current scope. - - The fake object. - The rule to add. - - - - Represents a listener for fake object calls, can be plugged into a - FakeManager instance to listen to all intercepted calls. - - The OnBeforeCallIntercepted method will be invoked before the OnBeforeCallIntercepted method of any - previously added listener. The OnAfterCallIntercepted method will be invoked after the OnAfterCallIntercepted - method of any previously added listener. - - - - Called when the interception begins but before any call rules - has been applied. - - The intercepted call. - - - - Called when the interception has been completed and rules has been - applied. - - The intercepted call. - The rule that was applied to the call. - - - - An interface to be implemented by classes that can generate proxies for FakeItEasy. - - - - - Generates a proxy of the specified type and returns a result object containing information - about the success of the generation and the proxy if it was generated. - - The type of proxy to generate. - Interfaces to be implemented by the proxy. - Arguments to pass to the constructor of the type in . - The custom attribute builders. - A result containing the generated proxy. - - - - Generates a proxy of the specified type and returns a result object containing information - about the success of the generation and the proxy if it was generated. - - The type of proxy to generate. - Interfaces to be implemented by the proxy. - Arguments to pass to the constructor of the type in . - A result containing the generated proxy. - - - - Gets a value indicating whether the specified member can be intercepted by the proxy generator. - - The member to test. - The instance the method will be called on. - The reason the method can not be intercepted. - True if the member can be intercepted. - - - - An object that raises an event every time a call to a proxy has been intercepted. - - - - - Raised when a call is intercepted. - - - - - Represents a completed call to a fake object. - - - - - Gets the value set to be returned from the call. - - - - - Represents a text writer that writes to the output. - - - - - Writes the specified value to the output. - - The value to write. - The writer for method chaining. - - - - Formats the specified argument value as a string and writes - it to the output. - - The value to write. - The writer for method chaining. - - - - Indents the writer. - - A disposable that will unindent the writer when disposed. - - - - Provides instances from type catalogues. - - - - - Gets an instance per type in the catalogue that is a descendant - of the specified type. - - The type of instances to get. - A sequence of instances of the specified type. - - - - Handles comparisons of instances of . - - - - - Gets a value indicating whether the two instances of would invoke the same method - if invoked on an instance of the target type. - - The type of target for invocation. - The first . - The second . - True if the same method would be invoked. - - - - A null implementation for the IFakeObjectContainer interface. - - - - - Always returns false and sets the fakeObject to null. - - The type of dummy object to create. - Output variable for the fake object that will always be set to null. - Always return false. - - - - Applies base configuration to a fake object. - - The type the fake object represents. - The fake object to configure. - - - - A call rule that applies to any call and just delegates the - call to the wrapped object. - - - - - Initializes a new instance of the class. - Creates a new instance. - - - The object to wrap. - - - - - Gets whether this interceptor is applicable to the specified - call, if true is returned the Apply-method of the interceptor will - be called. - - The call to check for applicability. - True if the interceptor is applicable. - - - - Applies an action to the call, might set a return value or throw - an exception. - - The call to apply the interceptor to. - - - - Gets the number of times this call rule is valid, if it's set - to null its infinitely valid. - - - - - - An adapter that adapts an to a . - - - - - Initializes a new instance of the class. - - The invocation. - - - - Freezes the call so that it can no longer be modified. - - A completed fake object call. - - - - Calls the base method, should not be used with interface types. - - - - - Sets the specified value to the argument at the specified index. - - The index of the argument to set the value to. - The value to set to the argument. - - - - Sets the return value of the call. - - The return value. - - - - Returns a description of the call. - - - A that represents this instance. - - - - - Gets a human readable description of the call. - - - - - - Gets the value set to be returned from the call. - - - - - Gets the method that's called. - - - - - Gets the arguments used in the call. - - - - - Gets the faked object the call is performed on. - - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to No constructor matches the passed arguments for constructor.. - - - - - Looks up a localized string similar to Arguments for constructor specified for interface type.. - - - - - Looks up a localized string similar to The type of proxy "{0}" is sealed.. - - - - - Looks up a localized string similar to The type of proxy must be an interface or a class but it was {0}.. - - - - - Looks up a localized string similar to No default constructor was found on the type {0}.. - - - - - The default implementation of the IFakeAndDummyManager interface. - - - - - Handles the creation of fake and dummy objects. - - - - - Creates a dummy of the specified type. - - The type of dummy to create. - The created dummy. - The current IProxyGenerator is not able to generate a fake of the specified type and - the current IFakeObjectContainer does not contain the specified type. - - - - Creates a fake object of the specified type. - - The type of fake object to generate. - Options for building the fake object. - A fake object. - The current IProxyGenerator is not able to generate a fake of the specified type. - - - - Tries to create a dummy of the specified type. - - The type of dummy to create. - Outputs the result dummy when creation is successful. - A value indicating whether the creation was successful. - - - - Tries to create a fake object of the specified type. - - The type of fake to create. - Options for the creation of the fake. - The created fake object when creation is successful. - A value indicating whether the creation was successful. - - - - Default implementation of the IFakeCreator-interface. - - - - - A facade used by the public API for testability. - - - - - Creates a fake object of the specified type. - - The type of fake to create. - Options for the created fake object. - The created fake object. - Was unable to generate the fake in the current configuration. - - - - Creates a dummy object, this can be a fake object or an object resolved - from the current IFakeObjectContainer. - - The type of dummy to create. - The created dummy. - Was unable to generate the fake in the current configuration and - no dummy was registered in the container for the specified type.. - - - - Creates a collection of fakes of the specified type. - - The type of fakes to create. - The number of fakes in the collection. - A collection of fake objects of the specified type. - - - - Initializes a new instance of the class. - - The fake and dummy manager. - - - - Creates a fake object of the specified type. - - The type of fake to create. - Options for the created fake object. - The created fake object. - Was unable to generate the fake in the current configuration. - - - - Creates a collection of fakes of the specified type. - - The type of fakes to create. - The number of fakes in the collection. - - A collection of fake objects of the specified type. - - - - - Creates a dummy object, this can be a fake object or an object resolved - from the current IFakeObjectContainer. - - The type of dummy to create. - The created dummy. - Was unable to generate the fake in the current configuration and - no dummy was registered in the container for the specified type.. - - - - Provides options for fake wrappers. - - The type of the fake object generated. - - - - Provides options for generating fake object. - - The type of fake object generated. - - - - Specifies arguments for the constructor of the faked class. - - The arguments to pass to the constructor of the faked class. - Options object. - - - - Specifies arguments for the constructor of the faked class by giving an expression with the call to - the desired constructor using the arguments to be passed to the constructor. - - The constructor call to use when creating a class proxy. - Options object. - - - - Specifies that the fake should delegate calls to the specified instance. - - The object to delegate calls to. - Options object. - - - - Specifies that the fake should be created with these additional attributes. - - The attributes to build into the proxy. - Options object. - - - - Sets up the fake to implement the specified interface in addition to the - originally faked class. - - The type of interface to implement. - Options object. - The specified type is not an interface. - The specified type is null. - - - - Specifies an action that should be run over the fake object - once it's created. - - An action to perform. - Options object. - - - - Specifies a fake recorder to use. - - The recorder to use. - Options object. - - - - Initializes a new instance of the class. - - The container. - The fake object creator. - - - - Contains the result of a call to TryCreateProxy of IProxyGenerator. - - - - - Initializes a new instance of the class. - Creates a new instance representing a failed proxy - generation attempt. - - - The reason the proxy generation failed. - - - - - Initializes a new instance of the class. - Creates a new instance representing a successful proxy - generation. - - - The proxy that was generated. - - - An event raiser that raises - events when calls are intercepted to the proxy. - - - - - Gets a value indicating whether the proxy was successfully created. - - - - - Gets the generated proxy when it was successfully created. - - - - - Gets the event raiser that raises events when calls to the proxy are - intercepted. - - - - - Gets the reason for failure when the generation was not successful. - - - - - Represents a class that can parse a lambda expression - that represents a method or property call. - - - - - Parses the specified expression. - - The expression to parse. - The parsed expression. - - - - Handles the matching of fake object calls to expressions. - - - - - Initializes a new instance of the class. - - The call specification. - The constraint factory. - The method info manager to use. - A parser to use to parse call expressions. - - - - Matches the specified call against the expression. - - The call to match. - True if the call is matched by the expression. - - - - Gets a description of the call. - - Description of the call. - - - - Gets a human readable description of calls that will be matched by this - matcher. - - - - - An implementation of the interface that uses - expressions for evaluating if the rule is applicable to a specific call. - - - - - Initializes a new instance of the class. - - The expression matcher to use. - - - - Returns a that represents this instance. - - - A that represents this instance. - - - - - Handles the instantiation of ExpressionCallRule instance. - - An expression specifying the call. - A rule instance. - - - - Manages breaking call specification expression into their various parts. - - - - - Manages breaking call specification expression into their various parts. - - - - - Gets the fake object an expression is called on. - - The call expression. - The FakeManager instance that manages the faked object the call is made on. - The fakeObjectCall is null. - The specified expression is not an expression where a call is made to a faked object. - - - - Gets the fake object an expression is called on. - - The call expression. - A FakeObject. - The fakeObjectCall is null. - The specified expression is not an expression where a call is made to a faked object. - - - - Provides extension methods for configuring and asserting on faked objects - without going through the static methods of the Fake-class. - - - - - Configures the behavior of the fake object when a call that matches the specified - call happens. - - The type of fake object to configure. - The type of the return value of the member. - The faked object to configure. - An expression that specifies the calls to configure. - A configuration object. - - - - Configures the behavior of the fake object when a call that matches the specified - call happens. - - The faked object to configure. - The type of fake object to configure. - An expression that specifies the calls to configure. - A configuration object. - - - - Configures the behavior of the fake object when a call is made to any method on the - object. - - The type of the fake. - The faked object. - A configuration object. - - - - Provides an extension method for configuring fake objects. - - - - - Gets an object that provides a fluent interface syntax for configuring - the fake object. - - The type of the fake object. - The fake object to configure. - A configuration object. - The fakedObject was null. - The object passed in is not a faked object. - - - - Used to tag fields and properties that will be initialized through the - Fake.Initialize-method. - - - - - A simple implementation of an IoC container. - - - - - The dictionary that stores the registered services. - - - - - Initializes a new instance of the class. - - - - - Resolves an instance of the specified component type. - - Type of the component. - An instance of the component type. - - - - Registers the specified resolver. - - The type of component to register. - The resolver. - - - - Registers the specified resolver as a singleton. - - The type of component to register. - The resolver. - - - - Provides properties and methods to specify repeat. - - - - - Specifies the number of times as repeat. - - The number of times expected. - A Repeated instance. - - - - Specifies once as the repeat. - - - - - Specifies twice as the repeat. - - - - - Provides functionality for making ordered assertions on fakes. - - - - - Creates a scope that changes the behavior on asserts so that all asserts within - the scope must be to calls in the specified collection of calls. Calls must have happened - in the order that the asserts are specified or the asserts will fail. - - The calls to assert among. - A disposable used to close the scope. - - - - Provides the base implementation for the IFakeConfigurator-interface. - - The type of fakes the configurator can configure. - - - - Provides configurations for fake objects of a specific type. - - - - - Applies the configuration for the specified fake object. - - The fake object to configure. - - - - Gets the type the instance provides configuration for. - - - - - Configures the fake. - - The fake object. - - - - Applies the configuration for the specified fake object. - - The fake object to configure. - - - - Asserts the type of the that fake is of correct. - - The fake object. - - - - Gets the type the instance provides configuration for. - - - - - - Represents a definition of how a fake object of the type T should - be created. - - The type of fake. - - - - Represents a definition of how dummies of the specified type should be created. - - - - - Creates the fake. - - The fake object. - - - - Gets the type of fake object the definition is for. - - - - - Creates the dummy. - - The dummy object. - - - - Creates the dummy. - - The dummy object. - - - - Gets the type the definition is for. - - For type. - - - - Provides validation extensions for . - - - - - Constrains an argument so that it must be null (Nothing in VB). - - The type of the argument. - The constraint manager to match the constraint. - A dummy argument value. - - - - Constrains the string argument to contain the specified text. - - The constraint manager to match the constraint. - The string the argument string should contain. - A dummy argument value. - - - - Constrains the sequence so that it must contain the specified value. - - The constraint manager to match the constraint. - The value the collection should contain. - The type of sequence. - A dummy argument value. - - - - Constrains the string so that it must start with the specified value. - - The constraint manager to match the constraint. - The value the string should start with. - A dummy argument value. - - - - Constrains the string so that it must end with the specified value. - - The constraint manager to match the constraint. - The value the string should end with. - A dummy argument value. - - - - Constrains the string so that it must be null or empty. - - The constraint manager to match the constraint. - A dummy argument value. - - - - Constrains argument value so that it must be greater than the specified value. - - The constraint manager to match the constraint. - The value the string should start with. - The type of argument to constrain. - A dummy argument value. - - - - The tested argument collection should contain the same elements as the - as the specified collection. - - The constraint manager to match the constraint. - The sequence to test against. - The type of argument to constrain. - A dummy argument value. - - - - Tests that the IEnumerable contains no items. - - The type of argument. - The constraint manager to match the constraint. - A dummy argument value. - - - - Tests that the passed in argument is equal to the specified value. - - The type of the argument. - The constraint manager to match the constraint. - The value to compare to. - A dummy argument value. - - - - Constrains the argument to be of the specified type. - - The type of argument in the method signature. - The constraint manager. - The type to constrain the argument with. - A dummy value. - - - - Constrains the argument with a predicate. - - - The constraint manager. - - - The predicate that should constrain the argument. - - - A human readable description of the constraint. - - - The type of argument in the method signature. - - - A dummy argument value. - - - - - Constrains the argument with a predicate. - - - The constraint manager. - - - The predicate that should constrain the argument. - - - A human readable description of the constraint format string. - - - Arguments for the format string. - - - The type of argument in the method signature. - - - A dummy argument value. - - - - - Constrains the argument with a predicate. - - - The constraint manager. - - - The predicate that should constrain the argument. - - - The type of argument in the method signature. - - - A dummy argument value. - - - - - Constrains the argument to be not null (Nothing in VB) and to match - the specified predicate. - - The type of the argument to constrain. - The constraint manager. - The predicate that constrains non null values. - An action that writes a description of the constraint - to the output. - A dummy argument value. - - - - Provides static methods for the IOutputWriter-interface. - - - - - Writes a new line to the writer. - - The writer to write to. - The writer. - - - - Writes the format string to the writer. - - The writer to write to. - The format string to write. - Replacements for the format string. - The writer. - - - - Writes the specified object to the writer (using the ToString-method of the object). - - The writer to write to. - The value to write to the writer. - The writer. - - - - Provides syntax for specifying the number of times a call must have been repeated when asserting on - fake object calls. - - A.CallTo(() => foo.Bar()).Assert(Happened.Once.Exactly); - - - - Specifies that a call must have been repeated a number of times - that is validated by the specified repeatValidation argument. - - A predicate that specifies the number of times - a call must have been made. - A Repeated-instance. - - - - When implemented gets a value indicating if the repeat is matched - by the Happened-instance. - - The repeat of a call. - True if the repeat is a match. - - - - Asserts that a call has not happened at all. - - - - - The call must have happened exactly the number of times that is specified in the next step. - - - - - The call must have happened any number of times greater than or equal to the number of times that is specified - in the next step. - - - - - The call must have happened any number of times less than or equal to the number of times that is specified - in the next step. - - - - - Provides methods for creating recorders for self initializing fakes. - - - - - Gets a recorder that records to and loads calls from the specified file. - - The file to use for recording. - A recorder instance. - - - - Provides access to the file system. - - - - - Opens the specified file in the specified mode. - - The full path and name of the file to open. - The mode to open the file in. - A stream for reading and writing the file. - - - - Gets a value indicating whether the specified file exists. - - The path and name of the file to check. - True if the file exists. - - - - Creates a file with the specified name. - - The name of the file to create. - - - - Gets the value produced by the specified expression when compiled and invoked. - - The expression to get the value from. - The value produced by the expression. - - - - An exception thrown when an expectation is not met (when asserting on fake object calls). - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - The message. - - - - Initializes a new instance of the class. - - The message. - The inner exception. - - - - Initializes a new instance of the class. - - The that holds the serialized object data about the exception being thrown. - The that contains contextual information about the source or destination. - - The parameter is null. - - - The class name is null or is zero (0). - - - - - Provides extension methods for fake objects. - - - - - Specifies NumberOfTimes(1) to the IRepeatConfiguration{TFake}. - - The configuration to set repeat 1 to. - - - - Specifies NumberOfTimes(2) to the IRepeatConfiguration{TFake}. - - The configuration to set repeat 2 to. - - - - Specifies that a call to the configured call should be applied no matter what arguments - are used in the call to the faked object. - - The type of the interface. - The configuration. - A configuration object. - - - - Filters to contain only the calls that matches the call specification. - - The type of fake the call is made on. - The calls to filter. - The call to match on. - A collection of the calls that matches the call specification. - - - - Asserts that the specified call must have happened once or more. - - The configuration to assert on. - - - - Asserts that the specified has not happened. - - The configuration to assert on. - - - - Configures the call to return the next value from the specified sequence each time it's called. Null will - be returned when all the values in the sequence has been returned. - - - The type of return value. - - - The call configuration to extend. - - - The values to return in sequence. - - - - - Specifies the value to return when the configured call is made. - - The type of the return value. - The configuration to extend. - The value to return. - A configuration object. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The type of the return value. - The configuration to extend. - A function that produces the return value. - A configuration object. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The type of the return value. - Type of the first argument of the faked method call. - The configuration to extend. - A function that produces the return value. - A configuration object. - The signatures of the faked method and the do not match. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The configuration to extend. - A function that produces the return value. - The type of the return value. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - A configuration object. - The signatures of the faked method and the do not match. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The configuration to extend. - A function that produces the return value. - The type of the return value. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - A configuration object. - The signatures of the faked method and the do not match. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The configuration to extend. - A function that produces the return value. - The type of the return value. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - Type of the fourth argument of the faked method call. - A configuration object. - The signatures of the faked method and the do not match. - - - - Writes the calls in the collection to the specified text writer. - - The type of the calls. - The calls to write. - The writer to write the calls to. - - - - Writes all calls in the collection to the console. - - The type of the calls. - The calls to write. - - - - Gets the argument at the specified index in the arguments collection - for the call. - - The type of the argument to get. - The call to get the argument from. - The index of the argument. - The value of the argument with the specified index. - - - - Gets the argument with the specified name in the arguments collection - for the call. - - The type of the argument to get. - The call to get the argument from. - The name of the argument. - The value of the argument with the specified name. - - - - Makes the fake strict, this means that any call to the fake - that has not been explicitly configured will throw an exception. - - The type of fake object. - The configuration. - A configuration object. - - - - Applies a predicate to constrain which calls will be considered for interception. - - - The return type of the where method. - - - The configuration object to extend. - - - A predicate for a fake object call. - - to the output. - - The configuration object. - - - - - Executes the specified action when a matching call is being made. This overload can also be used to fake calls with arguments when they don't need to be accessed. - - The type of fake object. - The configuration that is extended. - The to invoke. - The fake object. - - - - Executes the specified action when a matching call is being made. - - The configuration that is extended. - The to invoke. - The type of fake object. - Type of the first argument of the faked method call. - The signatures of the faked method and the do not match. - The fake object. - - - - Executes the specified action when a matching call is being made. - - The configuration that is extended. - The to invoke. - The type of fake object. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - The signatures of the faked method and the do not match. - The fake object. - - - - Executes the specified action when a matching call is being made. - - The configuration that is extended. - The to invoke. - The type of fake object. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - The signatures of the faked method and the do not match. - The fake object. - - - - Executes the specified action when a matching call is being made. - - The configuration that is extended. - The to invoke. - The type of fake object. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - Type of the fourth argument of the faked method call. - The signatures of the faked method and the do not match. - The fake object. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - The exception to throw when a call that matches is invoked. - Configuration object. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Configuration object. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Type of the first argument of the faked method call. - Configuration object. - The signatures of the faked method and the do not match. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Configuration object. - The signatures of the faked method and the do not match. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - Configuration object. - The signatures of the faked method and the do not match. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - Type of the fourth argument of the faked method call. - Configuration object. - The signatures of the faked method and the do not match. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - The type of exception to throw. - Configuration object. - - - - A collection of method arguments. - - - - - The arguments this collection contains. - - - - - Initializes a new instance of the class. - - The arguments. - The argument names. - - - - Initializes a new instance of the class. - - The arguments. - The method. - - - - Returns an enumerator that iterates through the collection or arguments. - - - A that can be used to iterate through the collection. - - - - - Gets the argument at the specified index. - - The type of the argument to get. - The index of the argument. - The argument at the specified index. - - - - Gets the argument with the specified name. - - The type of the argument to get. - The name of the argument. - The argument with the specified name. - - - - Gets an empty ArgumentList. - - - - - Gets the number of arguments in the list. - - - - - Gets the names of the arguments in the list. - - - - - Gets the argument at the specified index. - - The index of the argument to get. - The argument at the specified index. - - - - Provides methods for guarding method arguments. - - - - - Throws an exception if the specified argument is null. - - The argument. - Name of the argument. - The specified argument was null. - - - - Provides static methods for accessing fake objects. - - - - - Gets the fake object that manages the faked object. - - The faked object to get the manager object for. - The fake object manager. - - - - Creates a new scope and sets it as the current scope. When inside a scope the - getting the calls made to a fake will return only the calls within that scope and when - asserting that calls were made, the calls must have been made within that scope. - - The created scope. - - - - Creates a new scope and sets it as the current scope. When inside a scope the - getting the calls made to a fake will return only the calls within that scope and when - asserting that calls were made, the calls must have been made within that scope. - - The container to use within the specified scope. - The created scope. - - - - Gets a value indicating whether the two objects are equal. - - The first object to compare. - The second object to compare. - True if the two objects are equal. - - - - Gets a value indicating whether the two objects are the same reference. - - The object A. - The object B. - True if the objects are the same reference. - - - - Gets all the calls made to the specified fake object. - - The faked object. - A collection containing the calls to the object. - The object passed in is not a faked object. - - - - Clears the configuration of the faked object. - - The faked object to clear the configuration of. - - - - Sets a new fake to each property or field that is tagged with the FakeAttribute in the specified - fixture. - - The object to initialize. - - - - Allows the developer to raise an event on a faked object. - - - - - Raises an event on a faked object by attaching the event handler produced by the method - to the event that is to be raised. - - The type of the event args. - The sender of the event. - The instance containing the event data. - A Raise(TEventArgs)-object that exposes the event handler to attach. - - - - Raises an event on a faked object by attaching the event handler produced by the method - to the event that is to be raised. - - The type of the event arguments. - The instance containing the event data. - - A Raise(TEventArgs)-object that exposes the event handler to attach. - - - - - Raises an event with empty event arguments on a faked object by attaching the event handler produced by the method - to the event that is to be raised. - - - A Raise(TEventArgs)-object that exposes the event handler to attach. - - - - - Handles the registration of root dependencies in an IoC-container. - - - - - Registers the dependencies. - - The container to register the dependencies in. - - - - DTO for recorded calls. - - - - - Initializes a new instance of the class. - - The method. - The output arguments. - The return value. - - - - Gets the method that was called. - - The method. - - - - Gets the output arguments of the call. - - The output arguments. - - - - Gets the return value of the call. - - The return value. - - - - Represents storage for recorded calls for self initializing - fakes. - - - - - Loads the recorded calls for the specified recording. - - The recorded calls for the recording with the specified id. - - - - Saves the specified calls as the recording with the specified id, - overwriting any previous recording. - - The calls to save. - - - - Initializes a new instance of the class. - - Name of the file. - The file system. - - - - Loads the recorded calls for the specified recording. - - - The recorded calls for the recording with the specified id. - - - - - Saves the specified calls as the recording with the specified id, - overwriting any previous recording. - - The calls to save. - - - - A factory responsible for creating instances of FileStorage. - - The file name of the storage. - A FileStorage instance. - - - - An interface for recorders that provides stored responses for self initializing fakes. - - - - - Applies the call if the call has been recorded. - - The call to apply to from recording. - - - - Records the specified call. - - The call to record. - - - - Gets a value indicating whether the recorder is currently recording. - - - - - An exception that can be thrown when recording for self initialized - fakes fails or when playback fails. - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - The message. - - - - Initializes a new instance of the class. - - The message. - The inner exception. - - - - Initializes a new instance of the class. - - The that holds the serialized object data about the exception being thrown. - The that contains contextual information about the source or destination. - - The parameter is null. - - - The class name is null or is zero (0). - - - - - Manages the applying of recorded calls and recording of new calls when - using self initialized fakes. - - - - - Initializes a new instance of the class. - - The storage. - - - - Applies the call if the call has been recorded. - - The call to apply to from recording. - - - - Records the specified call. - - The call to record. - - - - Saves all recorded calls to the storage. - - - - - Gets a value indicating whether the recorder is currently recording. - - - - - - Represents a factory responsible for creating recording manager - instances. - - The storage the manager should use. - A RecordingManager instance. - - - - A call rule use for self initializing fakes, delegates call to - be applied by the recorder. - - - - - Initializes a new instance of the class. - - The wrapped rule. - The recorder. - - - - Gets whether this interceptor is applicable to the specified - call, if true is returned the Apply-method of the interceptor will - be called. - - The call to check for applicability. - True if the interceptor is applicable. - - - - Applies an action to the call, might set a return value or throw - an exception. - - The call to apply the interceptor to. - - - - Gets the number of times this call rule is valid, if it's set - to null its infinitely valid. - - - - - - Provides extension methods for the common uses. - - - - - Replaces the format item in a specified System.String with the text equivalent - of the value of a corresponding System.Object instance in a specified array using - invariant culture as . - - A composite format string. - An array containing zero or more objects to format. - The formatted string. - - - - Gets an enumerable of tuples where the first value of each tuple is a value - from the first collection and the second value of each tuple is the value at the same position - from the second collection. - - The type of values in the first collection. - The type of values in the second collection. - The first of the collections to combine. - The second of the collections to combine. - An enumerable of tuples. - - - - Joins the collection to a string. - - The type of items in the collection. - The items to join. - A function that converts from an item to a string value. - Separator to insert between each item. - A string representation of the collection. - - - - Gets a dictionary containing the first element from the sequence that has a key specified by the key selector. - - The type of items in the sequence. - The type of the key. - The sequence. - The key selector. - A dictionary. - - - - An attribute that can be applied to code that should be fixed because there's a - code smell. - - - - - Gets or sets the description of the smell. - - - - - Lets you specify options for the next call to a fake object. - - - - - Specifies options for the next call to the specified fake object. The next call will - be recorded as a call configuration. - - The type of the faked object. - The faked object to configure. - A call configuration object. - - - - Used to tag fields and properties that will be initialized as a SUT through the Fake.Initialize-method. - - - - + + + + FakeItEasy + + + + + Provides methods for generating fake objects. + + + + + Creates a fake object of the type T. + + The type of fake object to create. + A fake object. + + + + Creates a fake object of the type T. + + The type of fake object to create. + A lambda where options for the built fake object can be specified. + A fake object. + + + + Creates a collection of fakes of the specified type. + + The type of fakes to create. + The number of fakes in the collection. + A collection of fake objects of the specified type. + + + + Gets a dummy object of the specified type. The value of a dummy object + should be irrelevant. Dummy objects should not be configured. + + The type of dummy to return. + A dummy object of the specified type. + Dummies of the specified type can not be created. + + + + Gets a value indicating whether the two objects are equal. + + The first object to compare. + The second object to compare. + True if the two objects are equal. + + + + Gets a value indicating whether the two objects are the same reference. + + The object A. + The object B. + True if the objects are the same reference. + + + + Configures a call to a faked object. + + An expression where the configured member is called. + A configuration object. + + + + Gets a configuration object allowing for further configuration of + any call to the specified faked object. + + + The fake to configure. + + + A configuration object. + + + + + Configures a call to a faked object. + + The type of member on the faked object to configure. + An expression where the configured member is called. + A configuration object. + + + + Provides an API entry point for constraining arguments of fake object calls. + + The type of argument to validate. + + + + Gets an argument constraint object that will be used to constrain a method call argument. + + + + + Gets a constraint that considers any value of an argument as valid. + + This is a shortcut for the "Ignored"-property. + + + + Gets a constraint that considers any value of an argument as valid. + + + + + Provides configuration for any (not a specific) call on a faked object. + + + + + Gets a configuration object allowing for further configuration of + any call to the specified faked object. + + The faked object to configure. + A configuration object. + + + + Gets a value indicating whether the two objects are equal. + + The first object to compare. + The second object to compare. + True if the two objects are equal. + + + + Gets a value indicating whether the two objects are the same reference. + + The object A. + The object B. + True if the objects are the same reference. + + + + A collection of method arguments. + + + + + The arguments this collection contains. + + + + + Initializes a new instance of the class. + + The arguments. + The argument names. + + + + Initializes a new instance of the class. + + The arguments. + The method. + + + + Returns an enumerator that iterates through the collection or arguments. + + + A that can be used to iterate through the collection. + + + + + Gets the argument at the specified index. + + The type of the argument to get. + The index of the argument. + The argument at the specified index. + + + + Gets the argument with the specified name. + + The type of the argument to get. + The name of the argument. + The argument with the specified name. + + + + Gets an empty ArgumentList. + + + + + Gets the number of arguments in the list. + + + + + Gets the names of the arguments in the list. + + + + + Gets the argument at the specified index. + + The index of the argument to get. + The argument at the specified index. + + + + Provides validation extensions for . + + + + + Constrains an argument so that it must be null (Nothing in VB). + + The type of the argument. + The constraint manager to match the constraint. + A dummy argument value. + + + + Constrains the string argument to contain the specified text. + + The constraint manager to match the constraint. + The string the argument string should contain. + A dummy argument value. + + + + Constrains the sequence so that it must contain the specified value. + + The constraint manager to match the constraint. + The value the collection should contain. + The type of sequence. + A dummy argument value. + + + + Constrains the string so that it must start with the specified value. + + The constraint manager to match the constraint. + The value the string should start with. + A dummy argument value. + + + + Constrains the string so that it must end with the specified value. + + The constraint manager to match the constraint. + The value the string should end with. + A dummy argument value. + + + + Constrains the string so that it must be null or empty. + + The constraint manager to match the constraint. + A dummy argument value. + + + + Constrains argument value so that it must be greater than the specified value. + + The constraint manager to match the constraint. + The value the string should start with. + The type of argument to constrain. + A dummy argument value. + + + + The tested argument collection should contain the same elements as the + as the specified collection. + + The constraint manager to match the constraint. + The sequence to test against. + The type of argument to constrain. + A dummy argument value. + + + + Tests that the IEnumerable contains no items. + + The type of argument. + The constraint manager to match the constraint. + A dummy argument value. + + + + Tests that the passed in argument is equal to the specified value. + + The type of the argument. + The constraint manager to match the constraint. + The value to compare to. + A dummy argument value. + + + + Tests that the passed in argument is the same instance (reference) as the specified value. + + The type of the argument. + The constraint manager to match the constraint. + The reference to compare to. + A dummy argument value. + + + + Constrains the argument to be of the specified type. + + The type of argument in the method signature. + The constraint manager. + The type to constrain the argument with. + A dummy value. + + + + Constrains the argument with a predicate. + + + The constraint manager. + + + The predicate that should constrain the argument. + + + A human readable description of the constraint. + + + The type of argument in the method signature. + + + A dummy argument value. + + + + + Constrains the argument with a predicate. + + + The constraint manager. + + + The predicate that should constrain the argument. + + + A human readable description of the constraint format string. + + + Arguments for the format string. + + + The type of argument in the method signature. + + + A dummy argument value. + + + + + Constrains the argument with a predicate. + + + The constraint manager. + + + The predicate that should constrain the argument. + + + The type of argument in the method signature. + + + A dummy argument value. + + + + + Constrains the argument to be not null (Nothing in VB) and to match + the specified predicate. + + The type of the argument to constrain. + The constraint manager. + The predicate that constrains non null values. + An action that writes a description of the constraint + to the output. + A dummy argument value. + + + + Provides string formatting for arguments of type T when written in call lists. + + The type of the arguments which will be formatted by this instance. + + + + Provides string formatting for arguments when written in + call lists. + + + + + Gets a string representing the specified argument value. + + The argument value to get as a string. + A string representation of the value. + + + + Gets the type of arguments this formatter works on. + + + + + Gets the priority of the formatter, when two formatters are + registered for the same type the one with the highest + priority is used. + + + + + Gets a string representing the specified argument value. + + The argument value to get as a string. + A string representation of the value. + + + + Gets a string representing the specified argument value. + + The argument value to get as a string. + A string representation of the value. + + + + Gets the type of arguments this formatter works on. + + + + + Gets the priority of the formatter, when two formatters are + registered for the same type the one with the highest + priority is used. + + + + + Provides extension methods for the common uses. + + + + + Replaces the format item in a specified System.String with the text equivalent + of the value of a corresponding System.Object instance in a specified array using + invariant culture as . + + A composite format string. + An array containing zero or more objects to format. + The formatted string. + + + + Gets an enumerable of tuples where the first value of each tuple is a value + from the first collection and the second value of each tuple is the value at the same position + from the second collection. + + The type of values in the first collection. + The type of values in the second collection. + The first of the collections to combine. + The second of the collections to combine. + An enumerable of tuples. + + + + Joins the collection to a string. + + The type of items in the collection. + The items to join. + A function that converts from an item to a string value. + Separator to insert between each item. + A string representation of the collection. + + + + Gets a dictionary containing the first element from the sequence that has a key specified by the key selector. + + The type of items in the sequence. + The type of the key. + The sequence. + The key selector. + A dictionary. + + + + Provides the base for rules that can be built using the FakeConfiguration. + + + + + Represents a call rule that has a description of the calls the + rule is applicable to. + + + + + Allows for intercepting call to a fake object and + act upon them. + + + + + Gets whether this interceptor is applicable to the specified + call, if true is returned the Apply-method of the interceptor will + be called. + + The call to check for applicability. + True if the interceptor is applicable. + + + + Applies an action to the call, might set a return value or throw + an exception. + + The call to apply the interceptor to. + + + + Gets the number of times this call rule is valid, if it's set + to null its infinitely valid. + + + + + Writes a description of calls the rule is applicable to. + + The writer. + + + + Gets if this rule is applicable to the specified call. + + The call to validate. + True if the rule applies to the call. + + + + Writes a description of calls the rule is applicable to. + + The writer to write the description to. + + + + Gets or sets an action that is called by the Apply method to apply this + rule to a fake object call. + + + + + Gets a collection of actions that should be invoked when the configured + call is made. + + + + + Gets or sets values to apply to output and reference variables. + + + + + Gets or sets a value indicating whether the base method of the fake object call should be + called when the fake object call is made. + + + + + Gets or sets the number of times the configured rule should be used. + + + + + Gets a description of calls the rule is applicable to. + + + + + + Configuration for any call to a faked object. + + + + + Provides a way to configure predicates for when a call should be applied. + + The type of fake object that is going to be configured.. + + + + Applies a predicate to constrain which calls will be considered for interception. + + A predicate for a fake object call. + An action that writes a description of the predicate + to the output. + The configuration object. + + + + Provides configuration methods for methods that does not have a return value and + allows the use to specify validations for arguments. + + + + + Provides configuration methods for methods that does not have a return value. + + + + + Configuration that lets the developer specify that an exception should be + thrown by a fake object call. + + + + + Hides standard Object members to make fluent interfaces + easier to read. Found in the source of Autofac: + Based on blog post here: + + + + + + Hides the ToString-method. + + A string representation of the implementing object. + + + + Determines whether the specified is equal to this instance. + + The to compare with this instance. + + true if the specified is equal to this instance; otherwise, false. + + + + + Returns a hash code for this instance. + + + A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. + + + + + Gets the type. + + The exact runtime type of the current instance. + + + + Throws the specified exception when the currently configured + call gets called. + + A function that creates the exception to throw. + Configuration object. + + + + Configuration for callbacks of fake object calls. + + The type of interface to return. + + + + Executes the specified action when a matching call is being made. + + The action to invoke. + A configuration object. + + + + Configuration that lets you specify that a fake object call should call it's base method. + + + + + When the configured method or methods are called the call + will be delegated to the base method of the faked method. + + A configuration object. + The fake object is of an abstract type or an interface + and no base method exists. + + + + Lets the developer configure output values of out and ref parameters. + + + + + Specifies output values for out and ref parameters. Specify the values in the order + the ref and out parameters has in the configured call, any non out and ref parameters are ignored. + + The values. + A configuration object. + + + + Allows the developer to assert on a call that's configured. + + + + + Asserts that the configured call has happened the number of times + constrained by the repeatConstraint parameter. + + A constraint for how many times the call + must have happened. + The call has not been called a number of times + that passes the repeat constraint. + + + + Configures the specified call to do nothing when called. + + A configuration object. + + + + Provides configurations to validate arguments of a fake object call. + + The type of interface to return. + + + + Configures the call to be accepted when the specified predicate returns true. + + The argument predicate. + A configuration object. + + + + Matches calls that has the return type specified in the generic type parameter. + + The return type of the members to configure. + A configuration object. + + + + Manages registration of a set of components in a DictionaryContainer. + + + + + Registers the components of this module. + + The container to register components in. + + + + A factory that creates instances of the RecordingCallRuleType. + + + + + Creates the specified fake object. + + The type of the fake. + The fake object the rule belongs to. + The rule that's being recorded. + A RecordingCallRule instance. + + + + A factory responsible for creating start configuration for fake objects. + + + + + Creates a start configuration for the specified fake object that fakes the + specified type. + + The type of the fake object. + The fake object to configure. + A configuration object. + + + + An exception that can be thrown when something goes wrong with the configuration + of a fake object. + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + The message. + + + + Initializes a new instance of the class. + + The message. + The inner exception. + + + + Initializes a new instance of the class. + + The that holds the serialized object data about the exception being thrown. + The that contains contextual information about the source or destination. + + The parameter is null. + + + The class name is null or is zero (0). + + + + + Handles the configuration of fake object given an expression specifying + a call on a faked object. + + + + + Lets you set up expectations and configure repeat for the configured call. + + + + + Provides configuration for method calls that has a return value. + + + + + Specifies the number of times for the configured event. + + The number of times to repeat. + + + + A combination of the IAfterCallSpecifiedConfiguration and IOutAndRefParametersConfiguration + interfaces. + + + + + Aggregate of IReturnValueArgumentValidationConfiguration<T> and IWhereConfiguration<IAnyCallConfigurationWithReturnTypeSpecified<T>>. + + The type of fake object that is configured. + + + + Configures a call that returns a value and allows the use to + specify validations for arguments. + + The type of the member. + + + + Configures a call that returns a value. + + The type of the member. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + A function that produces the return value. + A configuration object. + + + + Configurations for when a configured call is recorded. + + + + + Provides configuration from VisualBasic. + + + + + Provides methods for configuring a fake object. + + The type of fake object. + + + + Configures the behavior of the fake object when a call that matches the specified + call happens. + + The type of the return value of the member. + An expression that specifies the calls to configure. + A configuration object. + + + + Configures the behavior of the fake object when a call that matches the specified + call happens. + + An expression that specifies the calls to configure. + A configuration object. + + + + Configures the behavior of the fake object when a call is made to any method on the + object. + + A configuration object. + + + + A call rule that has been recorded. + + + + + A call rule that "sits and waits" for the next call, when + that call occurs the recorded rule is added for that call. + + The type of the fake. + + + + Provides access to a set of calls and a call matcher for these calls. + + + + + Provides access to a call matcher. + + + + + Gets a call predicate that can be used to check if a fake object call matches + the specified constraint. + + + + + Gets the set of calls. + + + + + Represents a delegate that creates a configuration object from + a fake object and the rule to build. + + The rule that's being built. + The fake object the rule is for. + A configuration object. + + + + Represents a predicate that matches a fake object call. + + + + + Gets a value indicating whether the call matches the predicate. + + The call to match. + True if the call matches the predicate. + + + + Provides configuration of faked objects. + + + + + Gets a configuration for the specified faked object. + + The type of the fake. + The faked object to configure. + A configuration object. + The specified object is not a faked object. + The fakedObject parameter was null. + + + + Access all types in all assemblies in the same directory as the FakeItEasy assembly. + + + + + Provides a set of types that are available. + + + + + Gets a collection of available types. + + The available types. + + + + Initializes a new instance of the class. + + + + + Gets a collection of available types. + + The available types. + + + + Represents an argument and a dummy value to use for that argument. + + + + + Initializes a new instance of the class. + + A value indicating if the dummy value was successfully resolved. + The type of argument. + The resolved value. + + + + Gets a value indicating whether a dummy argument value was successfully + resolved. + + + + + Gets the type of the argument. + + + + + Gets the resolved value. + + + + + Holds a formatter as well as the distance between a type to be formatted + and the type for which the formatted is registered. + + + + + Represents an event that happens when a call has been intercepted by a proxy. + + + + + Initializes a new instance of the class. + + The call. + + + + Gets the call that was intercepted. + + The call. + + + + Keeps track of metadata for interceptions. + + + + + Gets whether the rule has been called the number of times specified or not. + + True if the rule has not been called the number of times specified. + + + + Gets or sets the number of times the rule has been used. + + + + + Gets or sets the rule this metadata object is tracking. + + + + + Manages attaching of argument constraints. + + The type of argument to constrain. + + + + Constrains the argument with a predicate. + + The predicate that should constrain the argument. + An action that will be write a description of the constraint. + A dummy argument value. + + + + Inverts the logic of the matches method. + + + + + Validates an argument, checks that it's valid in a specific fake call. + + + + + Writes a description of the argument constraint to the specified writer. + + + The writer. + + + + + Gets whether the argument is valid. + + The argument to validate. + True if the argument is valid. + + + + Default implementation of . + + + + + Attaches a fake manager to the proxy so that intercepted + calls can be configured. + + + + + Attaches a to the specified proxy, listening to + the event raiser. + + The type of the fake object proxy. + The proxy to attach to. + The event raiser to listen to. + + + + Gets the fake manager associated with the proxy. + + The proxy to get the manager from. + A fake manager. + + + + Attaches a to the specified proxy, listening to + the event raiser. + + The type of the fake object proxy. + The proxy to attach to. + The event raiser to listen to. + + + + Gets the fake manager associated with the proxy. + + The proxy to get the manager from. + A fake manager. + + + + Represents an object that can be tagged with another object. When implemented + by a proxy returned from an FakeItEasy uses the tag + to store a reference to the that handles that proxy. + + + + + Gets or sets the tag. + + + + + The default implementation of the IFakeObjectCallFormatter interface. + + + + + Provides string formatting for fake object calls. + + + + + Gets a human readable description of the specified + fake object call. + + The call to get a description for. + A description of the call. + + + + Gets a human readable description of the specified + fake object call. + + The call to get a description for. + A description of the call. + + + + Handles configuring of fake objects to delegate all their calls to a wrapped instance. + + + + + Manages configuration of fake objects to wrap instances. + + + + + Configures the specified faked object to wrap the specified instance. + + The faked object to configure. + The instance to wrap. + The recorder to use, null if no recording should be made. + + + + Configures the specified faked object to wrap the specified instance. + + The faked object to configure. + The instance to wrap. + The recorder to use, null if no recording should be made. + + + + A fake object container where delegates can be registered that are used to + resolve fake objects. + + + + + A container that can create fake objects. + + + + + Handles global configuration of fake object. + + + + + Applies base configuration to a fake object. + + The type the fake object represents. + The fake object to configure. + + + + Creates a dummy object of the specified type using the specified arguments if it's + supported by the container, returns a value indicating if it's supported or not. + + The type of dummy object to create. + The dummy object that was created if the method returns true. + True if a dummy object can be created. + + + + Initializes a new instance of the class. + Creates a new instance of the DelegateFakeObjectContainer. + + + + + Creates a fake object of the specified type using the specified arguments if it's + supported by the container, returns a value indicating if it's supported or not. + + The type of dummy object to create. + The fake object that was created if the method returns true. + True if a fake object can be created. + + + + Configures the fake. + + The type of fake. + The fake object. + + + + Registers the specified fake delegate. + + The type of the return value of the method that encapsulates. + The fake delegate. + + + + A IFakeObjectContainer implementation that uses MEF to load IFakeDefinitions and + IFakeConfigurations. + + + + + Initializes a new instance of the class. + + The dummy definitions. + The fake configurators. + + + + Creates a fake object of the specified type using the specified arguments if it's + supported by the container, returns a value indicating if it's supported or not. + + The type of fake object to create. + The fake object that was created if the method returns true. + True if a fake object can be created. + + + + Applies base configuration to a fake object. + + The type the fake object represents. + The fake object to configure. + + + + An exception that is thrown when there was an error creating a fake object. + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + The message. + + + + Initializes a new instance of the class. + + The message. + The inner exception. + + + + Initializes a new instance of the class. + + The that holds the serialized object data about the exception being thrown. + The that contains contextual information about the source or destination. + + The parameter is null. + + + The class name is null or is zero (0). + + + + Auto fake property rule. + + The central point in the API for proxied fake objects handles interception + of fake object calls by using a set of rules. User defined rules can be inserted + by using the AddRule-method. + + Event rule. + Object member rule. + Property behavior rule. + Property setter rule. + + + + Initializes a new instance of the class. + + + + + Adds a call rule to the fake object. + + The rule to add. + + + + Adds a call rule last in the list of user rules, meaning it has the lowest priority possible. + + The rule to add. + + + + Removes the specified rule for the fake object. + + The rule to remove. + + + + Adds an interception listener to the manager. + + The listener to add. + + + + Removes any specified user rules. + + + + + Gets the faked object. + + + + + Gets the faked type. + + + + + Gets the interceptions that are currently registered with the fake object. + + + + + Gets a collection of all the calls made to the fake object within the current scope. + + + + + A delegate responsible for creating FakeObject instances. + + An instance of . + + + + Represents a call to a fake object at interception time. + + + + + Represents a fake object call that can be edited. + + + + + Represents a call to a fake object. + + + + + Gets the method that's called. + + + + + Gets the arguments used in the call. + + + + + Gets the faked object the call is performed on. + + + + + Sets the return value of the call. + + The return value to set. + + + + Calls the base method of the faked type. + + + + + Sets the value of the argument at the specified index in the parameters list. + + The index of the argument to set the value of. + The value to set to the argument. + + + + Freezes the call so that it can no longer be modified. + + A completed fake object call. + + + + Sets that the call should not be recorded by the fake manager. + + + + + Represents a scope for fake objects, calls configured within a scope + are only valid within that scope. Only calls made within a scope + are accessible from within a scope so for example asserts will only + assert on those calls done within the scope. + + + + + Provides access to all calls made to fake objects within a scope. + Scopes calls so that only calls made within the scope are visible. + + + + + Creates a new scope and sets it as the current scope. + + The created scope. + + + + Creates a new scope and sets it as the current scope, using the specified + container as the container for the new scope. + + The container to use for the new scope. + The created scope. + + + + Closes the scope. + + + + + Adds an intercepted call to the current scope. + + The fake object. + The call that is intercepted. + + + + Adds a fake object call to the current scope. + + The fake object. + The rule to add. + + + + Represents a completed call to a fake object. + + + + + Gets the value set to be returned from the call. + + + + + Used by the event raising rule of fake objects to get the event arguments used in + a call to Raise.With. + + + + + Gets the sender of the event. + + + + + Gets the event arguments of the event. + + + + + Represents a listener for fake object calls, can be plugged into a + FakeManager instance to listen to all intercepted calls. + + The OnBeforeCallIntercepted method will be invoked before the OnBeforeCallIntercepted method of any + previously added listener. The OnAfterCallIntercepted method will be invoked after the OnAfterCallIntercepted + method of any previously added listener. + + + + Called when the interception begins but before any call rules + has been applied. + + The intercepted call. + + + + Called when the interception has been completed and rules has been + applied. + + The intercepted call. + The rule that was applied to the call. + + + + Handles comparisons of instances of . + + + + + Gets a value indicating whether the two instances of would invoke the same method + if invoked on an instance of the target type. + + The type of target for invocation. + The first . + The second . + True if the same method would be invoked. + + + + A null implementation for the IFakeObjectContainer interface. + + + + + Always returns false and sets the fakeObject to null. + + The type of dummy object to create. + Output variable for the fake object that will always be set to null. + Always return false. + + + + Applies base configuration to a fake object. + + The type the fake object represents. + The fake object to configure. + + + + Provides instances from type catalogues. + + + + + Gets an instance per type in the catalogue that is a descendant + of the specified type. + + The type of instances to get. + A sequence of instances of the specified type. + + + + A call rule that applies to any call and just delegates the + call to the wrapped object. + + + + + Initializes a new instance of the class. + Creates a new instance. + + + The object to wrap. + + + + + Gets whether this interceptor is applicable to the specified + call, if true is returned the Apply-method of the interceptor will + be called. + + The call to check for applicability. + True if the interceptor is applicable. + + + + Applies an action to the call, might set a return value or throw + an exception. + + The call to apply the interceptor to. + + + + Gets the number of times this call rule is valid, if it's set + to null its infinitely valid. + + + + + + An interface to be implemented by classes that can generate proxies for FakeItEasy. + + + + + Generates a proxy of the specified type and returns a result object containing information + about the success of the generation and the proxy if it was generated. + + The type of proxy to generate. + Interfaces to be implemented by the proxy. + Arguments to pass to the constructor of the type in . + The custom attribute builders. + A result containing the generated proxy. + + + + Generates a proxy of the specified type and returns a result object containing information + about the success of the generation and the proxy if it was generated. + + The type of proxy to generate. + Interfaces to be implemented by the proxy. + Arguments to pass to the constructor of the type in . + A result containing the generated proxy. + + + + Gets a value indicating whether the specified member can be intercepted by the proxy generator. + + The member to test. + The instance the method will be called on. + The reason the method can not be intercepted. + True if the member can be intercepted. + + + + An object that raises an event every time a call to a proxy has been intercepted. + + + + + Raised when a call is intercepted. + + + + + An adapter that adapts an to a . + + + + + Initializes a new instance of the class. + + The invocation. + + + + Freezes the call so that it can no longer be modified. + + A completed fake object call. + + + + Calls the base method, should not be used with interface types. + + + + + Sets the specified value to the argument at the specified index. + + The index of the argument to set the value to. + The value to set to the argument. + + + + Sets the return value of the call. + + The return value. + + + + Returns a description of the call. + + + A that represents this instance. + + + + + Gets a human readable description of the call. + + + + + + Gets the value set to be returned from the call. + + + + + Gets the method that's called. + + + + + Gets the arguments used in the call. + + + + + Gets the faked object the call is performed on. + + + + + A strongly-typed resource class, for looking up localized strings, etc. + + + + + Returns the cached ResourceManager instance used by this class. + + + + + Overrides the current thread's CurrentUICulture property for all + resource lookups using this strongly typed resource class. + + + + + Looks up a localized string similar to No constructor matches the passed arguments for constructor.. + + + + + Looks up a localized string similar to Arguments for constructor specified for interface type.. + + + + + Looks up a localized string similar to The type of proxy "{0}" is sealed.. + + + + + Looks up a localized string similar to The type of proxy must be an interface or a class but it was {0}.. + + + + + Looks up a localized string similar to No usable default constructor was found on the type {0}.. + + + + + The default implementation of the IFakeAndDummyManager interface. + + + + + Handles the creation of fake and dummy objects. + + + + + Creates a dummy of the specified type. + + The type of dummy to create. + The created dummy. + The current IProxyGenerator is not able to generate a fake of the specified type and + the current IFakeObjectContainer does not contain the specified type. + + + + Creates a fake object of the specified type. + + The type of fake object to generate. + Options for building the fake object. + A fake object. + The current IProxyGenerator is not able to generate a fake of the specified type. + + + + Tries to create a dummy of the specified type. + + The type of dummy to create. + Outputs the result dummy when creation is successful. + A value indicating whether the creation was successful. + + + + Tries to create a fake object of the specified type. + + The type of fake to create. + Options for the creation of the fake. + The created fake object when creation is successful. + A value indicating whether the creation was successful. + + + + Default implementation of the IFakeCreator-interface. + + + + + A facade used by the public API for testability. + + + + + Creates a fake object of the specified type. + + The type of fake to create. + Options for the created fake object. + The created fake object. + Was unable to generate the fake in the current configuration. + + + + Creates a dummy object, this can be a fake object or an object resolved + from the current IFakeObjectContainer. + + The type of dummy to create. + The created dummy. + Was unable to generate the fake in the current configuration and + no dummy was registered in the container for the specified type.. + + + + Creates a collection of fakes of the specified type. + + The type of fakes to create. + The number of fakes in the collection. + A collection of fake objects of the specified type. + + + + Initializes a new instance of the class. + + The fake and dummy manager. + + + + Creates a fake object of the specified type. + + The type of fake to create. + Options for the created fake object. + The created fake object. + Was unable to generate the fake in the current configuration. + + + + Creates a collection of fakes of the specified type. + + The type of fakes to create. + The number of fakes in the collection. + + A collection of fake objects of the specified type. + + + + + Creates a dummy object, this can be a fake object or an object resolved + from the current IFakeObjectContainer. + + The type of dummy to create. + The created dummy. + Was unable to generate the fake in the current configuration and + no dummy was registered in the container for the specified type.. + + + + Provides options for fake wrappers. + + The type of the fake object generated. + + + + Provides options for generating fake object. + + The type of fake object generated. + + + + Specifies arguments for the constructor of the faked class. + + The arguments to pass to the constructor of the faked class. + Options object. + + + + Specifies arguments for the constructor of the faked class by giving an expression with the call to + the desired constructor using the arguments to be passed to the constructor. + + The constructor call to use when creating a class proxy. + Options object. + + + + Specifies that the fake should delegate calls to the specified instance. + + The object to delegate calls to. + Options object. + + + + Specifies that the fake should be created with these additional attributes. + + The attributes to build into the proxy. + Options object. + + + + Sets up the fake to implement the specified interface in addition to the + originally faked class. + + The type of interface to implement. + Options object. + The specified type is not an interface. + The specified type is null. + + + + Specifies an action that should be run over the fake object + once it's created. + + An action to perform. + Options object. + + + + Specifies a fake recorder to use. + + The recorder to use. + Options object. + + + + Initializes a new instance of the class. + + The container. + The fake object creator. + + + + Contains the result of a call to TryCreateProxy of IProxyGenerator. + + + + + Initializes a new instance of the class. + Creates a new instance representing a failed proxy + generation attempt. + + + The reason the proxy generation failed. + + + + + Initializes a new instance of the class. + Creates a new instance representing a failed proxy + generation attempt due to an exception being caught. + + + The reason the proxy generation failed. + + + The exception thrown from the creation attempt. + + + + + Initializes a new instance of the class. + Creates a new instance representing a successful proxy + generation. + + + The proxy that was generated. + + + An event raiser that raises + events when calls are intercepted to the proxy. + + + + + Gets a value indicating whether the proxy was successfully created. + + + + + Gets the generated proxy when it was successfully created. + + + + + Gets the event raiser that raises events when calls to the proxy are + intercepted. + + + + + Gets the reason for failure when the generation was not successful. + + + + + Represents a text writer that writes to the output. + + + + + Writes the specified value to the output. + + The value to write. + The writer for method chaining. + + + + Formats the specified argument value as a string and writes + it to the output. + + The value to write. + The writer for method chaining. + + + + Indents the writer. + + A disposable that will unindent the writer when disposed. + + + + Represents a definition of how a fake object of the type T should + be created. + + The type of fake. + + + + Represents a definition of how dummies of the specified type should be created. + + + + + Creates the fake. + + The fake object. + + + + Gets the type of fake object the definition is for. + + + + + Creates the dummy. + + The dummy object. + + + + Creates the dummy. + + The dummy object. + + + + Gets the type the definition is for. + + For type. + + + + A strongly-typed resource class, for looking up localized strings, etc. + + + + + Returns the cached ResourceManager instance used by this class. + + + + + Overrides the current thread's CurrentUICulture property for all + resource lookups using this strongly typed resource class. + + + + + Looks up a localized string similar to The Apply method of the ExpressionInterceptor may no be called before the Applicator property has been set.. + + + + + Looks up a localized string similar to The specified argument name does not exist in the ArgumentList.. + + + + + Looks up a localized string similar to Arguments for constructor was specified when generating proxy of interface type.. + + + + + Looks up a localized string similar to An argument validation was not configured correctly.. + + + + + Looks up a localized string similar to The method '{0}' was called too few times, expected #{1} times but was called #{2} times.. + + + + + Looks up a localized string similar to The method '{0}' was called too many times, expected #{1} times but was called #{2} times.. + + + + + Looks up a localized string similar to Can not create fake of the type '{0}', it's not registered in the current container and the current IProxyGenerator can not generate the fake. + + The following constructors failed: + {1}. + + + + + Looks up a localized string similar to Error when accessing FakeObject, the specified argument is of the type '{0}' which is not faked.. + + + + + Looks up a localized string similar to An ExpressionCallMatcher can only be created for expressions that represents a method call or a property getter.. + + + + + Looks up a localized string similar to + + The current proxy generator failed to create a proxy with the specified arguments for the constructor: + + Reason for failure: + - {0} + + . + + + + + Looks up a localized string similar to FakeItEasy failed to create fake object of type "{0}". + + 1. The type is not registered in the current IFakeObjectContainer. + 2. The current IProxyGenerator failed to generate a proxy for the following reason: + + {1}. + + + + + Looks up a localized string similar to Unable to create fake object.. + + + + + Looks up a localized string similar to Only abstract classes can be faked using the A.Fake-method that takes an enumerable of objects as arguments for constructor, use the overload that takes an expression instead.. + + + + + Looks up a localized string similar to The member accessor expression must be a lambda expression with a MethodCallExpression or MemberAccessExpression as its body.. + + + + + Looks up a localized string similar to The specified method can not be configured since it can not be intercepted by the current IProxyGenerator.. + + + + + Looks up a localized string similar to The method of the call did not match the method of the recorded call, the recorded sequence is no longer valid.. + + + + + Looks up a localized string similar to No constructor matching the specified arguments was found on the type {0}.. + + + + + Looks up a localized string similar to Can not generate fake object for the class since no usable default constructor was found, specify a constructor call.. + + + + + Looks up a localized string similar to All the recorded calls has been applied, the recorded sequence is no longer valid.. + + + + + Looks up a localized string similar to Only expression of the type ExpressionType.New (constructor calls) are accepted.. + + + + + Looks up a localized string similar to The Now-method on the event raise is not meant to be called directly, only use it to register to an event on a fake object that you want to be raised.. + + + + + Looks up a localized string similar to The number of values for out and ref parameters specified does not match the number of out and ref parameters in the call.. + + + + + Looks up a localized string similar to A scope for ordered assertions is already opened, close that scope before opening another one.. + + + + + Looks up a localized string similar to The specified call is not made on a fake object.. + + + + + Looks up a localized string similar to The current fake proxy generator can not create proxies of the type {0}.. + + + + + Looks up a localized string similar to FakeItEasy was unable to create dummy of type "{0}", register it in the current IFakeObjectContainer to enable this.. + + + + + Looks up a localized string similar to Expected to find call {0} the number of times specified by the predicate '{1}' but found it {2} times among the calls:. + + + + + Looks up a localized string similar to The number of argument names does not match the number of arguments.. + + + + + An exception thrown when an expectation is not met (when asserting on fake object calls). + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + The message. + + + + Initializes a new instance of the class. + + The message. + The inner exception. + + + + Initializes a new instance of the class. + + The that holds the serialized object data about the exception being thrown. + The that contains contextual information about the source or destination. + + The parameter is null. + + + The class name is null or is zero (0). + + + + + Represents a class that can parse a lambda expression + that represents a method or property call. + + + + + Parses the specified expression. + + The expression to parse. + The parsed expression. + + + + Handles the matching of fake object calls to expressions. + + + + + Initializes a new instance of the class. + + The call specification. + The constraint factory. + The method info manager to use. + A parser to use to parse call expressions. + + + + Matches the specified call against the expression. + + The call to match. + True if the call is matched by the expression. + + + + Gets a description of the call. + + Description of the call. + + + + Gets a human readable description of calls that will be matched by this + matcher. + + + + + An implementation of the interface that uses + expressions for evaluating if the rule is applicable to a specific call. + + + + + Initializes a new instance of the class. + + The expression matcher to use. + + + + Returns a that represents this instance. + + + A that represents this instance. + + + + + Handles the instantiation of ExpressionCallRule instance. + + An expression specifying the call. + A rule instance. + + + + Manages breaking call specification expression into their various parts. + + + + + Manages breaking call specification expression into their various parts. + + + + + Gets the fake object an expression is called on. + + The call expression. + The FakeManager instance that manages the faked object the call is made on. + The fakeObjectCall is null. + The specified expression is not an expression where a call is made to a faked object. + + + + Gets the fake object an expression is called on. + + The call expression. + A FakeObject. + The fakeObjectCall is null. + The specified expression is not an expression where a call is made to a faked object. + + + + Provides extension methods for configuring and asserting on faked objects + without going through the static methods of the Fake-class. + + + + + Configures the behavior of the fake object when a call that matches the specified + call happens. + + The type of fake object to configure. + The type of the return value of the member. + The faked object to configure. + An expression that specifies the calls to configure. + A configuration object. + + + + Configures the behavior of the fake object when a call that matches the specified + call happens. + + The faked object to configure. + The type of fake object to configure. + An expression that specifies the calls to configure. + A configuration object. + + + + Configures the behavior of the fake object when a call is made to any method on the + object. + + The type of the fake. + The faked object. + A configuration object. + + + + Provides an extension method for configuring fake objects. + + + + + Gets an object that provides a fluent interface syntax for configuring + the fake object. + + The type of the fake object. + The fake object to configure. + A configuration object. + The fakedObject was null. + The object passed in is not a faked object. + + + + Provides static methods for accessing fake objects. + + + + + Gets the fake object that manages the faked object. + + The faked object to get the manager object for. + The fake object manager. + + + + Creates a new scope and sets it as the current scope. When inside a scope the + getting the calls made to a fake will return only the calls within that scope and when + asserting that calls were made, the calls must have been made within that scope. + + The created scope. + + + + Creates a new scope and sets it as the current scope. When inside a scope the + getting the calls made to a fake will return only the calls within that scope and when + asserting that calls were made, the calls must have been made within that scope. + + The container to use within the specified scope. + The created scope. + + + + Gets a value indicating whether the two objects are equal. + + The first object to compare. + The second object to compare. + True if the two objects are equal. + + + + Gets a value indicating whether the two objects are the same reference. + + The object A. + The object B. + True if the objects are the same reference. + + + + Gets all the calls made to the specified fake object. + + The faked object. + A collection containing the calls to the object. + The object passed in is not a faked object. + + + + Clears the configuration of the faked object. + + The faked object to clear the configuration of. + + + + Sets a new fake to each property or field that is tagged with the FakeAttribute in the specified + fixture. + + The object to initialize. + + + + Represents a fake object that provides an API for configuring a faked object, exposed by the + FakedObject-property. + + The type of the faked object. + + + + Initializes a new instance of the class. + Creates a new fake object. + + + + + Initializes a new instance of the class. + Creates a new fake object using the specified options. + + + Options used to create the fake object. + + + + + Configures calls to the specified member. + + An expression specifying the call to configure. + A configuration object. + + + + Configures calls to the specified member. + + The type of value the member returns. + An expression specifying the call to configure. + A configuration object. + + + + Configures any call to the fake object. + + A configuration object. + + + + Gets the faked object. + + + + + Gets all calls made to the faked object. + + + + + Used to tag fields and properties that will be initialized through the + Fake.Initialize-method. + + + + + Provides the base implementation for the IFakeConfigurator-interface. + + The type of fakes the configurator can configure. + + + + Provides configurations for fake objects of a specific type. + + + + + Applies the configuration for the specified fake object. + + The fake object to configure. + + + + Gets the type the instance provides configuration for. + + + + + Configures the fake. + + The fake object. + + + + Applies the configuration for the specified fake object. + + The fake object to configure. + + + + Asserts the type of the that fake is of correct. + + The fake object. + + + + Gets the type the instance provides configuration for. + + + + + + Provides extension methods for fake objects. + + + + + Specifies NumberOfTimes(1) to the IRepeatConfiguration{TFake}. + + The configuration to set repeat 1 to. + + + + Specifies NumberOfTimes(2) to the IRepeatConfiguration{TFake}. + + The configuration to set repeat 2 to. + + + + Specifies that a call to the configured call should be applied no matter what arguments + are used in the call to the faked object. + + The type of the interface. + The configuration. + A configuration object. + + + + Filters to contain only the calls that matches the call specification. + + The type of fake the call is made on. + The calls to filter. + The call to match on. + A collection of the calls that matches the call specification. + + + + Asserts that the specified call must have happened once or more. + + The configuration to assert on. + + + + Asserts that the specified has not happened. + + The configuration to assert on. + + + + Configures the call to return the next value from the specified sequence each time it's called. Null will + be returned when all the values in the sequence has been returned. + + + The type of return value. + + + The call configuration to extend. + + + The values to return in sequence. + + + + + Specifies the value to return when the configured call is made. + + The type of the return value. + The configuration to extend. + The value to return. + A configuration object. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The type of the return value. + The configuration to extend. + A function that produces the return value. + A configuration object. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The type of the return value. + Type of the first argument of the faked method call. + The configuration to extend. + A function that produces the return value. + A configuration object. + The signatures of the faked method and the do not match. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The configuration to extend. + A function that produces the return value. + The type of the return value. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + A configuration object. + The signatures of the faked method and the do not match. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The configuration to extend. + A function that produces the return value. + The type of the return value. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + A configuration object. + The signatures of the faked method and the do not match. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The configuration to extend. + A function that produces the return value. + The type of the return value. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + Type of the fourth argument of the faked method call. + A configuration object. + The signatures of the faked method and the do not match. + + + + Writes the calls in the collection to the specified text writer. + + The type of the calls. + The calls to write. + The writer to write the calls to. + + + + Writes all calls in the collection to the console. + + The type of the calls. + The calls to write. + + + + Gets the argument at the specified index in the arguments collection + for the call. + + The type of the argument to get. + The call to get the argument from. + The index of the argument. + The value of the argument with the specified index. + + + + Gets the argument with the specified name in the arguments collection + for the call. + + The type of the argument to get. + The call to get the argument from. + The name of the argument. + The value of the argument with the specified name. + + + + Makes the fake strict, this means that any call to the fake + that has not been explicitly configured will throw an exception. + + The type of fake object. + The configuration. + A configuration object. + + + + Applies a predicate to constrain which calls will be considered for interception. + + + The return type of the where method. + + + The configuration object to extend. + + + A predicate for a fake object call. + + to the output. + + The configuration object. + + + + + Executes the specified action when a matching call is being made. This overload can also be used to fake calls with arguments when they don't need to be accessed. + + The type of fake object. + The configuration that is extended. + The to invoke. + The fake object. + + + + Executes the specified action when a matching call is being made. + + The configuration that is extended. + The to invoke. + The type of fake object. + Type of the first argument of the faked method call. + The signatures of the faked method and the do not match. + The fake object. + + + + Executes the specified action when a matching call is being made. + + The configuration that is extended. + The to invoke. + The type of fake object. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + The signatures of the faked method and the do not match. + The fake object. + + + + Executes the specified action when a matching call is being made. + + The configuration that is extended. + The to invoke. + The type of fake object. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + The signatures of the faked method and the do not match. + The fake object. + + + + Executes the specified action when a matching call is being made. + + The configuration that is extended. + The to invoke. + The type of fake object. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + Type of the fourth argument of the faked method call. + The signatures of the faked method and the do not match. + The fake object. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + The exception to throw when a call that matches is invoked. + Configuration object. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Configuration object. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Type of the first argument of the faked method call. + Configuration object. + The signatures of the faked method and the do not match. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Configuration object. + The signatures of the faked method and the do not match. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + Configuration object. + The signatures of the faked method and the do not match. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + Type of the fourth argument of the faked method call. + Configuration object. + The signatures of the faked method and the do not match. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + The type of exception to throw. + Configuration object. + + + + Provides methods for guarding method arguments. + + + + + Throws an exception if the specified argument is null. + + The argument. + Name of the argument. + The specified argument was null. + + + + Gets the value produced by the specified expression when compiled and invoked. + + The expression to get the value from. + The value produced by the expression. + + + + Provides access to the file system. + + + + + Opens the specified file in the specified mode. + + The full path and name of the file to open. + The mode to open the file in. + A stream for reading and writing the file. + + + + Gets a value indicating whether the specified file exists. + + The path and name of the file to check. + True if the file exists. + + + + Creates a file with the specified name. + + The name of the file to create. + + + + A simple implementation of an IoC container. + + + + + The dictionary that stores the registered services. + + + + + Initializes a new instance of the class. + + + + + Resolves an instance of the specified component type. + + Type of the component. + An instance of the component type. + + + + Registers the specified resolver. + + The type of component to register. + The resolver. + + + + Registers the specified resolver as a singleton. + + The type of component to register. + The resolver. + + + + Provides properties and methods to specify repeat. + + + + + Specifies the number of times as repeat. + + The number of times expected. + A Repeated instance. + + + + Specifies once as the repeat. + + + + + Specifies twice as the repeat. + + + + + Lets you specify options for the next call to a fake object. + + + + + Specifies options for the next call to the specified fake object. The next call will + be recorded as a call configuration. + + The type of the faked object. + The faked object to configure. + A call configuration object. + + + + Provides functionality for making ordered assertions on fakes. + + + + + Creates a scope that changes the behavior on asserts so that all asserts within + the scope must be to calls in the specified collection of calls. Calls must have happened + in the order that the asserts are specified or the asserts will fail. + + The calls to assert among. + A disposable used to close the scope. + + + + Provides static methods for the IOutputWriter-interface. + + + + + Writes a new line to the writer. + + The writer to write to. + The writer. + + + + Writes the format string to the writer. + + The writer to write to. + The format string to write. + Replacements for the format string. + The writer. + + + + Writes the specified object to the writer (using the ToString-method of the object). + + The writer to write to. + The value to write to the writer. + The writer. + + + + Allows the developer to raise an event on a faked object. + + + + + Raises an event on a faked object by attaching the event handler produced by the method + to the event that is to be raised. + + The type of the event args. + The sender of the event. + The instance containing the event data. + A Raise(TEventArgs)-object that exposes the event handler to attach. + + + + Raises an event on a faked object by attaching the event handler produced by the method + to the event that is to be raised. + + The type of the event arguments. + The instance containing the event data. + + A Raise(TEventArgs)-object that exposes the event handler to attach. + + + + + Raises an event with empty event arguments on a faked object by attaching the event handler produced by the method + to the event that is to be raised. + + + A Raise(TEventArgs)-object that exposes the event handler to attach. + + + + + A class exposing an event handler to attach to an event of a faked object + in order to raise that event. + + The type of the event args. + + + + Register this event handler to an event on a faked object in order to raise that event. + + The sender of the event. + Event args for the event. + + + + Gets a generic event handler to attach to the event to raise. + + + + + Provides methods for creating recorders for self initializing fakes. + + + + + Gets a recorder that records to and loads calls from the specified file. + + The file to use for recording. + A recorder instance. + + + + Provides syntax for specifying the number of times a call must have been repeated when asserting on + fake object calls. + + A.CallTo(() => foo.Bar()).Assert(Happened.Once.Exactly); + + + + Specifies that a call must have been repeated a number of times + that is validated by the specified repeatValidation argument. + + A predicate that specifies the number of times + a call must have been made. + A Repeated-instance. + + + + When implemented gets a value indicating if the repeat is matched + by the Happened-instance. + + The repeat of a call. + True if the repeat is a match. + + + + Asserts that a call has not happened at all. + + + + + The call must have happened exactly the number of times that is specified in the next step. + + + + + The call must have happened any number of times greater than or equal to the number of times that is specified + in the next step. + + + + + The call must have happened any number of times less than or equal to the number of times that is specified + in the next step. + + + + + Handles the registration of root dependencies in an IoC-container. + + + + + Registers the dependencies. + + The container to register the dependencies in. + + + + DTO for recorded calls. + + + + + Initializes a new instance of the class. + + The method. + The output arguments. + The return value. + + + + Gets the method that was called. + + The method. + + + + Gets the output arguments of the call. + + The output arguments. + + + + Gets the return value of the call. + + The return value. + + + + Represents storage for recorded calls for self initializing + fakes. + + + + + Loads the recorded calls for the specified recording. + + The recorded calls for the recording with the specified id. + + + + Saves the specified calls as the recording with the specified id, + overwriting any previous recording. + + The calls to save. + + + + Initializes a new instance of the class. + + Name of the file. + The file system. + + + + Loads the recorded calls for the specified recording. + + + The recorded calls for the recording with the specified id. + + + + + Saves the specified calls as the recording with the specified id, + overwriting any previous recording. + + The calls to save. + + + + A factory responsible for creating instances of FileStorage. + + The file name of the storage. + A FileStorage instance. + + + + An interface for recorders that provides stored responses for self initializing fakes. + + + + + Applies the call if the call has been recorded. + + The call to apply to from recording. + + + + Records the specified call. + + The call to record. + + + + Gets a value indicating whether the recorder is currently recording. + + + + + An exception that can be thrown when recording for self initialized + fakes fails or when playback fails. + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + The message. + + + + Initializes a new instance of the class. + + The message. + The inner exception. + + + + Initializes a new instance of the class. + + The that holds the serialized object data about the exception being thrown. + The that contains contextual information about the source or destination. + + The parameter is null. + + + The class name is null or is zero (0). + + + + + Manages the applying of recorded calls and recording of new calls when + using self initialized fakes. + + + + + Initializes a new instance of the class. + + The storage. + + + + Applies the call if the call has been recorded. + + The call to apply to from recording. + + + + Records the specified call. + + The call to record. + + + + Saves all recorded calls to the storage. + + + + + Gets a value indicating whether the recorder is currently recording. + + + + + + Represents a factory responsible for creating recording manager + instances. + + The storage the manager should use. + A RecordingManager instance. + + + + A call rule use for self initializing fakes, delegates call to + be applied by the recorder. + + + + + Initializes a new instance of the class. + + The wrapped rule. + The recorder. + + + + Gets whether this interceptor is applicable to the specified + call, if true is returned the Apply-method of the interceptor will + be called. + + The call to check for applicability. + True if the interceptor is applicable. + + + + Applies an action to the call, might set a return value or throw + an exception. + + The call to apply the interceptor to. + + + + Gets the number of times this call rule is valid, if it's set + to null its infinitely valid. + + + + + + An attribute that can be applied to code that should be fixed because there's a + code smell. + + + + + Gets or sets the description of the smell. + + + + + Used to tag fields and properties that will be initialized as a SUT through the Fake.Initialize-method. + + + + diff --git a/packages/FakeItEasy.1.14.0/lib/net40/FakeItEasy.dll b/packages/FakeItEasy.1.14.0/lib/net40/FakeItEasy.dll new file mode 100644 index 0000000..5dba247 Binary files /dev/null and b/packages/FakeItEasy.1.14.0/lib/net40/FakeItEasy.dll differ diff --git a/packages/FakeItEasy.1.11.0/lib/net35/FakeItEasy.xml b/packages/FakeItEasy.1.14.0/lib/net40/FakeItEasy.xml similarity index 97% rename from packages/FakeItEasy.1.11.0/lib/net35/FakeItEasy.xml rename to packages/FakeItEasy.1.14.0/lib/net40/FakeItEasy.xml index 0eff340..4af01eb 100644 --- a/packages/FakeItEasy.1.11.0/lib/net35/FakeItEasy.xml +++ b/packages/FakeItEasy.1.14.0/lib/net40/FakeItEasy.xml @@ -1,3507 +1,3520 @@ - - - - FakeItEasy - - - - - Provides methods for generating fake objects. - - - - - Creates a fake object of the type T. - - The type of fake object to create. - A fake object. - - - - Creates a fake object of the type T. - - The type of fake object to create. - A lambda where options for the built fake object can be specified. - A fake object. - - - - Creates a collection of fakes of the specified type. - - The type of fakes to create. - The number of fakes in the collection. - A collection of fake objects of the specified type. - - - - Gets a dummy object of the specified type. The value of a dummy object - should be irrelevant. Dummy objects should not be configured. - - The type of dummy to return. - A dummy object of the specified type. - Dummies of the specified type can not be created. - - - - Gets a value indicating whether the two objects are equal. - - The first object to compare. - The second object to compare. - True if the two objects are equal. - - - - Gets a value indicating whether the two objects are the same reference. - - The object A. - The object B. - True if the objects are the same reference. - - - - Configures a call to a faked object. - - An expression where the configured member is called. - A configuration object. - - - - Gets a configuration object allowing for further configuration of - any call to the specified faked object. - - - The fake to configure. - - - A configuration object. - - - - - Configures a call to a faked object. - - The type of member on the faked object to configure. - An expression where the configured member is called. - A configuration object. - - - - Provides an API entry point for constraining arguments of fake object calls. - - The type of argument to validate. - - - - Gets an argument constraint object that will be used to constrain a method call argument. - - - - - Gets a constraint that considers any value of an argument as valid. - - This is a shortcut for the "Ignored"-property. - - - - Gets a constraint that considers any value of an argument as valid. - - - - - Provides configuration for any (not a specific) call on a faked object. - - - - - Gets a configuration object allowing for further configuration of - any call to the specified faked object. - - The faked object to configure. - A configuration object. - - - - Gets a value indicating whether the two objects are equal. - - The first object to compare. - The second object to compare. - True if the two objects are equal. - - - - Gets a value indicating whether the two objects are the same reference. - - The object A. - The object B. - True if the objects are the same reference. - - - - A collection of method arguments. - - - - - The arguments this collection contains. - - - - - Initializes a new instance of the class. - - The arguments. - The argument names. - - - - Initializes a new instance of the class. - - The arguments. - The method. - - - - Returns an enumerator that iterates through the collection or arguments. - - - A that can be used to iterate through the collection. - - - - - Gets the argument at the specified index. - - The type of the argument to get. - The index of the argument. - The argument at the specified index. - - - - Gets the argument with the specified name. - - The type of the argument to get. - The name of the argument. - The argument with the specified name. - - - - Gets an empty ArgumentList. - - - - - Gets the number of arguments in the list. - - - - - Gets the names of the arguments in the list. - - - - - Gets the argument at the specified index. - - The index of the argument to get. - The argument at the specified index. - - - - Provides validation extensions for . - - - - - Constrains an argument so that it must be null (Nothing in VB). - - The type of the argument. - The constraint manager to match the constraint. - A dummy argument value. - - - - Constrains the string argument to contain the specified text. - - The constraint manager to match the constraint. - The string the argument string should contain. - A dummy argument value. - - - - Constrains the sequence so that it must contain the specified value. - - The constraint manager to match the constraint. - The value the collection should contain. - The type of sequence. - A dummy argument value. - - - - Constrains the string so that it must start with the specified value. - - The constraint manager to match the constraint. - The value the string should start with. - A dummy argument value. - - - - Constrains the string so that it must end with the specified value. - - The constraint manager to match the constraint. - The value the string should end with. - A dummy argument value. - - - - Constrains the string so that it must be null or empty. - - The constraint manager to match the constraint. - A dummy argument value. - - - - Constrains argument value so that it must be greater than the specified value. - - The constraint manager to match the constraint. - The value the string should start with. - The type of argument to constrain. - A dummy argument value. - - - - The tested argument collection should contain the same elements as the - as the specified collection. - - The constraint manager to match the constraint. - The sequence to test against. - The type of argument to constrain. - A dummy argument value. - - - - Tests that the IEnumerable contains no items. - - The type of argument. - The constraint manager to match the constraint. - A dummy argument value. - - - - Tests that the passed in argument is equal to the specified value. - - The type of the argument. - The constraint manager to match the constraint. - The value to compare to. - A dummy argument value. - - - - Constrains the argument to be of the specified type. - - The type of argument in the method signature. - The constraint manager. - The type to constrain the argument with. - A dummy value. - - - - Constrains the argument with a predicate. - - - The constraint manager. - - - The predicate that should constrain the argument. - - - A human readable description of the constraint. - - - The type of argument in the method signature. - - - A dummy argument value. - - - - - Constrains the argument with a predicate. - - - The constraint manager. - - - The predicate that should constrain the argument. - - - A human readable description of the constraint format string. - - - Arguments for the format string. - - - The type of argument in the method signature. - - - A dummy argument value. - - - - - Constrains the argument with a predicate. - - - The constraint manager. - - - The predicate that should constrain the argument. - - - The type of argument in the method signature. - - - A dummy argument value. - - - - - Constrains the argument to be not null (Nothing in VB) and to match - the specified predicate. - - The type of the argument to constrain. - The constraint manager. - The predicate that constrains non null values. - An action that writes a description of the constraint - to the output. - A dummy argument value. - - - - Provides string formatting for arguments of type T when written in call lists. - - The type of the arguments which will be formatted by this instance. - - - - Provides string formatting for arguments when written in - call lists. - - - - - Gets a string representing the specified argument value. - - The argument value to get as a string. - A string representation of the value. - - - - Gets the type of arguments this formatter works on. - - - - - Gets the priority of the formatter, when two formatters are - registered for the same type the one with the highest - priority is used. - - - - - Gets a string representing the specified argument value. - - The argument value to get as a string. - A string representation of the value. - - - - Gets a string representing the specified argument value. - - The argument value to get as a string. - A string representation of the value. - - - - Gets the type of arguments this formatter works on. - - - - - Gets the priority of the formatter, when two formatters are - registered for the same type the one with the highest - priority is used. - - - - - Provides extension methods for the common uses. - - - - - Replaces the format item in a specified System.String with the text equivalent - of the value of a corresponding System.Object instance in a specified array using - invariant culture as . - - A composite format string. - An array containing zero or more objects to format. - The formatted string. - - - - Gets an enumerable of tuples where the first value of each tuple is a value - from the first collection and the second value of each tuple is the value at the same position - from the second collection. - - The type of values in the first collection. - The type of values in the second collection. - The first of the collections to combine. - The second of the collections to combine. - An enumerable of tuples. - - - - Joins the collection to a string. - - The type of items in the collection. - The items to join. - A function that converts from an item to a string value. - Separator to insert between each item. - A string representation of the collection. - - - - Gets a dictionary containing the first element from the sequence that has a key specified by the key selector. - - The type of items in the sequence. - The type of the key. - The sequence. - The key selector. - A dictionary. - - - - Provides the base for rules that can be built using the FakeConfiguration. - - - - - Represents a call rule that has a description of the calls the - rule is applicable to. - - - - - Allows for intercepting call to a fake object and - act upon them. - - - - - Gets whether this interceptor is applicable to the specified - call, if true is returned the Apply-method of the interceptor will - be called. - - The call to check for applicability. - True if the interceptor is applicable. - - - - Applies an action to the call, might set a return value or throw - an exception. - - The call to apply the interceptor to. - - - - Gets the number of times this call rule is valid, if it's set - to null its infinitely valid. - - - - - Writes a description of calls the rule is applicable to. - - The writer. - - - - Gets if this rule is applicable to the specified call. - - The call to validate. - True if the rule applies to the call. - - - - Writes a description of calls the rule is applicable to. - - The writer to write the description to. - - - - Gets or sets an action that is called by the Apply method to apply this - rule to a fake object call. - - - - - Gets a collection of actions that should be invoked when the configured - call is made. - - - - - Gets or sets values to apply to output and reference variables. - - - - - Gets or sets a value indicating whether the base method of the fake object call should be - called when the fake object call is made. - - - - - Gets or sets the number of times the configured rule should be used. - - - - - Gets a description of calls the rule is applicable to. - - - - - - Configuration for any call to a faked object. - - - - - Provides a way to configure predicates for when a call should be applied. - - The type of fake object that is going to be configured.. - - - - Applies a predicate to constrain which calls will be considered for interception. - - A predicate for a fake object call. - An action that writes a description of the predicate - to the output. - The configuration object. - - - - Provides configuration methods for methods that does not have a return value and - allows the use to specify validations for arguments. - - - - - Provides configuration methods for methods that does not have a return value. - - - - - Configuration that lets the developer specify that an exception should be - thrown by a fake object call. - - - - - Hides standard Object members to make fluent interfaces - easier to read. Found in the source of Autofac: - Based on blog post here: - - - - - - Hides the ToString-method. - - A string representation of the implementing object. - - - - Determines whether the specified is equal to this instance. - - The to compare with this instance. - - true if the specified is equal to this instance; otherwise, false. - - - - - Returns a hash code for this instance. - - - A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. - - - - - Gets the type. - - The exact runtime type of the current instance. - - - - Throws the specified exception when the currently configured - call gets called. - - A function that creates the exception to throw. - Configuration object. - - - - Configuration for callbacks of fake object calls. - - The type of interface to return. - - - - Executes the specified action when a matching call is being made. - - The action to invoke. - A configuration object. - - - - Configuration that lets you specify that a fake object call should call it's base method. - - - - - When the configured method or methods are called the call - will be delegated to the base method of the faked method. - - A configuration object. - The fake object is of an abstract type or an interface - and no base method exists. - - - - Lets the developer configure output values of out and ref parameters. - - - - - Specifies output values for out and ref parameters. Specify the values in the order - the ref and out parameters has in the configured call, any non out and ref parameters are ignored. - - The values. - A configuration object. - - - - Allows the developer to assert on a call that's configured. - - - - - Asserts that the configured call has happened the number of times - constrained by the repeatConstraint parameter. - - A constraint for how many times the call - must have happened. - The call has not been called a number of times - that passes the repeat constraint. - - - - Configures the specified call to do nothing when called. - - A configuration object. - - - - Provides configurations to validate arguments of a fake object call. - - The type of interface to return. - - - - Configures the call to be accepted when the specified predicate returns true. - - The argument predicate. - A configuration object. - - - - Matches calls that has the return type specified in the generic type parameter. - - The return type of the members to configure. - A configuration object. - - - - Manages registration of a set of components in a DictionaryContainer. - - - - - Registers the components of this module. - - The container to register components in. - - - - A factory that creates instances of the RecordingCallRuleType. - - - - - Creates the specified fake object. - - The type of the fake. - The fake object the rule belongs to. - The rule that's being recorded. - A RecordingCallRule instance. - - - - A factory responsible for creating start configuration for fake objects. - - - - - Creates a start configuration for the specified fake object that fakes the - specified type. - - The type of the fake object. - The fake object to configure. - A configuration object. - - - - An exception that can be thrown when something goes wrong with the configuration - of a fake object. - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - The message. - - - - Initializes a new instance of the class. - - The message. - The inner exception. - - - - Initializes a new instance of the class. - - The that holds the serialized object data about the exception being thrown. - The that contains contextual information about the source or destination. - - The parameter is null. - - - The class name is null or is zero (0). - - - - - Handles the configuration of fake object given an expression specifying - a call on a faked object. - - - - - Lets you set up expectations and configure repeat for the configured call. - - - - - Provides configuration for method calls that has a return value. - - - - - Specifies the number of times for the configured event. - - The number of times to repeat. - - - - A combination of the IAfterCallSpecifiedConfiguration and IOutAndRefParametersConfiguration - interfaces. - - - - - Aggregate of IReturnValueArgumentValidationConfiguration<T> and IWhereConfiguration<IAnyCallConfigurationWithReturnTypeSpecified<T>>. - - The type of fake object that is configured. - - - - Configures a call that returns a value and allows the use to - specify validations for arguments. - - The type of the member. - - - - Configures a call that returns a value. - - The type of the member. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - A function that produces the return value. - A configuration object. - - - - Configurations for when a configured call is recorded. - - - - - Provides configuration from VisualBasic. - - - - - Provides methods for configuring a fake object. - - The type of fake object. - - - - Configures the behavior of the fake object when a call that matches the specified - call happens. - - The type of the return value of the member. - An expression that specifies the calls to configure. - A configuration object. - - - - Configures the behavior of the fake object when a call that matches the specified - call happens. - - An expression that specifies the calls to configure. - A configuration object. - - - - Configures the behavior of the fake object when a call is made to any method on the - object. - - A configuration object. - - - - A call rule that has been recorded. - - - - - A call rule that "sits and waits" for the next call, when - that call occurs the recorded rule is added for that call. - - The type of the fake. - - - - Provides access to a set of calls and a call matcher for these calls. - - - - - Provides access to a call matcher. - - - - - Gets a call predicate that can be used to check if a fake object call matches - the specified constraint. - - - - - Gets the set of calls. - - - - - Represents a delegate that creates a configuration object from - a fake object and the rule to build. - - The rule that's being built. - The fake object the rule is for. - A configuration object. - - - - Represents a predicate that matches a fake object call. - - - - - Gets a value indicating whether the call matches the predicate. - - The call to match. - True if the call matches the predicate. - - - - Provides configuration of faked objects. - - - - - Gets a configuration for the specified faked object. - - The type of the fake. - The faked object to configure. - A configuration object. - The specified object is not a faked object. - The fakedObject parameter was null. - - - - Access all types in all assemblies in the same directory as the FakeItEasy assembly. - - - - - Provides a set of types that are available. - - - - - Gets a collection of available types. - - The available types. - - - - Initializes a new instance of the class. - - - - - Gets a collection of available types. - - The available types. - - - - Represents an argument and a dummy value to use for that argument. - - - - - Initializes a new instance of the class. - - A value indicating if the dummy value was successfully resolved. - The type of argument. - The resolved value. - - - - Gets a value indicating whether a dummy argument value was successfully - resolved. - - - - - Gets the type of the argument. - - - - - Gets the resolved value. - - - - - Represents an event that happens when a call has been intercepted by a proxy. - - - - - Initializes a new instance of the class. - - The call. - - - - Gets the call that was intercepted. - - The call. - - - - Keeps track of metadata for interceptions. - - - - - Gets whether the rule has been called the number of times specified or not. - - True if the rule has not been called the number of times specified. - - - - Gets or sets the number of times the rule has been used. - - - - - Gets or sets the rule this metadata object is tracking. - - - - - Manages attaching of argument constraints. - - The type of argument to constrain. - - - - Constrains the argument with a predicate. - - The predicate that should constrain the argument. - An action that will be write a description of the constraint. - A dummy argument value. - - - - Inverts the logic of the matches method. - - - - - Validates an argument, checks that it's valid in a specific fake call. - - - - - Writes a description of the argument constraint to the specified writer. - - - The writer. - - - - - Gets whether the argument is valid. - - The argument to validate. - True if the argument is valid. - - - - Default implementation of . - - - - - Attaches a fake manager to the proxy so that intercepted - calls can be configured. - - - - - Attaches a to the specified proxy, listening to - the event raiser. - - The type of the fake object proxy. - The proxy to attach to. - The event raiser to listen to. - - - - Gets the fake manager associated with the proxy. - - The proxy to get the manager from. - A fake manager. - - - - Attaches a to the specified proxy, listening to - the event raiser. - - The type of the fake object proxy. - The proxy to attach to. - The event raiser to listen to. - - - - Gets the fake manager associated with the proxy. - - The proxy to get the manager from. - A fake manager. - - - - Represents an object that can be tagged with another object. When implemented - by a proxy returned from an FakeItEasy uses the tag - to store a reference to the that handles that proxy. - - - - - Gets or sets the tag. - - - - - The default implementation of the IFakeObjectCallFormatter interface. - - - - - Provides string formatting for fake object calls. - - - - - Gets a human readable description of the specified - fake object call. - - The call to get a description for. - A description of the call. - - - - Gets a human readable description of the specified - fake object call. - - The call to get a description for. - A description of the call. - - - - Handles configuring of fake objects to delegate all their calls to a wrapped instance. - - - - - Manages configuration of fake objects to wrap instances. - - - - - Configures the specified faked object to wrap the specified instance. - - The faked object to configure. - The instance to wrap. - The recorder to use, null if no recording should be made. - - - - Configures the specified faked object to wrap the specified instance. - - The faked object to configure. - The instance to wrap. - The recorder to use, null if no recording should be made. - - - - A fake object container where delegates can be registered that are used to - resolve fake objects. - - - - - A container that can create fake objects. - - - - - Handles global configuration of fake object. - - - - - Applies base configuration to a fake object. - - The type the fake object represents. - The fake object to configure. - - - - Creates a dummy object of the specified type using the specified arguments if it's - supported by the container, returns a value indicating if it's supported or not. - - The type of dummy object to create. - The dummy object that was created if the method returns true. - True if a dummy object can be created. - - - - Initializes a new instance of the class. - Creates a new instance of the DelegateFakeObjectContainer. - - - - - Creates a fake object of the specified type using the specified arguments if it's - supported by the container, returns a value indicating if it's supported or not. - - The type of dummy object to create. - The fake object that was created if the method returns true. - True if a fake object can be created. - - - - Configures the fake. - - The type of fake. - The fake object. - - - - Registers the specified fake delegate. - - The type of the return value of the method that encapsulates. - The fake delegate. - - - - A IFakeObjectContainer implementation that uses MEF to load IFakeDefinitions and - IFakeConfigurations. - - - - - Initializes a new instance of the class. - - The dummy definitions. - The fake configurators. - - - - Creates a fake object of the specified type using the specified arguments if it's - supported by the container, returns a value indicating if it's supported or not. - - The type of fake object to create. - The fake object that was created if the method returns true. - True if a fake object can be created. - - - - Applies base configuration to a fake object. - - The type the fake object represents. - The fake object to configure. - - - - An exception that is thrown when there was an error creating a fake object. - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - The message. - - - - Initializes a new instance of the class. - - The message. - The inner exception. - - - - Initializes a new instance of the class. - - The that holds the serialized object data about the exception being thrown. - The that contains contextual information about the source or destination. - - The parameter is null. - - - The class name is null or is zero (0). - - - - Auto fake property rule. - - The central point in the API for proxied fake objects handles interception - of fake object calls by using a set of rules. User defined rules can be inserted - by using the AddRule-method. - - Event rule. - Object member rule. - Property behavior rule. - Property setter rule. - - - - Initializes a new instance of the class. - - - - - Adds a call rule to the fake object. - - The rule to add. - - - - Adds a call rule last in the list of user rules, meaning it has the lowest priority possible. - - The rule to add. - - - - Removes the specified rule for the fake object. - - The rule to remove. - - - - Adds an interception listener to the manager. - - The listener to add. - - - - Removes any specified user rules. - - - - - Gets the faked object. - - - - - Gets the faked type. - - - - - Gets the interceptions that are currently registered with the fake object. - - - - - Gets a collection of all the calls made to the fake object within the current scope. - - - - - A delegate responsible for creating FakeObject instances. - - An instance of . - - - - Represents a call to a fake object at interception time. - - - - - Represents a fake object call that can be edited. - - - - - Represents a call to a fake object. - - - - - Gets the method that's called. - - - - - Gets the arguments used in the call. - - - - - Gets the faked object the call is performed on. - - - - - Sets the return value of the call. - - The return value to set. - - - - Calls the base method of the faked type. - - - - - Sets the value of the argument at the specified index in the parameters list. - - The index of the argument to set the value of. - The value to set to the argument. - - - - Freezes the call so that it can no longer be modified. - - A completed fake object call. - - - - Sets that the call should not be recorded by the fake manager. - - - - - Represents a scope for fake objects, calls configured within a scope - are only valid within that scope. Only calls made within a scope - are accessible from within a scope so for example asserts will only - assert on those calls done within the scope. - - - - - Provides access to all calls made to fake objects within a scope. - Scopes calls so that only calls made within the scope are visible. - - - - - Creates a new scope and sets it as the current scope. - - The created scope. - - - - Creates a new scope and sets it as the current scope, using the specified - container as the container for the new scope. - - The container to use for the new scope. - The created scope. - - - - Closes the scope. - - - - - Adds an intercepted call to the current scope. - - The fake object. - The call that is intercepted. - - - - Adds a fake object call to the current scope. - - The fake object. - The rule to add. - - - - Represents a completed call to a fake object. - - - - - Gets the value set to be returned from the call. - - - - - Used by the event raising rule of fake objects to get the event arguments used in - a call to Raise.With. - - - - - Gets the sender of the event. - - - - - Gets the event arguments of the event. - - - - - Represents a listener for fake object calls, can be plugged into a - FakeManager instance to listen to all intercepted calls. - - The OnBeforeCallIntercepted method will be invoked before the OnBeforeCallIntercepted method of any - previously added listener. The OnAfterCallIntercepted method will be invoked after the OnAfterCallIntercepted - method of any previously added listener. - - - - Called when the interception begins but before any call rules - has been applied. - - The intercepted call. - - - - Called when the interception has been completed and rules has been - applied. - - The intercepted call. - The rule that was applied to the call. - - - - Handles comparisons of instances of . - - - - - Gets a value indicating whether the two instances of would invoke the same method - if invoked on an instance of the target type. - - The type of target for invocation. - The first . - The second . - True if the same method would be invoked. - - - - A null implementation for the IFakeObjectContainer interface. - - - - - Always returns false and sets the fakeObject to null. - - The type of dummy object to create. - Output variable for the fake object that will always be set to null. - Always return false. - - - - Applies base configuration to a fake object. - - The type the fake object represents. - The fake object to configure. - - - - Provides instances from type catalogues. - - - - - Gets an instance per type in the catalogue that is a descendant - of the specified type. - - The type of instances to get. - A sequence of instances of the specified type. - - - - A call rule that applies to any call and just delegates the - call to the wrapped object. - - - - - Initializes a new instance of the class. - Creates a new instance. - - - The object to wrap. - - - - - Gets whether this interceptor is applicable to the specified - call, if true is returned the Apply-method of the interceptor will - be called. - - The call to check for applicability. - True if the interceptor is applicable. - - - - Applies an action to the call, might set a return value or throw - an exception. - - The call to apply the interceptor to. - - - - Gets the number of times this call rule is valid, if it's set - to null its infinitely valid. - - - - - - An interface to be implemented by classes that can generate proxies for FakeItEasy. - - - - - Generates a proxy of the specified type and returns a result object containing information - about the success of the generation and the proxy if it was generated. - - The type of proxy to generate. - Interfaces to be implemented by the proxy. - Arguments to pass to the constructor of the type in . - The custom attribute builders. - A result containing the generated proxy. - - - - Generates a proxy of the specified type and returns a result object containing information - about the success of the generation and the proxy if it was generated. - - The type of proxy to generate. - Interfaces to be implemented by the proxy. - Arguments to pass to the constructor of the type in . - A result containing the generated proxy. - - - - Gets a value indicating whether the specified member can be intercepted by the proxy generator. - - The member to test. - The instance the method will be called on. - The reason the method can not be intercepted. - True if the member can be intercepted. - - - - An object that raises an event every time a call to a proxy has been intercepted. - - - - - Raised when a call is intercepted. - - - - - An adapter that adapts an to a . - - - - - Initializes a new instance of the class. - - The invocation. - - - - Freezes the call so that it can no longer be modified. - - A completed fake object call. - - - - Calls the base method, should not be used with interface types. - - - - - Sets the specified value to the argument at the specified index. - - The index of the argument to set the value to. - The value to set to the argument. - - - - Sets the return value of the call. - - The return value. - - - - Returns a description of the call. - - - A that represents this instance. - - - - - Gets a human readable description of the call. - - - - - - Gets the value set to be returned from the call. - - - - - Gets the method that's called. - - - - - Gets the arguments used in the call. - - - - - Gets the faked object the call is performed on. - - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to No constructor matches the passed arguments for constructor.. - - - - - Looks up a localized string similar to Arguments for constructor specified for interface type.. - - - - - Looks up a localized string similar to The type of proxy "{0}" is sealed.. - - - - - Looks up a localized string similar to The type of proxy must be an interface or a class but it was {0}.. - - - - - Looks up a localized string similar to No default constructor was found on the type {0}.. - - - - - The default implementation of the IFakeAndDummyManager interface. - - - - - Handles the creation of fake and dummy objects. - - - - - Creates a dummy of the specified type. - - The type of dummy to create. - The created dummy. - The current IProxyGenerator is not able to generate a fake of the specified type and - the current IFakeObjectContainer does not contain the specified type. - - - - Creates a fake object of the specified type. - - The type of fake object to generate. - Options for building the fake object. - A fake object. - The current IProxyGenerator is not able to generate a fake of the specified type. - - - - Tries to create a dummy of the specified type. - - The type of dummy to create. - Outputs the result dummy when creation is successful. - A value indicating whether the creation was successful. - - - - Tries to create a fake object of the specified type. - - The type of fake to create. - Options for the creation of the fake. - The created fake object when creation is successful. - A value indicating whether the creation was successful. - - - - Default implementation of the IFakeCreator-interface. - - - - - A facade used by the public API for testability. - - - - - Creates a fake object of the specified type. - - The type of fake to create. - Options for the created fake object. - The created fake object. - Was unable to generate the fake in the current configuration. - - - - Creates a dummy object, this can be a fake object or an object resolved - from the current IFakeObjectContainer. - - The type of dummy to create. - The created dummy. - Was unable to generate the fake in the current configuration and - no dummy was registered in the container for the specified type.. - - - - Creates a collection of fakes of the specified type. - - The type of fakes to create. - The number of fakes in the collection. - A collection of fake objects of the specified type. - - - - Initializes a new instance of the class. - - The fake and dummy manager. - - - - Creates a fake object of the specified type. - - The type of fake to create. - Options for the created fake object. - The created fake object. - Was unable to generate the fake in the current configuration. - - - - Creates a collection of fakes of the specified type. - - The type of fakes to create. - The number of fakes in the collection. - - A collection of fake objects of the specified type. - - - - - Creates a dummy object, this can be a fake object or an object resolved - from the current IFakeObjectContainer. - - The type of dummy to create. - The created dummy. - Was unable to generate the fake in the current configuration and - no dummy was registered in the container for the specified type.. - - - - Provides options for fake wrappers. - - The type of the fake object generated. - - - - Provides options for generating fake object. - - The type of fake object generated. - - - - Specifies arguments for the constructor of the faked class. - - The arguments to pass to the constructor of the faked class. - Options object. - - - - Specifies arguments for the constructor of the faked class by giving an expression with the call to - the desired constructor using the arguments to be passed to the constructor. - - The constructor call to use when creating a class proxy. - Options object. - - - - Specifies that the fake should delegate calls to the specified instance. - - The object to delegate calls to. - Options object. - - - - Specifies that the fake should be created with these additional attributes. - - The attributes to build into the proxy. - Options object. - - - - Sets up the fake to implement the specified interface in addition to the - originally faked class. - - The type of interface to implement. - Options object. - The specified type is not an interface. - The specified type is null. - - - - Specifies an action that should be run over the fake object - once it's created. - - An action to perform. - Options object. - - - - Specifies a fake recorder to use. - - The recorder to use. - Options object. - - - - Initializes a new instance of the class. - - The container. - The fake object creator. - - - - Contains the result of a call to TryCreateProxy of IProxyGenerator. - - - - - Initializes a new instance of the class. - Creates a new instance representing a failed proxy - generation attempt. - - - The reason the proxy generation failed. - - - - - Initializes a new instance of the class. - Creates a new instance representing a successful proxy - generation. - - - The proxy that was generated. - - - An event raiser that raises - events when calls are intercepted to the proxy. - - - - - Gets a value indicating whether the proxy was successfully created. - - - - - Gets the generated proxy when it was successfully created. - - - - - Gets the event raiser that raises events when calls to the proxy are - intercepted. - - - - - Gets the reason for failure when the generation was not successful. - - - - - Represents a text writer that writes to the output. - - - - - Writes the specified value to the output. - - The value to write. - The writer for method chaining. - - - - Formats the specified argument value as a string and writes - it to the output. - - The value to write. - The writer for method chaining. - - - - Indents the writer. - - A disposable that will unindent the writer when disposed. - - - - Represents a definition of how a fake object of the type T should - be created. - - The type of fake. - - - - Represents a definition of how dummies of the specified type should be created. - - - - - Creates the fake. - - The fake object. - - - - Gets the type of fake object the definition is for. - - - - - Creates the dummy. - - The dummy object. - - - - Creates the dummy. - - The dummy object. - - - - Gets the type the definition is for. - - For type. - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to The Apply method of the ExpressionInterceptor may no be called before the Applicator property has been set.. - - - - - Looks up a localized string similar to The specified argument name does not exist in the ArgumentList.. - - - - - Looks up a localized string similar to Arguments for constructor was specified when generating proxy of interface type.. - - - - - Looks up a localized string similar to An argument validation was not configured correctly.. - - - - - Looks up a localized string similar to The method '{0}' was called too few times, expected #{1} times but was called #{2} times.. - - - - - Looks up a localized string similar to The method '{0}' was called too many times, expected #{1} times but was called #{2} times.. - - - - - Looks up a localized string similar to Can not create fake of the type '{0}', it's not registered in the current container and the current IProxyGenerator can not generate the fake. - - The following constructors failed: - {1}. - - - - - Looks up a localized string similar to Error when accessing FakeObject, the specified argument is of the type '{0}' which is not faked.. - - - - - Looks up a localized string similar to An ExpressionCallMatcher can only be created for expressions that represents a method call or a property getter.. - - - - - Looks up a localized string similar to - - The current proxy generator failed to create a proxy with the specified arguments for the constructor: - - Reason for failure: - - {0} - - . - - - - - Looks up a localized string similar to FakeItEasy failed to create fake object of type "{0}". - - 1. The type is not registered in the current IFakeObjectContainer. - 2. The current IProxyGenerator failed to generate a proxy for the following reason: - - {1}. - - - - - Looks up a localized string similar to Unable to create fake object.. - - - - - Looks up a localized string similar to Only abstract classes can be faked using the A.Fake-method that takes an enumerable of objects as arguments for constructor, use the overload that takes an expression instead.. - - - - - Looks up a localized string similar to The member accessor expression must be a lambda expression with a MethodCallExpression or MemberAccessExpression as its body.. - - - - - Looks up a localized string similar to The specified method can not be configured since it can not be intercepted by the current IProxyGenerator.. - - - - - Looks up a localized string similar to The method of the call did not match the method of the recorded call, the recorded sequence is no longer valid.. - - - - - Looks up a localized string similar to No constructor matching the specified arguments was found on the type {0}.. - - - - - Looks up a localized string similar to Can not generate fake object for the class since no default constructor was found, specify a constructor call.. - - - - - Looks up a localized string similar to All the recorded calls has been applied, the recorded sequence is no longer valid.. - - - - - Looks up a localized string similar to Only expression of the type ExpressionType.New (constructor calls) are accepted.. - - - - - Looks up a localized string similar to The Now-method on the event raise is not meant to be called directly, only use it to register to an event on a fake object that you want to be raised.. - - - - - Looks up a localized string similar to The number of values for out and ref parameters specified does not match the number of out and ref parameters in the call.. - - - - - Looks up a localized string similar to A scope for ordered assertions is already opened, close that scope before opening another one.. - - - - - Looks up a localized string similar to The specified call is not made on a fake object.. - - - - - Looks up a localized string similar to The current fake proxy generator can not create proxies of the type {0}.. - - - - - Looks up a localized string similar to FakeItEasy was unable to create dummy of type "{0}", register it in the current IFakeObjectContainer to enable this.. - - - - - Looks up a localized string similar to Expected to find call {0} the number of times specified by the predicate '{1}' but found it {2} times among the calls:. - - - - - Looks up a localized string similar to The number of argument names does not match the number of arguments.. - - - - - An exception thrown when an expectation is not met (when asserting on fake object calls). - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - The message. - - - - Initializes a new instance of the class. - - The message. - The inner exception. - - - - Initializes a new instance of the class. - - The that holds the serialized object data about the exception being thrown. - The that contains contextual information about the source or destination. - - The parameter is null. - - - The class name is null or is zero (0). - - - - - Represents a class that can parse a lambda expression - that represents a method or property call. - - - - - Parses the specified expression. - - The expression to parse. - The parsed expression. - - - - Handles the matching of fake object calls to expressions. - - - - - Initializes a new instance of the class. - - The call specification. - The constraint factory. - The method info manager to use. - A parser to use to parse call expressions. - - - - Matches the specified call against the expression. - - The call to match. - True if the call is matched by the expression. - - - - Gets a description of the call. - - Description of the call. - - - - Gets a human readable description of calls that will be matched by this - matcher. - - - - - An implementation of the interface that uses - expressions for evaluating if the rule is applicable to a specific call. - - - - - Initializes a new instance of the class. - - The expression matcher to use. - - - - Returns a that represents this instance. - - - A that represents this instance. - - - - - Handles the instantiation of ExpressionCallRule instance. - - An expression specifying the call. - A rule instance. - - - - Manages breaking call specification expression into their various parts. - - - - - Manages breaking call specification expression into their various parts. - - - - - Gets the fake object an expression is called on. - - The call expression. - The FakeManager instance that manages the faked object the call is made on. - The fakeObjectCall is null. - The specified expression is not an expression where a call is made to a faked object. - - - - Gets the fake object an expression is called on. - - The call expression. - A FakeObject. - The fakeObjectCall is null. - The specified expression is not an expression where a call is made to a faked object. - - - - Provides extension methods for configuring and asserting on faked objects - without going through the static methods of the Fake-class. - - - - - Configures the behavior of the fake object when a call that matches the specified - call happens. - - The type of fake object to configure. - The type of the return value of the member. - The faked object to configure. - An expression that specifies the calls to configure. - A configuration object. - - - - Configures the behavior of the fake object when a call that matches the specified - call happens. - - The faked object to configure. - The type of fake object to configure. - An expression that specifies the calls to configure. - A configuration object. - - - - Configures the behavior of the fake object when a call is made to any method on the - object. - - The type of the fake. - The faked object. - A configuration object. - - - - Provides an extension method for configuring fake objects. - - - - - Gets an object that provides a fluent interface syntax for configuring - the fake object. - - The type of the fake object. - The fake object to configure. - A configuration object. - The fakedObject was null. - The object passed in is not a faked object. - - - - Provides static methods for accessing fake objects. - - - - - Gets the fake object that manages the faked object. - - The faked object to get the manager object for. - The fake object manager. - - - - Creates a new scope and sets it as the current scope. When inside a scope the - getting the calls made to a fake will return only the calls within that scope and when - asserting that calls were made, the calls must have been made within that scope. - - The created scope. - - - - Creates a new scope and sets it as the current scope. When inside a scope the - getting the calls made to a fake will return only the calls within that scope and when - asserting that calls were made, the calls must have been made within that scope. - - The container to use within the specified scope. - The created scope. - - - - Gets a value indicating whether the two objects are equal. - - The first object to compare. - The second object to compare. - True if the two objects are equal. - - - - Gets a value indicating whether the two objects are the same reference. - - The object A. - The object B. - True if the objects are the same reference. - - - - Gets all the calls made to the specified fake object. - - The faked object. - A collection containing the calls to the object. - The object passed in is not a faked object. - - - - Clears the configuration of the faked object. - - The faked object to clear the configuration of. - - - - Sets a new fake to each property or field that is tagged with the FakeAttribute in the specified - fixture. - - The object to initialize. - - - - Represents a fake object that provides an API for configuring a faked object, exposed by the - FakedObject-property. - - The type of the faked object. - - - - Initializes a new instance of the class. - Creates a new fake object. - - - - - Initializes a new instance of the class. - Creates a new fake object using the specified options. - - - Options used to create the fake object. - - - - - Configures calls to the specified member. - - An expression specifying the call to configure. - A configuration object. - - - - Configures calls to the specified member. - - The type of value the member returns. - An expression specifying the call to configure. - A configuration object. - - - - Configures any call to the fake object. - - A configuration object. - - - - Gets the faked object. - - - - - Gets all calls made to the faked object. - - - - - Used to tag fields and properties that will be initialized through the - Fake.Initialize-method. - - - - - Provides the base implementation for the IFakeConfigurator-interface. - - The type of fakes the configurator can configure. - - - - Provides configurations for fake objects of a specific type. - - - - - Applies the configuration for the specified fake object. - - The fake object to configure. - - - - Gets the type the instance provides configuration for. - - - - - Configures the fake. - - The fake object. - - - - Applies the configuration for the specified fake object. - - The fake object to configure. - - - - Asserts the type of the that fake is of correct. - - The fake object. - - - - Gets the type the instance provides configuration for. - - - - - - Provides extension methods for fake objects. - - - - - Specifies NumberOfTimes(1) to the IRepeatConfiguration{TFake}. - - The configuration to set repeat 1 to. - - - - Specifies NumberOfTimes(2) to the IRepeatConfiguration{TFake}. - - The configuration to set repeat 2 to. - - - - Specifies that a call to the configured call should be applied no matter what arguments - are used in the call to the faked object. - - The type of the interface. - The configuration. - A configuration object. - - - - Filters to contain only the calls that matches the call specification. - - The type of fake the call is made on. - The calls to filter. - The call to match on. - A collection of the calls that matches the call specification. - - - - Asserts that the specified call must have happened once or more. - - The configuration to assert on. - - - - Asserts that the specified has not happened. - - The configuration to assert on. - - - - Configures the call to return the next value from the specified sequence each time it's called. Null will - be returned when all the values in the sequence has been returned. - - - The type of return value. - - - The call configuration to extend. - - - The values to return in sequence. - - - - - Specifies the value to return when the configured call is made. - - The type of the return value. - The configuration to extend. - The value to return. - A configuration object. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The type of the return value. - The configuration to extend. - A function that produces the return value. - A configuration object. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The type of the return value. - Type of the first argument of the faked method call. - The configuration to extend. - A function that produces the return value. - A configuration object. - The signatures of the faked method and the do not match. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The configuration to extend. - A function that produces the return value. - The type of the return value. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - A configuration object. - The signatures of the faked method and the do not match. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The configuration to extend. - A function that produces the return value. - The type of the return value. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - A configuration object. - The signatures of the faked method and the do not match. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The configuration to extend. - A function that produces the return value. - The type of the return value. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - Type of the fourth argument of the faked method call. - A configuration object. - The signatures of the faked method and the do not match. - - - - Writes the calls in the collection to the specified text writer. - - The type of the calls. - The calls to write. - The writer to write the calls to. - - - - Writes all calls in the collection to the console. - - The type of the calls. - The calls to write. - - - - Gets the argument at the specified index in the arguments collection - for the call. - - The type of the argument to get. - The call to get the argument from. - The index of the argument. - The value of the argument with the specified index. - - - - Gets the argument with the specified name in the arguments collection - for the call. - - The type of the argument to get. - The call to get the argument from. - The name of the argument. - The value of the argument with the specified name. - - - - Makes the fake strict, this means that any call to the fake - that has not been explicitly configured will throw an exception. - - The type of fake object. - The configuration. - A configuration object. - - - - Applies a predicate to constrain which calls will be considered for interception. - - - The return type of the where method. - - - The configuration object to extend. - - - A predicate for a fake object call. - - to the output. - - The configuration object. - - - - - Executes the specified action when a matching call is being made. This overload can also be used to fake calls with arguments when they don't need to be accessed. - - The type of fake object. - The configuration that is extended. - The to invoke. - The fake object. - - - - Executes the specified action when a matching call is being made. - - The configuration that is extended. - The to invoke. - The type of fake object. - Type of the first argument of the faked method call. - The signatures of the faked method and the do not match. - The fake object. - - - - Executes the specified action when a matching call is being made. - - The configuration that is extended. - The to invoke. - The type of fake object. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - The signatures of the faked method and the do not match. - The fake object. - - - - Executes the specified action when a matching call is being made. - - The configuration that is extended. - The to invoke. - The type of fake object. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - The signatures of the faked method and the do not match. - The fake object. - - - - Executes the specified action when a matching call is being made. - - The configuration that is extended. - The to invoke. - The type of fake object. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - Type of the fourth argument of the faked method call. - The signatures of the faked method and the do not match. - The fake object. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - The exception to throw when a call that matches is invoked. - Configuration object. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Configuration object. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Type of the first argument of the faked method call. - Configuration object. - The signatures of the faked method and the do not match. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Configuration object. - The signatures of the faked method and the do not match. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - Configuration object. - The signatures of the faked method and the do not match. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - Type of the fourth argument of the faked method call. - Configuration object. - The signatures of the faked method and the do not match. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - The type of exception to throw. - Configuration object. - - - - Provides methods for guarding method arguments. - - - - - Throws an exception if the specified argument is null. - - The argument. - Name of the argument. - The specified argument was null. - - - - Gets the value produced by the specified expression when compiled and invoked. - - The expression to get the value from. - The value produced by the expression. - - - - Provides access to the file system. - - - - - Opens the specified file in the specified mode. - - The full path and name of the file to open. - The mode to open the file in. - A stream for reading and writing the file. - - - - Gets a value indicating whether the specified file exists. - - The path and name of the file to check. - True if the file exists. - - - - Creates a file with the specified name. - - The name of the file to create. - - - - A simple implementation of an IoC container. - - - - - The dictionary that stores the registered services. - - - - - Initializes a new instance of the class. - - - - - Resolves an instance of the specified component type. - - Type of the component. - An instance of the component type. - - - - Registers the specified resolver. - - The type of component to register. - The resolver. - - - - Registers the specified resolver as a singleton. - - The type of component to register. - The resolver. - - - - Provides properties and methods to specify repeat. - - - - - Specifies the number of times as repeat. - - The number of times expected. - A Repeated instance. - - - - Specifies once as the repeat. - - - - - Specifies twice as the repeat. - - - - - Lets you specify options for the next call to a fake object. - - - - - Specifies options for the next call to the specified fake object. The next call will - be recorded as a call configuration. - - The type of the faked object. - The faked object to configure. - A call configuration object. - - - - Provides functionality for making ordered assertions on fakes. - - - - - Creates a scope that changes the behavior on asserts so that all asserts within - the scope must be to calls in the specified collection of calls. Calls must have happened - in the order that the asserts are specified or the asserts will fail. - - The calls to assert among. - A disposable used to close the scope. - - - - Provides static methods for the IOutputWriter-interface. - - - - - Writes a new line to the writer. - - The writer to write to. - The writer. - - - - Writes the format string to the writer. - - The writer to write to. - The format string to write. - Replacements for the format string. - The writer. - - - - Writes the specified object to the writer (using the ToString-method of the object). - - The writer to write to. - The value to write to the writer. - The writer. - - - - Allows the developer to raise an event on a faked object. - - - - - Raises an event on a faked object by attaching the event handler produced by the method - to the event that is to be raised. - - The type of the event args. - The sender of the event. - The instance containing the event data. - A Raise(TEventArgs)-object that exposes the event handler to attach. - - - - Raises an event on a faked object by attaching the event handler produced by the method - to the event that is to be raised. - - The type of the event arguments. - The instance containing the event data. - - A Raise(TEventArgs)-object that exposes the event handler to attach. - - - - - Raises an event with empty event arguments on a faked object by attaching the event handler produced by the method - to the event that is to be raised. - - - A Raise(TEventArgs)-object that exposes the event handler to attach. - - - - - A class exposing an event handler to attach to an event of a faked object - in order to raise that event. - - The type of the event args. - - - - Register this event handler to an event on a faked object in order to raise that event. - - The sender of the event. - Event args for the event. - - - - Gets a generic event handler to attach to the event to raise. - - - - - Provides methods for creating recorders for self initializing fakes. - - - - - Gets a recorder that records to and loads calls from the specified file. - - The file to use for recording. - A recorder instance. - - - - Provides syntax for specifying the number of times a call must have been repeated when asserting on - fake object calls. - - A.CallTo(() => foo.Bar()).Assert(Happened.Once.Exactly); - - - - Specifies that a call must have been repeated a number of times - that is validated by the specified repeatValidation argument. - - A predicate that specifies the number of times - a call must have been made. - A Repeated-instance. - - - - When implemented gets a value indicating if the repeat is matched - by the Happened-instance. - - The repeat of a call. - True if the repeat is a match. - - - - Asserts that a call has not happened at all. - - - - - The call must have happened exactly the number of times that is specified in the next step. - - - - - The call must have happened any number of times greater than or equal to the number of times that is specified - in the next step. - - - - - The call must have happened any number of times less than or equal to the number of times that is specified - in the next step. - - - - - Handles the registration of root dependencies in an IoC-container. - - - - - Registers the dependencies. - - The container to register the dependencies in. - - - - DTO for recorded calls. - - - - - Initializes a new instance of the class. - - The method. - The output arguments. - The return value. - - - - Gets the method that was called. - - The method. - - - - Gets the output arguments of the call. - - The output arguments. - - - - Gets the return value of the call. - - The return value. - - - - Represents storage for recorded calls for self initializing - fakes. - - - - - Loads the recorded calls for the specified recording. - - The recorded calls for the recording with the specified id. - - - - Saves the specified calls as the recording with the specified id, - overwriting any previous recording. - - The calls to save. - - - - Initializes a new instance of the class. - - Name of the file. - The file system. - - - - Loads the recorded calls for the specified recording. - - - The recorded calls for the recording with the specified id. - - - - - Saves the specified calls as the recording with the specified id, - overwriting any previous recording. - - The calls to save. - - - - A factory responsible for creating instances of FileStorage. - - The file name of the storage. - A FileStorage instance. - - - - An interface for recorders that provides stored responses for self initializing fakes. - - - - - Applies the call if the call has been recorded. - - The call to apply to from recording. - - - - Records the specified call. - - The call to record. - - - - Gets a value indicating whether the recorder is currently recording. - - - - - An exception that can be thrown when recording for self initialized - fakes fails or when playback fails. - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - The message. - - - - Initializes a new instance of the class. - - The message. - The inner exception. - - - - Initializes a new instance of the class. - - The that holds the serialized object data about the exception being thrown. - The that contains contextual information about the source or destination. - - The parameter is null. - - - The class name is null or is zero (0). - - - - - Manages the applying of recorded calls and recording of new calls when - using self initialized fakes. - - - - - Initializes a new instance of the class. - - The storage. - - - - Applies the call if the call has been recorded. - - The call to apply to from recording. - - - - Records the specified call. - - The call to record. - - - - Saves all recorded calls to the storage. - - - - - Gets a value indicating whether the recorder is currently recording. - - - - - - Represents a factory responsible for creating recording manager - instances. - - The storage the manager should use. - A RecordingManager instance. - - - - A call rule use for self initializing fakes, delegates call to - be applied by the recorder. - - - - - Initializes a new instance of the class. - - The wrapped rule. - The recorder. - - - - Gets whether this interceptor is applicable to the specified - call, if true is returned the Apply-method of the interceptor will - be called. - - The call to check for applicability. - True if the interceptor is applicable. - - - - Applies an action to the call, might set a return value or throw - an exception. - - The call to apply the interceptor to. - - - - Gets the number of times this call rule is valid, if it's set - to null its infinitely valid. - - - - - - An attribute that can be applied to code that should be fixed because there's a - code smell. - - - - - Gets or sets the description of the smell. - - - - - Used to tag fields and properties that will be initialized as a SUT through the Fake.Initialize-method. - - - - + + + + FakeItEasy + + + + + Provides methods for generating fake objects. + + + + + Creates a fake object of the type T. + + The type of fake object to create. + A fake object. + + + + Creates a fake object of the type T. + + The type of fake object to create. + A lambda where options for the built fake object can be specified. + A fake object. + + + + Creates a collection of fakes of the specified type. + + The type of fakes to create. + The number of fakes in the collection. + A collection of fake objects of the specified type. + + + + Gets a dummy object of the specified type. The value of a dummy object + should be irrelevant. Dummy objects should not be configured. + + The type of dummy to return. + A dummy object of the specified type. + Dummies of the specified type can not be created. + + + + Gets a value indicating whether the two objects are equal. + + The first object to compare. + The second object to compare. + True if the two objects are equal. + + + + Gets a value indicating whether the two objects are the same reference. + + The object A. + The object B. + True if the objects are the same reference. + + + + Configures a call to a faked object. + + An expression where the configured member is called. + A configuration object. + + + + Gets a configuration object allowing for further configuration of + any call to the specified faked object. + + + The fake to configure. + + + A configuration object. + + + + + Configures a call to a faked object. + + The type of member on the faked object to configure. + An expression where the configured member is called. + A configuration object. + + + + Provides configuration for any (not a specific) call on a faked object. + + + + + Gets a configuration object allowing for further configuration of + any call to the specified faked object. + + The faked object to configure. + A configuration object. + + + + Gets a value indicating whether the two objects are equal. + + The first object to compare. + The second object to compare. + True if the two objects are equal. + + + + Gets a value indicating whether the two objects are the same reference. + + The object A. + The object B. + True if the objects are the same reference. + + + + Provides string formatting for arguments of type T when written in call lists. + + The type of the arguments which will be formatted by this instance. + + + + Provides string formatting for arguments when written in + call lists. + + + + + Gets a string representing the specified argument value. + + The argument value to get as a string. + A string representation of the value. + + + + Gets the type of arguments this formatter works on. + + + + + Gets the priority of the formatter, when two formatters are + registered for the same type the one with the highest + priority is used. + + + + + Gets a string representing the specified argument value. + + The argument value to get as a string. + A string representation of the value. + + + + Gets a string representing the specified argument value. + + The argument value to get as a string. + A string representation of the value. + + + + Gets the type of arguments this formatter works on. + + + + + Gets the priority of the formatter, when two formatters are + registered for the same type the one with the highest + priority is used. + + + + + Provides the base for rules that can be built using the FakeConfiguration. + + + + + Represents a call rule that has a description of the calls the + rule is applicable to. + + + + + Allows for intercepting call to a fake object and + act upon them. + + + + + Gets whether this interceptor is applicable to the specified + call, if true is returned the Apply-method of the interceptor will + be called. + + The call to check for applicability. + True if the interceptor is applicable. + + + + Applies an action to the call, might set a return value or throw + an exception. + + The call to apply the interceptor to. + + + + Gets the number of times this call rule is valid, if it's set + to null its infinitely valid. + + + + + Writes a description of calls the rule is applicable to. + + The writer. + + + + Gets if this rule is applicable to the specified call. + + The call to validate. + True if the rule applies to the call. + + + + Writes a description of calls the rule is applicable to. + + The writer to write the description to. + + + + Gets or sets an action that is called by the Apply method to apply this + rule to a fake object call. + + + + + Gets a collection of actions that should be invoked when the configured + call is made. + + + + + Gets or sets values to apply to output and reference variables. + + + + + Gets or sets a value indicating whether the base method of the fake object call should be + called when the fake object call is made. + + + + + Gets or sets the number of times the configured rule should be used. + + + + + Gets a description of calls the rule is applicable to. + + + + + + Aggregate of IReturnValueArgumentValidationConfiguration<T> and IWhereConfiguration<IAnyCallConfigurationWithReturnTypeSpecified<T>>. + + The type of fake object that is configured. + + + + Configures a call that returns a value and allows the use to + specify validations for arguments. + + The type of the member. + + + + Configures a call that returns a value. + + The type of the member. + + + + Configuration that lets the developer specify that an exception should be + thrown by a fake object call. + + + + + Hides standard Object members to make fluent interfaces + easier to read. Found in the source of Autofac: + Based on blog post here: + + + + + + Hides the ToString-method. + + A string representation of the implementing object. + + + + Determines whether the specified is equal to this instance. + + The to compare with this instance. + + true if the specified is equal to this instance; otherwise, false. + + + + + Returns a hash code for this instance. + + + A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. + + + + + Gets the type. + + The exact runtime type of the current instance. + + + + Throws the specified exception when the currently configured + call gets called. + + A function that creates the exception to throw. + Configuration object. + + + + Configuration for callbacks of fake object calls. + + The type of interface to return. + + + + Executes the specified action when a matching call is being made. + + The action to invoke. + A configuration object. + + + + Allows the developer to assert on a call that's configured. + + + + + Asserts that the configured call has happened the number of times + constrained by the repeatConstraint parameter. + + A constraint for how many times the call + must have happened. + The call has not been called a number of times + that passes the repeat constraint. + + + + Configuration that lets you specify that a fake object call should call it's base method. + + + + + When the configured method or methods are called the call + will be delegated to the base method of the faked method. + + A configuration object. + The fake object is of an abstract type or an interface + and no base method exists. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + A function that produces the return value. + A configuration object. + + + + Provides configurations to validate arguments of a fake object call. + + The type of interface to return. + + + + Configures the call to be accepted when the specified predicate returns true. + + The argument predicate. + A configuration object. + + + + Provides a way to configure predicates for when a call should be applied. + + The type of fake object that is going to be configured.. + + + + Applies a predicate to constrain which calls will be considered for interception. + + A predicate for a fake object call. + An action that writes a description of the predicate + to the output. + The configuration object. + + + + Provides an API entry point for constraining arguments of fake object calls. + + The type of argument to validate. + + + + Gets an argument constraint object that will be used to constrain a method call argument. + + + + + Gets a constraint that considers any value of an argument as valid. + + This is a shortcut for the "Ignored"-property. + + + + Gets a constraint that considers any value of an argument as valid. + + + + + A strongly-typed resource class, for looking up localized strings, etc. + + + + + Returns the cached ResourceManager instance used by this class. + + + + + Overrides the current thread's CurrentUICulture property for all + resource lookups using this strongly typed resource class. + + + + + Looks up a localized string similar to The Apply method of the ExpressionInterceptor may no be called before the Applicator property has been set.. + + + + + Looks up a localized string similar to The specified argument name does not exist in the ArgumentList.. + + + + + Looks up a localized string similar to Arguments for constructor was specified when generating proxy of interface type.. + + + + + Looks up a localized string similar to An argument validation was not configured correctly.. + + + + + Looks up a localized string similar to The method '{0}' was called too few times, expected #{1} times but was called #{2} times.. + + + + + Looks up a localized string similar to The method '{0}' was called too many times, expected #{1} times but was called #{2} times.. + + + + + Looks up a localized string similar to Can not create fake of the type '{0}', it's not registered in the current container and the current IProxyGenerator can not generate the fake. + + The following constructors failed: + {1}. + + + + + Looks up a localized string similar to Error when accessing FakeObject, the specified argument is of the type '{0}' which is not faked.. + + + + + Looks up a localized string similar to An ExpressionCallMatcher can only be created for expressions that represents a method call or a property getter.. + + + + + Looks up a localized string similar to + + The current proxy generator failed to create a proxy with the specified arguments for the constructor: + + Reason for failure: + - {0} + + . + + + + + Looks up a localized string similar to FakeItEasy failed to create fake object of type "{0}". + + 1. The type is not registered in the current IFakeObjectContainer. + 2. The current IProxyGenerator failed to generate a proxy for the following reason: + + {1}. + + + + + Looks up a localized string similar to Unable to create fake object.. + + + + + Looks up a localized string similar to Only abstract classes can be faked using the A.Fake-method that takes an enumerable of objects as arguments for constructor, use the overload that takes an expression instead.. + + + + + Looks up a localized string similar to The member accessor expression must be a lambda expression with a MethodCallExpression or MemberAccessExpression as its body.. + + + + + Looks up a localized string similar to The specified method can not be configured since it can not be intercepted by the current IProxyGenerator.. + + + + + Looks up a localized string similar to The method of the call did not match the method of the recorded call, the recorded sequence is no longer valid.. + + + + + Looks up a localized string similar to No constructor matching the specified arguments was found on the type {0}.. + + + + + Looks up a localized string similar to Can not generate fake object for the class since no usable default constructor was found, specify a constructor call.. + + + + + Looks up a localized string similar to All the recorded calls has been applied, the recorded sequence is no longer valid.. + + + + + Looks up a localized string similar to Only expression of the type ExpressionType.New (constructor calls) are accepted.. + + + + + Looks up a localized string similar to The Now-method on the event raise is not meant to be called directly, only use it to register to an event on a fake object that you want to be raised.. + + + + + Looks up a localized string similar to The number of values for out and ref parameters specified does not match the number of out and ref parameters in the call.. + + + + + Looks up a localized string similar to A scope for ordered assertions is already opened, close that scope before opening another one.. + + + + + Looks up a localized string similar to The specified call is not made on a fake object.. + + + + + Looks up a localized string similar to The current fake proxy generator can not create proxies of the type {0}.. + + + + + Looks up a localized string similar to FakeItEasy was unable to create dummy of type "{0}", register it in the current IFakeObjectContainer to enable this.. + + + + + Looks up a localized string similar to Expected to find call {0} the number of times specified by the predicate '{1}' but found it {2} times among the calls:. + + + + + Looks up a localized string similar to The number of argument names does not match the number of arguments.. + + + + + A class exposing an event handler to attach to an event of a faked object + in order to raise that event. + + The type of the event args. + + + + Used by the event raising rule of fake objects to get the event arguments used in + a call to Raise.With. + + + + + Gets the sender of the event. + + + + + Gets the event arguments of the event. + + + + + Register this event handler to an event on a faked object in order to raise that event. + + The sender of the event. + Event args for the event. + + + + Gets a generic event handler to attach to the event to raise. + + + + + Represents a fake object that provides an API for configuring a faked object, exposed by the + FakedObject-property. + + The type of the faked object. + + + + Provides methods for configuring a fake object. + + The type of fake object. + + + + Configures the behavior of the fake object when a call that matches the specified + call happens. + + The type of the return value of the member. + An expression that specifies the calls to configure. + A configuration object. + + + + Configures the behavior of the fake object when a call that matches the specified + call happens. + + An expression that specifies the calls to configure. + A configuration object. + + + + Configures the behavior of the fake object when a call is made to any method on the + object. + + A configuration object. + + + + Initializes a new instance of the class. + Creates a new fake object. + + + + + Initializes a new instance of the class. + Creates a new fake object using the specified options. + + + Options used to create the fake object. + + + + + Configures calls to the specified member. + + An expression specifying the call to configure. + A configuration object. + + + + Configures calls to the specified member. + + The type of value the member returns. + An expression specifying the call to configure. + A configuration object. + + + + Configures any call to the fake object. + + A configuration object. + + + + Gets the faked object. + + + + + Gets all calls made to the faked object. + + + + + Access all types in all assemblies in the same directory as the FakeItEasy assembly. + + + + + Provides a set of types that are available. + + + + + Gets a collection of available types. + + The available types. + + + + Initializes a new instance of the class. + + + + + Gets a collection of available types. + + The available types. + + + + Configuration for any call to a faked object. + + + + + Provides configuration methods for methods that does not have a return value and + allows the use to specify validations for arguments. + + + + + Provides configuration methods for methods that does not have a return value. + + + + + Lets the developer configure output values of out and ref parameters. + + + + + Specifies output values for out and ref parameters. Specify the values in the order + the ref and out parameters has in the configured call, any non out and ref parameters are ignored. + + The values. + A configuration object. + + + + Configures the specified call to do nothing when called. + + A configuration object. + + + + Matches calls that has the return type specified in the generic type parameter. + + The return type of the members to configure. + A configuration object. + + + + Manages registration of a set of components in a DictionaryContainer. + + + + + Registers the components of this module. + + The container to register components in. + + + + A factory that creates instances of the RecordingCallRuleType. + + + + + Creates the specified fake object. + + The type of the fake. + The fake object the rule belongs to. + The rule that's being recorded. + A RecordingCallRule instance. + + + + A factory responsible for creating start configuration for fake objects. + + + + + Creates a start configuration for the specified fake object that fakes the + specified type. + + The type of the fake object. + The fake object to configure. + A configuration object. + + + + An exception that can be thrown when something goes wrong with the configuration + of a fake object. + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + The message. + + + + Initializes a new instance of the class. + + The message. + The inner exception. + + + + Initializes a new instance of the class. + + The that holds the serialized object data about the exception being thrown. + The that contains contextual information about the source or destination. + + The parameter is null. + + + The class name is null or is zero (0). + + + + + Handles the configuration of fake object given an expression specifying + a call on a faked object. + + + + + Lets you set up expectations and configure repeat for the configured call. + + + + + Provides configuration for method calls that has a return value. + + + + + Specifies the number of times for the configured event. + + The number of times to repeat. + + + + A combination of the IAfterCallSpecifiedConfiguration and IOutAndRefParametersConfiguration + interfaces. + + + + + Configurations for when a configured call is recorded. + + + + + Provides configuration from VisualBasic. + + + + + A call rule that has been recorded. + + + + + A call rule that "sits and waits" for the next call, when + that call occurs the recorded rule is added for that call. + + The type of the fake. + + + + Provides access to a set of calls and a call matcher for these calls. + + + + + Provides access to a call matcher. + + + + + Gets a call predicate that can be used to check if a fake object call matches + the specified constraint. + + + + + Gets the set of calls. + + + + + Represents a delegate that creates a configuration object from + a fake object and the rule to build. + + The rule that's being built. + The fake object the rule is for. + A configuration object. + + + + Represents a predicate that matches a fake object call. + + + + + Gets a value indicating whether the call matches the predicate. + + The call to match. + True if the call matches the predicate. + + + + Represents an argument and a dummy value to use for that argument. + + + + + Initializes a new instance of the class. + + A value indicating if the dummy value was successfully resolved. + The type of argument. + The resolved value. + + + + Gets a value indicating whether a dummy argument value was successfully + resolved. + + + + + Gets the type of the argument. + + + + + Gets the resolved value. + + + + + Holds a formatter as well as the distance between a type to be formatted + and the type for which the formatted is registered. + + + + + Represents an event that happens when a call has been intercepted by a proxy. + + + + + Initializes a new instance of the class. + + The call. + + + + Gets the call that was intercepted. + + The call. + + + + Keeps track of metadata for interceptions. + + + + + Gets whether the rule has been called the number of times specified or not. + + True if the rule has not been called the number of times specified. + + + + Gets or sets the number of times the rule has been used. + + + + + Gets or sets the rule this metadata object is tracking. + + + + + Manages attaching of argument constraints. + + The type of argument to constrain. + + + + Constrains the argument with a predicate. + + The predicate that should constrain the argument. + An action that will be write a description of the constraint. + A dummy argument value. + + + + Inverts the logic of the matches method. + + + + + Validates an argument, checks that it's valid in a specific fake call. + + + + + Writes a description of the argument constraint to the specified writer. + + + The writer. + + + + + Gets whether the argument is valid. + + The argument to validate. + True if the argument is valid. + + + + Default implementation of . + + + + + Attaches a fake manager to the proxy so that intercepted + calls can be configured. + + + + + Attaches a to the specified proxy, listening to + the event raiser. + + The type of the fake object proxy. + The proxy to attach to. + The event raiser to listen to. + + + + Gets the fake manager associated with the proxy. + + The proxy to get the manager from. + A fake manager. + + + + Attaches a to the specified proxy, listening to + the event raiser. + + The type of the fake object proxy. + The proxy to attach to. + The event raiser to listen to. + + + + Gets the fake manager associated with the proxy. + + The proxy to get the manager from. + A fake manager. + + + + Represents an object that can be tagged with another object. When implemented + by a proxy returned from an FakeItEasy uses the tag + to store a reference to the that handles that proxy. + + + + + Gets or sets the tag. + + + + + The default implementation of the IFakeObjectCallFormatter interface. + + + + + Provides string formatting for fake object calls. + + + + + Gets a human readable description of the specified + fake object call. + + The call to get a description for. + A description of the call. + + + + Gets a human readable description of the specified + fake object call. + + The call to get a description for. + A description of the call. + + + + Handles configuring of fake objects to delegate all their calls to a wrapped instance. + + + + + Manages configuration of fake objects to wrap instances. + + + + + Configures the specified faked object to wrap the specified instance. + + The faked object to configure. + The instance to wrap. + The recorder to use, null if no recording should be made. + + + + Configures the specified faked object to wrap the specified instance. + + The faked object to configure. + The instance to wrap. + The recorder to use, null if no recording should be made. + + + + A fake object container where delegates can be registered that are used to + resolve fake objects. + + + + + A container that can create fake objects. + + + + + Handles global configuration of fake object. + + + + + Applies base configuration to a fake object. + + The type the fake object represents. + The fake object to configure. + + + + Creates a dummy object of the specified type using the specified arguments if it's + supported by the container, returns a value indicating if it's supported or not. + + The type of dummy object to create. + The dummy object that was created if the method returns true. + True if a dummy object can be created. + + + + Initializes a new instance of the class. + Creates a new instance of the DelegateFakeObjectContainer. + + + + + Creates a fake object of the specified type using the specified arguments if it's + supported by the container, returns a value indicating if it's supported or not. + + The type of dummy object to create. + The fake object that was created if the method returns true. + True if a fake object can be created. + + + + Configures the fake. + + The type of fake. + The fake object. + + + + Registers the specified fake delegate. + + The type of the return value of the method that encapsulates. + The fake delegate. + + + + A IFakeObjectContainer implementation that uses MEF to load IFakeDefinitions and + IFakeConfigurations. + + + + + Initializes a new instance of the class. + + The dummy definitions. + The fake configurators. + + + + Creates a fake object of the specified type using the specified arguments if it's + supported by the container, returns a value indicating if it's supported or not. + + The type of fake object to create. + The fake object that was created if the method returns true. + True if a fake object can be created. + + + + Applies base configuration to a fake object. + + The type the fake object represents. + The fake object to configure. + + + + An exception that is thrown when there was an error creating a fake object. + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + The message. + + + + Initializes a new instance of the class. + + The message. + The inner exception. + + + + Initializes a new instance of the class. + + The that holds the serialized object data about the exception being thrown. + The that contains contextual information about the source or destination. + + The parameter is null. + + + The class name is null or is zero (0). + + + + Auto fake property rule. + + The central point in the API for proxied fake objects handles interception + of fake object calls by using a set of rules. User defined rules can be inserted + by using the AddRule-method. + + Event rule. + Object member rule. + Property behavior rule. + Property setter rule. + + + + Initializes a new instance of the class. + + + + + Adds a call rule to the fake object. + + The rule to add. + + + + Adds a call rule last in the list of user rules, meaning it has the lowest priority possible. + + The rule to add. + + + + Removes the specified rule for the fake object. + + The rule to remove. + + + + Adds an interception listener to the manager. + + The listener to add. + + + + Removes any specified user rules. + + + + + Gets the faked object. + + + + + Gets the faked type. + + + + + Gets the interceptions that are currently registered with the fake object. + + + + + Gets a collection of all the calls made to the fake object within the current scope. + + + + + A delegate responsible for creating FakeObject instances. + + An instance of . + + + + Represents a call to a fake object at interception time. + + + + + Represents a fake object call that can be edited. + + + + + Represents a call to a fake object. + + + + + Gets the method that's called. + + + + + Gets the arguments used in the call. + + + + + Gets the faked object the call is performed on. + + + + + Sets the return value of the call. + + The return value to set. + + + + Calls the base method of the faked type. + + + + + Sets the value of the argument at the specified index in the parameters list. + + The index of the argument to set the value of. + The value to set to the argument. + + + + Freezes the call so that it can no longer be modified. + + A completed fake object call. + + + + Sets that the call should not be recorded by the fake manager. + + + + + Represents a scope for fake objects, calls configured within a scope + are only valid within that scope. Only calls made within a scope + are accessible from within a scope so for example asserts will only + assert on those calls done within the scope. + + + + + Provides access to all calls made to fake objects within a scope. + Scopes calls so that only calls made within the scope are visible. + + + + + Creates a new scope and sets it as the current scope. + + The created scope. + + + + Creates a new scope and sets it as the current scope, using the specified + container as the container for the new scope. + + The container to use for the new scope. + The created scope. + + + + Closes the scope. + + + + + Adds an intercepted call to the current scope. + + The fake object. + The call that is intercepted. + + + + Adds a fake object call to the current scope. + + The fake object. + The rule to add. + + + + Represents a listener for fake object calls, can be plugged into a + FakeManager instance to listen to all intercepted calls. + + The OnBeforeCallIntercepted method will be invoked before the OnBeforeCallIntercepted method of any + previously added listener. The OnAfterCallIntercepted method will be invoked after the OnAfterCallIntercepted + method of any previously added listener. + + + + Called when the interception begins but before any call rules + has been applied. + + The intercepted call. + + + + Called when the interception has been completed and rules has been + applied. + + The intercepted call. + The rule that was applied to the call. + + + + An interface to be implemented by classes that can generate proxies for FakeItEasy. + + + + + Generates a proxy of the specified type and returns a result object containing information + about the success of the generation and the proxy if it was generated. + + The type of proxy to generate. + Interfaces to be implemented by the proxy. + Arguments to pass to the constructor of the type in . + The custom attribute builders. + A result containing the generated proxy. + + + + Generates a proxy of the specified type and returns a result object containing information + about the success of the generation and the proxy if it was generated. + + The type of proxy to generate. + Interfaces to be implemented by the proxy. + Arguments to pass to the constructor of the type in . + A result containing the generated proxy. + + + + Gets a value indicating whether the specified member can be intercepted by the proxy generator. + + The member to test. + The instance the method will be called on. + The reason the method can not be intercepted. + True if the member can be intercepted. + + + + An object that raises an event every time a call to a proxy has been intercepted. + + + + + Raised when a call is intercepted. + + + + + Represents a completed call to a fake object. + + + + + Gets the value set to be returned from the call. + + + + + Represents a text writer that writes to the output. + + + + + Writes the specified value to the output. + + The value to write. + The writer for method chaining. + + + + Formats the specified argument value as a string and writes + it to the output. + + The value to write. + The writer for method chaining. + + + + Indents the writer. + + A disposable that will unindent the writer when disposed. + + + + Provides instances from type catalogues. + + + + + Gets an instance per type in the catalogue that is a descendant + of the specified type. + + The type of instances to get. + A sequence of instances of the specified type. + + + + Handles comparisons of instances of . + + + + + Gets a value indicating whether the two instances of would invoke the same method + if invoked on an instance of the target type. + + The type of target for invocation. + The first . + The second . + True if the same method would be invoked. + + + + A null implementation for the IFakeObjectContainer interface. + + + + + Always returns false and sets the fakeObject to null. + + The type of dummy object to create. + Output variable for the fake object that will always be set to null. + Always return false. + + + + Applies base configuration to a fake object. + + The type the fake object represents. + The fake object to configure. + + + + A call rule that applies to any call and just delegates the + call to the wrapped object. + + + + + Initializes a new instance of the class. + Creates a new instance. + + + The object to wrap. + + + + + Gets whether this interceptor is applicable to the specified + call, if true is returned the Apply-method of the interceptor will + be called. + + The call to check for applicability. + True if the interceptor is applicable. + + + + Applies an action to the call, might set a return value or throw + an exception. + + The call to apply the interceptor to. + + + + Gets the number of times this call rule is valid, if it's set + to null its infinitely valid. + + + + + + An adapter that adapts an to a . + + + + + Initializes a new instance of the class. + + The invocation. + + + + Freezes the call so that it can no longer be modified. + + A completed fake object call. + + + + Calls the base method, should not be used with interface types. + + + + + Sets the specified value to the argument at the specified index. + + The index of the argument to set the value to. + The value to set to the argument. + + + + Sets the return value of the call. + + The return value. + + + + Returns a description of the call. + + + A that represents this instance. + + + + + Gets a human readable description of the call. + + + + + + Gets the value set to be returned from the call. + + + + + Gets the method that's called. + + + + + Gets the arguments used in the call. + + + + + Gets the faked object the call is performed on. + + + + + A strongly-typed resource class, for looking up localized strings, etc. + + + + + Returns the cached ResourceManager instance used by this class. + + + + + Overrides the current thread's CurrentUICulture property for all + resource lookups using this strongly typed resource class. + + + + + Looks up a localized string similar to No constructor matches the passed arguments for constructor.. + + + + + Looks up a localized string similar to Arguments for constructor specified for interface type.. + + + + + Looks up a localized string similar to The type of proxy "{0}" is sealed.. + + + + + Looks up a localized string similar to The type of proxy must be an interface or a class but it was {0}.. + + + + + Looks up a localized string similar to No usable default constructor was found on the type {0}.. + + + + + The default implementation of the IFakeAndDummyManager interface. + + + + + Handles the creation of fake and dummy objects. + + + + + Creates a dummy of the specified type. + + The type of dummy to create. + The created dummy. + The current IProxyGenerator is not able to generate a fake of the specified type and + the current IFakeObjectContainer does not contain the specified type. + + + + Creates a fake object of the specified type. + + The type of fake object to generate. + Options for building the fake object. + A fake object. + The current IProxyGenerator is not able to generate a fake of the specified type. + + + + Tries to create a dummy of the specified type. + + The type of dummy to create. + Outputs the result dummy when creation is successful. + A value indicating whether the creation was successful. + + + + Tries to create a fake object of the specified type. + + The type of fake to create. + Options for the creation of the fake. + The created fake object when creation is successful. + A value indicating whether the creation was successful. + + + + Default implementation of the IFakeCreator-interface. + + + + + A facade used by the public API for testability. + + + + + Creates a fake object of the specified type. + + The type of fake to create. + Options for the created fake object. + The created fake object. + Was unable to generate the fake in the current configuration. + + + + Creates a dummy object, this can be a fake object or an object resolved + from the current IFakeObjectContainer. + + The type of dummy to create. + The created dummy. + Was unable to generate the fake in the current configuration and + no dummy was registered in the container for the specified type.. + + + + Creates a collection of fakes of the specified type. + + The type of fakes to create. + The number of fakes in the collection. + A collection of fake objects of the specified type. + + + + Initializes a new instance of the class. + + The fake and dummy manager. + + + + Creates a fake object of the specified type. + + The type of fake to create. + Options for the created fake object. + The created fake object. + Was unable to generate the fake in the current configuration. + + + + Creates a collection of fakes of the specified type. + + The type of fakes to create. + The number of fakes in the collection. + + A collection of fake objects of the specified type. + + + + + Creates a dummy object, this can be a fake object or an object resolved + from the current IFakeObjectContainer. + + The type of dummy to create. + The created dummy. + Was unable to generate the fake in the current configuration and + no dummy was registered in the container for the specified type.. + + + + Provides options for fake wrappers. + + The type of the fake object generated. + + + + Provides options for generating fake object. + + The type of fake object generated. + + + + Specifies arguments for the constructor of the faked class. + + The arguments to pass to the constructor of the faked class. + Options object. + + + + Specifies arguments for the constructor of the faked class by giving an expression with the call to + the desired constructor using the arguments to be passed to the constructor. + + The constructor call to use when creating a class proxy. + Options object. + + + + Specifies that the fake should delegate calls to the specified instance. + + The object to delegate calls to. + Options object. + + + + Specifies that the fake should be created with these additional attributes. + + The attributes to build into the proxy. + Options object. + + + + Sets up the fake to implement the specified interface in addition to the + originally faked class. + + The type of interface to implement. + Options object. + The specified type is not an interface. + The specified type is null. + + + + Specifies an action that should be run over the fake object + once it's created. + + An action to perform. + Options object. + + + + Specifies a fake recorder to use. + + The recorder to use. + Options object. + + + + Initializes a new instance of the class. + + The container. + The fake object creator. + + + + Contains the result of a call to TryCreateProxy of IProxyGenerator. + + + + + Initializes a new instance of the class. + Creates a new instance representing a failed proxy + generation attempt. + + + The reason the proxy generation failed. + + + + + Initializes a new instance of the class. + Creates a new instance representing a failed proxy + generation attempt due to an exception being caught. + + + The reason the proxy generation failed. + + + The exception thrown from the creation attempt. + + + + + Initializes a new instance of the class. + Creates a new instance representing a successful proxy + generation. + + + The proxy that was generated. + + + An event raiser that raises + events when calls are intercepted to the proxy. + + + + + Gets a value indicating whether the proxy was successfully created. + + + + + Gets the generated proxy when it was successfully created. + + + + + Gets the event raiser that raises events when calls to the proxy are + intercepted. + + + + + Gets the reason for failure when the generation was not successful. + + + + + Represents a class that can parse a lambda expression + that represents a method or property call. + + + + + Parses the specified expression. + + The expression to parse. + The parsed expression. + + + + Handles the matching of fake object calls to expressions. + + + + + Initializes a new instance of the class. + + The call specification. + The constraint factory. + The method info manager to use. + A parser to use to parse call expressions. + + + + Matches the specified call against the expression. + + The call to match. + True if the call is matched by the expression. + + + + Gets a description of the call. + + Description of the call. + + + + Gets a human readable description of calls that will be matched by this + matcher. + + + + + An implementation of the interface that uses + expressions for evaluating if the rule is applicable to a specific call. + + + + + Initializes a new instance of the class. + + The expression matcher to use. + + + + Returns a that represents this instance. + + + A that represents this instance. + + + + + Handles the instantiation of ExpressionCallRule instance. + + An expression specifying the call. + A rule instance. + + + + Manages breaking call specification expression into their various parts. + + + + + Manages breaking call specification expression into their various parts. + + + + + Gets the fake object an expression is called on. + + The call expression. + The FakeManager instance that manages the faked object the call is made on. + The fakeObjectCall is null. + The specified expression is not an expression where a call is made to a faked object. + + + + Gets the fake object an expression is called on. + + The call expression. + A FakeObject. + The fakeObjectCall is null. + The specified expression is not an expression where a call is made to a faked object. + + + + Provides extension methods for configuring and asserting on faked objects + without going through the static methods of the Fake-class. + + + + + Configures the behavior of the fake object when a call that matches the specified + call happens. + + The type of fake object to configure. + The type of the return value of the member. + The faked object to configure. + An expression that specifies the calls to configure. + A configuration object. + + + + Configures the behavior of the fake object when a call that matches the specified + call happens. + + The faked object to configure. + The type of fake object to configure. + An expression that specifies the calls to configure. + A configuration object. + + + + Configures the behavior of the fake object when a call is made to any method on the + object. + + The type of the fake. + The faked object. + A configuration object. + + + + Provides an extension method for configuring fake objects. + + + + + Gets an object that provides a fluent interface syntax for configuring + the fake object. + + The type of the fake object. + The fake object to configure. + A configuration object. + The fakedObject was null. + The object passed in is not a faked object. + + + + Used to tag fields and properties that will be initialized through the + Fake.Initialize-method. + + + + + A simple implementation of an IoC container. + + + + + The dictionary that stores the registered services. + + + + + Initializes a new instance of the class. + + + + + Resolves an instance of the specified component type. + + Type of the component. + An instance of the component type. + + + + Registers the specified resolver. + + The type of component to register. + The resolver. + + + + Registers the specified resolver as a singleton. + + The type of component to register. + The resolver. + + + + Provides properties and methods to specify repeat. + + + + + Specifies the number of times as repeat. + + The number of times expected. + A Repeated instance. + + + + Specifies once as the repeat. + + + + + Specifies twice as the repeat. + + + + + Provides functionality for making ordered assertions on fakes. + + + + + Creates a scope that changes the behavior on asserts so that all asserts within + the scope must be to calls in the specified collection of calls. Calls must have happened + in the order that the asserts are specified or the asserts will fail. + + The calls to assert among. + A disposable used to close the scope. + + + + Provides the base implementation for the IFakeConfigurator-interface. + + The type of fakes the configurator can configure. + + + + Provides configurations for fake objects of a specific type. + + + + + Applies the configuration for the specified fake object. + + The fake object to configure. + + + + Gets the type the instance provides configuration for. + + + + + Configures the fake. + + The fake object. + + + + Applies the configuration for the specified fake object. + + The fake object to configure. + + + + Asserts the type of the that fake is of correct. + + The fake object. + + + + Gets the type the instance provides configuration for. + + + + + + Represents a definition of how a fake object of the type T should + be created. + + The type of fake. + + + + Represents a definition of how dummies of the specified type should be created. + + + + + Creates the fake. + + The fake object. + + + + Gets the type of fake object the definition is for. + + + + + Creates the dummy. + + The dummy object. + + + + Creates the dummy. + + The dummy object. + + + + Gets the type the definition is for. + + For type. + + + + Provides validation extensions for . + + + + + Constrains an argument so that it must be null (Nothing in VB). + + The type of the argument. + The constraint manager to match the constraint. + A dummy argument value. + + + + Constrains the string argument to contain the specified text. + + The constraint manager to match the constraint. + The string the argument string should contain. + A dummy argument value. + + + + Constrains the sequence so that it must contain the specified value. + + The constraint manager to match the constraint. + The value the collection should contain. + The type of sequence. + A dummy argument value. + + + + Constrains the string so that it must start with the specified value. + + The constraint manager to match the constraint. + The value the string should start with. + A dummy argument value. + + + + Constrains the string so that it must end with the specified value. + + The constraint manager to match the constraint. + The value the string should end with. + A dummy argument value. + + + + Constrains the string so that it must be null or empty. + + The constraint manager to match the constraint. + A dummy argument value. + + + + Constrains argument value so that it must be greater than the specified value. + + The constraint manager to match the constraint. + The value the string should start with. + The type of argument to constrain. + A dummy argument value. + + + + The tested argument collection should contain the same elements as the + as the specified collection. + + The constraint manager to match the constraint. + The sequence to test against. + The type of argument to constrain. + A dummy argument value. + + + + Tests that the IEnumerable contains no items. + + The type of argument. + The constraint manager to match the constraint. + A dummy argument value. + + + + Tests that the passed in argument is equal to the specified value. + + The type of the argument. + The constraint manager to match the constraint. + The value to compare to. + A dummy argument value. + + + + Tests that the passed in argument is the same instance (reference) as the specified value. + + The type of the argument. + The constraint manager to match the constraint. + The reference to compare to. + A dummy argument value. + + + + Constrains the argument to be of the specified type. + + The type of argument in the method signature. + The constraint manager. + The type to constrain the argument with. + A dummy value. + + + + Constrains the argument with a predicate. + + + The constraint manager. + + + The predicate that should constrain the argument. + + + A human readable description of the constraint. + + + The type of argument in the method signature. + + + A dummy argument value. + + + + + Constrains the argument with a predicate. + + + The constraint manager. + + + The predicate that should constrain the argument. + + + A human readable description of the constraint format string. + + + Arguments for the format string. + + + The type of argument in the method signature. + + + A dummy argument value. + + + + + Constrains the argument with a predicate. + + + The constraint manager. + + + The predicate that should constrain the argument. + + + The type of argument in the method signature. + + + A dummy argument value. + + + + + Constrains the argument to be not null (Nothing in VB) and to match + the specified predicate. + + The type of the argument to constrain. + The constraint manager. + The predicate that constrains non null values. + An action that writes a description of the constraint + to the output. + A dummy argument value. + + + + Provides static methods for the IOutputWriter-interface. + + + + + Writes a new line to the writer. + + The writer to write to. + The writer. + + + + Writes the format string to the writer. + + The writer to write to. + The format string to write. + Replacements for the format string. + The writer. + + + + Writes the specified object to the writer (using the ToString-method of the object). + + The writer to write to. + The value to write to the writer. + The writer. + + + + Provides syntax for specifying the number of times a call must have been repeated when asserting on + fake object calls. + + A.CallTo(() => foo.Bar()).Assert(Happened.Once.Exactly); + + + + Specifies that a call must have been repeated a number of times + that is validated by the specified repeatValidation argument. + + A predicate that specifies the number of times + a call must have been made. + A Repeated-instance. + + + + When implemented gets a value indicating if the repeat is matched + by the Happened-instance. + + The repeat of a call. + True if the repeat is a match. + + + + Asserts that a call has not happened at all. + + + + + The call must have happened exactly the number of times that is specified in the next step. + + + + + The call must have happened any number of times greater than or equal to the number of times that is specified + in the next step. + + + + + The call must have happened any number of times less than or equal to the number of times that is specified + in the next step. + + + + + Provides methods for creating recorders for self initializing fakes. + + + + + Gets a recorder that records to and loads calls from the specified file. + + The file to use for recording. + A recorder instance. + + + + Provides access to the file system. + + + + + Opens the specified file in the specified mode. + + The full path and name of the file to open. + The mode to open the file in. + A stream for reading and writing the file. + + + + Gets a value indicating whether the specified file exists. + + The path and name of the file to check. + True if the file exists. + + + + Creates a file with the specified name. + + The name of the file to create. + + + + Gets the value produced by the specified expression when compiled and invoked. + + The expression to get the value from. + The value produced by the expression. + + + + An exception thrown when an expectation is not met (when asserting on fake object calls). + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + The message. + + + + Initializes a new instance of the class. + + The message. + The inner exception. + + + + Initializes a new instance of the class. + + The that holds the serialized object data about the exception being thrown. + The that contains contextual information about the source or destination. + + The parameter is null. + + + The class name is null or is zero (0). + + + + + Provides extension methods for fake objects. + + + + + Specifies NumberOfTimes(1) to the IRepeatConfiguration{TFake}. + + The configuration to set repeat 1 to. + + + + Specifies NumberOfTimes(2) to the IRepeatConfiguration{TFake}. + + The configuration to set repeat 2 to. + + + + Specifies that a call to the configured call should be applied no matter what arguments + are used in the call to the faked object. + + The type of the interface. + The configuration. + A configuration object. + + + + Filters to contain only the calls that matches the call specification. + + The type of fake the call is made on. + The calls to filter. + The call to match on. + A collection of the calls that matches the call specification. + + + + Asserts that the specified call must have happened once or more. + + The configuration to assert on. + + + + Asserts that the specified has not happened. + + The configuration to assert on. + + + + Configures the call to return the next value from the specified sequence each time it's called. Null will + be returned when all the values in the sequence has been returned. + + + The type of return value. + + + The call configuration to extend. + + + The values to return in sequence. + + + + + Specifies the value to return when the configured call is made. + + The type of the return value. + The configuration to extend. + The value to return. + A configuration object. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The type of the return value. + The configuration to extend. + A function that produces the return value. + A configuration object. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The type of the return value. + Type of the first argument of the faked method call. + The configuration to extend. + A function that produces the return value. + A configuration object. + The signatures of the faked method and the do not match. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The configuration to extend. + A function that produces the return value. + The type of the return value. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + A configuration object. + The signatures of the faked method and the do not match. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The configuration to extend. + A function that produces the return value. + The type of the return value. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + A configuration object. + The signatures of the faked method and the do not match. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The configuration to extend. + A function that produces the return value. + The type of the return value. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + Type of the fourth argument of the faked method call. + A configuration object. + The signatures of the faked method and the do not match. + + + + Writes the calls in the collection to the specified text writer. + + The type of the calls. + The calls to write. + The writer to write the calls to. + + + + Writes all calls in the collection to the console. + + The type of the calls. + The calls to write. + + + + Gets the argument at the specified index in the arguments collection + for the call. + + The type of the argument to get. + The call to get the argument from. + The index of the argument. + The value of the argument with the specified index. + + + + Gets the argument with the specified name in the arguments collection + for the call. + + The type of the argument to get. + The call to get the argument from. + The name of the argument. + The value of the argument with the specified name. + + + + Makes the fake strict, this means that any call to the fake + that has not been explicitly configured will throw an exception. + + The type of fake object. + The configuration. + A configuration object. + + + + Applies a predicate to constrain which calls will be considered for interception. + + + The return type of the where method. + + + The configuration object to extend. + + + A predicate for a fake object call. + + to the output. + + The configuration object. + + + + + Executes the specified action when a matching call is being made. This overload can also be used to fake calls with arguments when they don't need to be accessed. + + The type of fake object. + The configuration that is extended. + The to invoke. + The fake object. + + + + Executes the specified action when a matching call is being made. + + The configuration that is extended. + The to invoke. + The type of fake object. + Type of the first argument of the faked method call. + The signatures of the faked method and the do not match. + The fake object. + + + + Executes the specified action when a matching call is being made. + + The configuration that is extended. + The to invoke. + The type of fake object. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + The signatures of the faked method and the do not match. + The fake object. + + + + Executes the specified action when a matching call is being made. + + The configuration that is extended. + The to invoke. + The type of fake object. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + The signatures of the faked method and the do not match. + The fake object. + + + + Executes the specified action when a matching call is being made. + + The configuration that is extended. + The to invoke. + The type of fake object. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + Type of the fourth argument of the faked method call. + The signatures of the faked method and the do not match. + The fake object. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + The exception to throw when a call that matches is invoked. + Configuration object. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Configuration object. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Type of the first argument of the faked method call. + Configuration object. + The signatures of the faked method and the do not match. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Configuration object. + The signatures of the faked method and the do not match. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + Configuration object. + The signatures of the faked method and the do not match. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + Type of the fourth argument of the faked method call. + Configuration object. + The signatures of the faked method and the do not match. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + The type of exception to throw. + Configuration object. + + + + A collection of method arguments. + + + + + The arguments this collection contains. + + + + + Initializes a new instance of the class. + + The arguments. + The argument names. + + + + Initializes a new instance of the class. + + The arguments. + The method. + + + + Returns an enumerator that iterates through the collection or arguments. + + + A that can be used to iterate through the collection. + + + + + Gets the argument at the specified index. + + The type of the argument to get. + The index of the argument. + The argument at the specified index. + + + + Gets the argument with the specified name. + + The type of the argument to get. + The name of the argument. + The argument with the specified name. + + + + Gets an empty ArgumentList. + + + + + Gets the number of arguments in the list. + + + + + Gets the names of the arguments in the list. + + + + + Gets the argument at the specified index. + + The index of the argument to get. + The argument at the specified index. + + + + Provides methods for guarding method arguments. + + + + + Throws an exception if the specified argument is null. + + The argument. + Name of the argument. + The specified argument was null. + + + + Provides static methods for accessing fake objects. + + + + + Gets the fake object that manages the faked object. + + The faked object to get the manager object for. + The fake object manager. + + + + Creates a new scope and sets it as the current scope. When inside a scope the + getting the calls made to a fake will return only the calls within that scope and when + asserting that calls were made, the calls must have been made within that scope. + + The created scope. + + + + Creates a new scope and sets it as the current scope. When inside a scope the + getting the calls made to a fake will return only the calls within that scope and when + asserting that calls were made, the calls must have been made within that scope. + + The container to use within the specified scope. + The created scope. + + + + Gets a value indicating whether the two objects are equal. + + The first object to compare. + The second object to compare. + True if the two objects are equal. + + + + Gets a value indicating whether the two objects are the same reference. + + The object A. + The object B. + True if the objects are the same reference. + + + + Gets all the calls made to the specified fake object. + + The faked object. + A collection containing the calls to the object. + The object passed in is not a faked object. + + + + Clears the configuration of the faked object. + + The faked object to clear the configuration of. + + + + Sets a new fake to each property or field that is tagged with the FakeAttribute in the specified + fixture. + + The object to initialize. + + + + Allows the developer to raise an event on a faked object. + + + + + Raises an event on a faked object by attaching the event handler produced by the method + to the event that is to be raised. + + The type of the event args. + The sender of the event. + The instance containing the event data. + A Raise(TEventArgs)-object that exposes the event handler to attach. + + + + Raises an event on a faked object by attaching the event handler produced by the method + to the event that is to be raised. + + The type of the event arguments. + The instance containing the event data. + + A Raise(TEventArgs)-object that exposes the event handler to attach. + + + + + Raises an event with empty event arguments on a faked object by attaching the event handler produced by the method + to the event that is to be raised. + + + A Raise(TEventArgs)-object that exposes the event handler to attach. + + + + + Handles the registration of root dependencies in an IoC-container. + + + + + Registers the dependencies. + + The container to register the dependencies in. + + + + DTO for recorded calls. + + + + + Initializes a new instance of the class. + + The method. + The output arguments. + The return value. + + + + Gets the method that was called. + + The method. + + + + Gets the output arguments of the call. + + The output arguments. + + + + Gets the return value of the call. + + The return value. + + + + Represents storage for recorded calls for self initializing + fakes. + + + + + Loads the recorded calls for the specified recording. + + The recorded calls for the recording with the specified id. + + + + Saves the specified calls as the recording with the specified id, + overwriting any previous recording. + + The calls to save. + + + + Initializes a new instance of the class. + + Name of the file. + The file system. + + + + Loads the recorded calls for the specified recording. + + + The recorded calls for the recording with the specified id. + + + + + Saves the specified calls as the recording with the specified id, + overwriting any previous recording. + + The calls to save. + + + + A factory responsible for creating instances of FileStorage. + + The file name of the storage. + A FileStorage instance. + + + + An interface for recorders that provides stored responses for self initializing fakes. + + + + + Applies the call if the call has been recorded. + + The call to apply to from recording. + + + + Records the specified call. + + The call to record. + + + + Gets a value indicating whether the recorder is currently recording. + + + + + An exception that can be thrown when recording for self initialized + fakes fails or when playback fails. + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + The message. + + + + Initializes a new instance of the class. + + The message. + The inner exception. + + + + Initializes a new instance of the class. + + The that holds the serialized object data about the exception being thrown. + The that contains contextual information about the source or destination. + + The parameter is null. + + + The class name is null or is zero (0). + + + + + Manages the applying of recorded calls and recording of new calls when + using self initialized fakes. + + + + + Initializes a new instance of the class. + + The storage. + + + + Applies the call if the call has been recorded. + + The call to apply to from recording. + + + + Records the specified call. + + The call to record. + + + + Saves all recorded calls to the storage. + + + + + Gets a value indicating whether the recorder is currently recording. + + + + + + Represents a factory responsible for creating recording manager + instances. + + The storage the manager should use. + A RecordingManager instance. + + + + A call rule use for self initializing fakes, delegates call to + be applied by the recorder. + + + + + Initializes a new instance of the class. + + The wrapped rule. + The recorder. + + + + Gets whether this interceptor is applicable to the specified + call, if true is returned the Apply-method of the interceptor will + be called. + + The call to check for applicability. + True if the interceptor is applicable. + + + + Applies an action to the call, might set a return value or throw + an exception. + + The call to apply the interceptor to. + + + + Gets the number of times this call rule is valid, if it's set + to null its infinitely valid. + + + + + + Provides extension methods for the common uses. + + + + + Replaces the format item in a specified System.String with the text equivalent + of the value of a corresponding System.Object instance in a specified array using + invariant culture as . + + A composite format string. + An array containing zero or more objects to format. + The formatted string. + + + + Gets an enumerable of tuples where the first value of each tuple is a value + from the first collection and the second value of each tuple is the value at the same position + from the second collection. + + The type of values in the first collection. + The type of values in the second collection. + The first of the collections to combine. + The second of the collections to combine. + An enumerable of tuples. + + + + Joins the collection to a string. + + The type of items in the collection. + The items to join. + A function that converts from an item to a string value. + Separator to insert between each item. + A string representation of the collection. + + + + Gets a dictionary containing the first element from the sequence that has a key specified by the key selector. + + The type of items in the sequence. + The type of the key. + The sequence. + The key selector. + A dictionary. + + + + An attribute that can be applied to code that should be fixed because there's a + code smell. + + + + + Gets or sets the description of the smell. + + + + + Lets you specify options for the next call to a fake object. + + + + + Specifies options for the next call to the specified fake object. The next call will + be recorded as a call configuration. + + The type of the faked object. + The faked object to configure. + A call configuration object. + + + + Used to tag fields and properties that will be initialized as a SUT through the Fake.Initialize-method. + + + + diff --git a/packages/FakeItEasy.1.14.0/lib/sl40/FakeItEasy.dll b/packages/FakeItEasy.1.14.0/lib/sl40/FakeItEasy.dll new file mode 100644 index 0000000..ea10f25 Binary files /dev/null and b/packages/FakeItEasy.1.14.0/lib/sl40/FakeItEasy.dll differ diff --git a/packages/FakeItEasy.1.11.0/lib/sl40/FakeItEasy.xml b/packages/FakeItEasy.1.14.0/lib/sl40/FakeItEasy.xml similarity index 97% rename from packages/FakeItEasy.1.11.0/lib/sl40/FakeItEasy.xml rename to packages/FakeItEasy.1.14.0/lib/sl40/FakeItEasy.xml index 446b603..f622559 100644 --- a/packages/FakeItEasy.1.11.0/lib/sl40/FakeItEasy.xml +++ b/packages/FakeItEasy.1.14.0/lib/sl40/FakeItEasy.xml @@ -1,3391 +1,3419 @@ - - - - FakeItEasy - - - - - Provides methods for generating fake objects. - - - - - Creates a fake object of the type T. - - The type of fake object to create. - A fake object. - - - - Creates a fake object of the type T. - - The type of fake object to create. - A lambda where options for the built fake object can be specified. - A fake object. - - - - Creates a collection of fakes of the specified type. - - The type of fakes to create. - The number of fakes in the collection. - A collection of fake objects of the specified type. - - - - Gets a dummy object of the specified type. The value of a dummy object - should be irrelevant. Dummy objects should not be configured. - - The type of dummy to return. - A dummy object of the specified type. - Dummies of the specified type can not be created. - - - - Gets a value indicating whether the two objects are equal. - - The first object to compare. - The second object to compare. - True if the two objects are equal. - - - - Gets a value indicating whether the two objects are the same reference. - - The object A. - The object B. - True if the objects are the same reference. - - - - Configures a call to a faked object. - - An expression where the configured member is called. - A configuration object. - - - - Gets a configuration object allowing for further configuration of - any call to the specified faked object. - - - The fake to configure. - - - A configuration object. - - - - - Configures a call to a faked object. - - The type of member on the faked object to configure. - An expression where the configured member is called. - A configuration object. - - - - Provides an API entry point for constraining arguments of fake object calls. - - The type of argument to validate. - - - - Gets an argument constraint object that will be used to constrain a method call argument. - - - - - Gets a constraint that considers any value of an argument as valid. - - This is a shortcut for the "Ignored"-property. - - - - Gets a constraint that considers any value of an argument as valid. - - - - - Provides configuration for any (not a specific) call on a faked object. - - - - - Gets a configuration object allowing for further configuration of - any call to the specified faked object. - - The faked object to configure. - A configuration object. - - - - Gets a value indicating whether the two objects are equal. - - The first object to compare. - The second object to compare. - True if the two objects are equal. - - - - Gets a value indicating whether the two objects are the same reference. - - The object A. - The object B. - True if the objects are the same reference. - - - - A collection of method arguments. - - - - - The arguments this collection contains. - - - - - Initializes a new instance of the class. - - The arguments. - The argument names. - - - - Initializes a new instance of the class. - - The arguments. - The method. - - - - Returns an enumerator that iterates through the collection or arguments. - - - A that can be used to iterate through the collection. - - - - - Gets the argument at the specified index. - - The type of the argument to get. - The index of the argument. - The argument at the specified index. - - - - Gets the argument with the specified name. - - The type of the argument to get. - The name of the argument. - The argument with the specified name. - - - - Gets an empty ArgumentList. - - - - - Gets the number of arguments in the list. - - - - - Gets the names of the arguments in the list. - - - - - Gets the argument at the specified index. - - The index of the argument to get. - The argument at the specified index. - - - - Provides validation extensions for . - - - - - Constrains an argument so that it must be null (Nothing in VB). - - The type of the argument. - The constraint manager to match the constraint. - A dummy argument value. - - - - Constrains the string argument to contain the specified text. - - The constraint manager to match the constraint. - The string the argument string should contain. - A dummy argument value. - - - - Constrains the sequence so that it must contain the specified value. - - The constraint manager to match the constraint. - The value the collection should contain. - The type of sequence. - A dummy argument value. - - - - Constrains the string so that it must start with the specified value. - - The constraint manager to match the constraint. - The value the string should start with. - A dummy argument value. - - - - Constrains the string so that it must end with the specified value. - - The constraint manager to match the constraint. - The value the string should end with. - A dummy argument value. - - - - Constrains the string so that it must be null or empty. - - The constraint manager to match the constraint. - A dummy argument value. - - - - Constrains argument value so that it must be greater than the specified value. - - The constraint manager to match the constraint. - The value the string should start with. - The type of argument to constrain. - A dummy argument value. - - - - The tested argument collection should contain the same elements as the - as the specified collection. - - The constraint manager to match the constraint. - The sequence to test against. - The type of argument to constrain. - A dummy argument value. - - - - Tests that the IEnumerable contains no items. - - The type of argument. - The constraint manager to match the constraint. - A dummy argument value. - - - - Tests that the passed in argument is equal to the specified value. - - The type of the argument. - The constraint manager to match the constraint. - The value to compare to. - A dummy argument value. - - - - Constrains the argument to be of the specified type. - - The type of argument in the method signature. - The constraint manager. - The type to constrain the argument with. - A dummy value. - - - - Constrains the argument with a predicate. - - - The constraint manager. - - - The predicate that should constrain the argument. - - - A human readable description of the constraint. - - - The type of argument in the method signature. - - - A dummy argument value. - - - - - Constrains the argument with a predicate. - - - The constraint manager. - - - The predicate that should constrain the argument. - - - A human readable description of the constraint format string. - - - Arguments for the format string. - - - The type of argument in the method signature. - - - A dummy argument value. - - - - - Constrains the argument with a predicate. - - - The constraint manager. - - - The predicate that should constrain the argument. - - - The type of argument in the method signature. - - - A dummy argument value. - - - - - Constrains the argument to be not null (Nothing in VB) and to match - the specified predicate. - - The type of the argument to constrain. - The constraint manager. - The predicate that constrains non null values. - An action that writes a description of the constraint - to the output. - A dummy argument value. - - - - Provides string formatting for arguments of type T when written in call lists. - - The type of the arguments which will be formatted by this instance. - - - - Provides string formatting for arguments when written in - call lists. - - - - - Gets a string representing the specified argument value. - - The argument value to get as a string. - A string representation of the value. - - - - Gets the type of arguments this formatter works on. - - - - - Gets the priority of the formatter, when two formatters are - registered for the same type the one with the highest - priority is used. - - - - - Gets a string representing the specified argument value. - - The argument value to get as a string. - A string representation of the value. - - - - Gets a string representing the specified argument value. - - The argument value to get as a string. - A string representation of the value. - - - - Gets the type of arguments this formatter works on. - - - - - Gets the priority of the formatter, when two formatters are - registered for the same type the one with the highest - priority is used. - - - - - Provides extension methods for the common uses. - - - - - Replaces the format item in a specified System.String with the text equivalent - of the value of a corresponding System.Object instance in a specified array using - invariant culture as . - - A composite format string. - An array containing zero or more objects to format. - The formatted string. - - - - Gets an enumerable of tuples where the first value of each tuple is a value - from the first collection and the second value of each tuple is the value at the same position - from the second collection. - - The type of values in the first collection. - The type of values in the second collection. - The first of the collections to combine. - The second of the collections to combine. - An enumerable of tuples. - - - - Joins the collection to a string. - - The type of items in the collection. - The items to join. - A function that converts from an item to a string value. - Separator to insert between each item. - A string representation of the collection. - - - - Gets a dictionary containing the first element from the sequence that has a key specified by the key selector. - - The type of items in the sequence. - The type of the key. - The sequence. - The key selector. - A dictionary. - - - - Provides the base for rules that can be built using the FakeConfiguration. - - - - - Represents a call rule that has a description of the calls the - rule is applicable to. - - - - - Allows for intercepting call to a fake object and - act upon them. - - - - - Gets whether this interceptor is applicable to the specified - call, if true is returned the Apply-method of the interceptor will - be called. - - The call to check for applicability. - True if the interceptor is applicable. - - - - Applies an action to the call, might set a return value or throw - an exception. - - The call to apply the interceptor to. - - - - Gets the number of times this call rule is valid, if it's set - to null its infinitely valid. - - - - - Writes a description of calls the rule is applicable to. - - The writer. - - - - Gets if this rule is applicable to the specified call. - - The call to validate. - True if the rule applies to the call. - - - - Writes a description of calls the rule is applicable to. - - The writer to write the description to. - - - - Gets or sets an action that is called by the Apply method to apply this - rule to a fake object call. - - - - - Gets a collection of actions that should be invoked when the configured - call is made. - - - - - Gets or sets values to apply to output and reference variables. - - - - - Gets or sets a value indicating whether the base method of the fake object call should be - called when the fake object call is made. - - - - - Gets or sets the number of times the configured rule should be used. - - - - - Gets a description of calls the rule is applicable to. - - - - - - Configuration for any call to a faked object. - - - - - Provides a way to configure predicates for when a call should be applied. - - The type of fake object that is going to be configured.. - - - - Applies a predicate to constrain which calls will be considered for interception. - - A predicate for a fake object call. - An action that writes a description of the predicate - to the output. - The configuration object. - - - - Provides configuration methods for methods that does not have a return value and - allows the use to specify validations for arguments. - - - - - Provides configuration methods for methods that does not have a return value. - - - - - Configuration that lets the developer specify that an exception should be - thrown by a fake object call. - - - - - Hides standard Object members to make fluent interfaces - easier to read. Found in the source of Autofac: - Based on blog post here: - - - - - - Hides the ToString-method. - - A string representation of the implementing object. - - - - Determines whether the specified is equal to this instance. - - The to compare with this instance. - - true if the specified is equal to this instance; otherwise, false. - - - - - Returns a hash code for this instance. - - - A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. - - - - - Gets the type. - - The exact runtime type of the current instance. - - - - Throws the specified exception when the currently configured - call gets called. - - A function that creates the exception to throw. - Configuration object. - - - - Configuration for callbacks of fake object calls. - - The type of interface to return. - - - - Executes the specified action when a matching call is being made. - - The action to invoke. - A configuration object. - - - - Configuration that lets you specify that a fake object call should call it's base method. - - - - - When the configured method or methods are called the call - will be delegated to the base method of the faked method. - - A configuration object. - The fake object is of an abstract type or an interface - and no base method exists. - - - - Lets the developer configure output values of out and ref parameters. - - - - - Specifies output values for out and ref parameters. Specify the values in the order - the ref and out parameters has in the configured call, any non out and ref parameters are ignored. - - The values. - A configuration object. - - - - Allows the developer to assert on a call that's configured. - - - - - Asserts that the configured call has happened the number of times - constrained by the repeatConstraint parameter. - - A constraint for how many times the call - must have happened. - The call has not been called a number of times - that passes the repeat constraint. - - - - Configures the specified call to do nothing when called. - - A configuration object. - - - - Provides configurations to validate arguments of a fake object call. - - The type of interface to return. - - - - Configures the call to be accepted when the specified predicate returns true. - - The argument predicate. - A configuration object. - - - - Matches calls that has the return type specified in the generic type parameter. - - The return type of the members to configure. - A configuration object. - - - - Manages registration of a set of components in a DictionaryContainer. - - - - - Registers the components of this module. - - The container to register components in. - - - - A factory that creates instances of the RecordingCallRuleType. - - - - - Creates the specified fake object. - - The type of the fake. - The fake object the rule belongs to. - The rule that's being recorded. - A RecordingCallRule instance. - - - - A factory responsible for creating start configuration for fake objects. - - - - - Creates a start configuration for the specified fake object that fakes the - specified type. - - The type of the fake object. - The fake object to configure. - A configuration object. - - - - An exception that can be thrown when something goes wrong with the configuration - of a fake object. - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - The message. - - - - Initializes a new instance of the class. - - The message. - The inner exception. - - - - Handles the configuration of fake object given an expression specifying - a call on a faked object. - - - - - Lets you set up expectations and configure repeat for the configured call. - - - - - Provides configuration for method calls that has a return value. - - - - - Specifies the number of times for the configured event. - - The number of times to repeat. - - - - A combination of the IAfterCallSpecifiedConfiguration and IOutAndRefParametersConfiguration - interfaces. - - - - - Aggregate of IReturnValueArgumentValidationConfiguration<T> and IWhereConfiguration<IAnyCallConfigurationWithReturnTypeSpecified<T>>. - - The type of fake object that is configured. - - - - Configures a call that returns a value and allows the use to - specify validations for arguments. - - The type of the member. - - - - Configures a call that returns a value. - - The type of the member. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - A function that produces the return value. - A configuration object. - - - - Configurations for when a configured call is recorded. - - - - - Provides configuration from VisualBasic. - - - - - Provides methods for configuring a fake object. - - The type of fake object. - - - - Configures the behavior of the fake object when a call that matches the specified - call happens. - - The type of the return value of the member. - An expression that specifies the calls to configure. - A configuration object. - - - - Configures the behavior of the fake object when a call that matches the specified - call happens. - - An expression that specifies the calls to configure. - A configuration object. - - - - Configures the behavior of the fake object when a call is made to any method on the - object. - - A configuration object. - - - - A call rule that has been recorded. - - - - - A call rule that "sits and waits" for the next call, when - that call occurs the recorded rule is added for that call. - - The type of the fake. - - - - Provides access to a set of calls and a call matcher for these calls. - - - - - Provides access to a call matcher. - - - - - Gets a call predicate that can be used to check if a fake object call matches - the specified constraint. - - - - - Gets the set of calls. - - - - - Represents a delegate that creates a configuration object from - a fake object and the rule to build. - - The rule that's being built. - The fake object the rule is for. - A configuration object. - - - - Represents a predicate that matches a fake object call. - - - - - Gets a value indicating whether the call matches the predicate. - - The call to match. - True if the call matches the predicate. - - - - Provides configuration of faked objects. - - - - - Gets a configuration for the specified faked object. - - The type of the fake. - The faked object to configure. - A configuration object. - The specified object is not a faked object. - The fakedObject parameter was null. - - - - Represents an argument and a dummy value to use for that argument. - - - - - Initializes a new instance of the class. - - A value indicating if the dummy value was successfully resolved. - The type of argument. - The resolved value. - - - - Gets a value indicating whether a dummy argument value was successfully - resolved. - - - - - Gets the type of the argument. - - - - - Gets the resolved value. - - - - - Represents an event that happens when a call has been intercepted by a proxy. - - - - - Initializes a new instance of the class. - - The call. - - - - Gets the call that was intercepted. - - The call. - - - - Keeps track of metadata for interceptions. - - - - - Gets whether the rule has been called the number of times specified or not. - - True if the rule has not been called the number of times specified. - - - - Gets or sets the number of times the rule has been used. - - - - - Gets or sets the rule this metadata object is tracking. - - - - - Manages attaching of argument constraints. - - The type of argument to constrain. - - - - Constrains the argument with a predicate. - - The predicate that should constrain the argument. - An action that will be write a description of the constraint. - A dummy argument value. - - - - Inverts the logic of the matches method. - - - - - Validates an argument, checks that it's valid in a specific fake call. - - - - - Writes a description of the argument constraint to the specified writer. - - - The writer. - - - - - Gets whether the argument is valid. - - The argument to validate. - True if the argument is valid. - - - - Default implementation of . - - - - - Attaches a fake manager to the proxy so that intercepted - calls can be configured. - - - - - Attaches a to the specified proxy, listening to - the event raiser. - - The type of the fake object proxy. - The proxy to attach to. - The event raiser to listen to. - - - - Gets the fake manager associated with the proxy. - - The proxy to get the manager from. - A fake manager. - - - - Attaches a to the specified proxy, listening to - the event raiser. - - The type of the fake object proxy. - The proxy to attach to. - The event raiser to listen to. - - - - Gets the fake manager associated with the proxy. - - The proxy to get the manager from. - A fake manager. - - - - Represents an object that can be tagged with another object. When implemented - by a proxy returned from an FakeItEasy uses the tag - to store a reference to the that handles that proxy. - - - - - Gets or sets the tag. - - - - - The default implementation of the IFakeObjectCallFormatter interface. - - - - - Provides string formatting for fake object calls. - - - - - Gets a human readable description of the specified - fake object call. - - The call to get a description for. - A description of the call. - - - - Gets a human readable description of the specified - fake object call. - - The call to get a description for. - A description of the call. - - - - Handles configuring of fake objects to delegate all their calls to a wrapped instance. - - - - - Manages configuration of fake objects to wrap instances. - - - - - Configures the specified faked object to wrap the specified instance. - - The faked object to configure. - The instance to wrap. - The recorder to use, null if no recording should be made. - - - - Configures the specified faked object to wrap the specified instance. - - The faked object to configure. - The instance to wrap. - The recorder to use, null if no recording should be made. - - - - A fake object container where delegates can be registered that are used to - resolve fake objects. - - - - - A container that can create fake objects. - - - - - Handles global configuration of fake object. - - - - - Applies base configuration to a fake object. - - The type the fake object represents. - The fake object to configure. - - - - Creates a dummy object of the specified type using the specified arguments if it's - supported by the container, returns a value indicating if it's supported or not. - - The type of dummy object to create. - The dummy object that was created if the method returns true. - True if a dummy object can be created. - - - - Initializes a new instance of the class. - Creates a new instance of the DelegateFakeObjectContainer. - - - - - Creates a fake object of the specified type using the specified arguments if it's - supported by the container, returns a value indicating if it's supported or not. - - The type of dummy object to create. - The fake object that was created if the method returns true. - True if a fake object can be created. - - - - Configures the fake. - - The type of fake. - The fake object. - - - - Registers the specified fake delegate. - - The type of the return value of the method that encapsulates. - The fake delegate. - - - - A IFakeObjectContainer implementation that uses MEF to load IFakeDefinitions and - IFakeConfigurations. - - - - - Initializes a new instance of the class. - - The dummy definitions. - The fake configurators. - - - - Creates a fake object of the specified type using the specified arguments if it's - supported by the container, returns a value indicating if it's supported or not. - - The type of fake object to create. - The fake object that was created if the method returns true. - True if a fake object can be created. - - - - Applies base configuration to a fake object. - - The type the fake object represents. - The fake object to configure. - - - - An exception that is thrown when there was an error creating a fake object. - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - The message. - - - - Initializes a new instance of the class. - - The message. - The inner exception. - - - Auto fake property rule. - - The central point in the API for proxied fake objects handles interception - of fake object calls by using a set of rules. User defined rules can be inserted - by using the AddRule-method. - - Event rule. - Object member rule. - Property behavior rule. - Property setter rule. - - - - Initializes a new instance of the class. - - - - - Adds a call rule to the fake object. - - The rule to add. - - - - Adds a call rule last in the list of user rules, meaning it has the lowest priority possible. - - The rule to add. - - - - Removes the specified rule for the fake object. - - The rule to remove. - - - - Adds an interception listener to the manager. - - The listener to add. - - - - Removes any specified user rules. - - - - - Gets the faked object. - - - - - Gets the faked type. - - - - - Gets the interceptions that are currently registered with the fake object. - - - - - Gets a collection of all the calls made to the fake object within the current scope. - - - - - A delegate responsible for creating FakeObject instances. - - An instance of . - - - - Represents a call to a fake object at interception time. - - - - - Represents a fake object call that can be edited. - - - - - Represents a call to a fake object. - - - - - Gets the method that's called. - - - - - Gets the arguments used in the call. - - - - - Gets the faked object the call is performed on. - - - - - Sets the return value of the call. - - The return value to set. - - - - Calls the base method of the faked type. - - - - - Sets the value of the argument at the specified index in the parameters list. - - The index of the argument to set the value of. - The value to set to the argument. - - - - Freezes the call so that it can no longer be modified. - - A completed fake object call. - - - - Sets that the call should not be recorded by the fake manager. - - - - - Represents a scope for fake objects, calls configured within a scope - are only valid within that scope. Only calls made within a scope - are accessible from within a scope so for example asserts will only - assert on those calls done within the scope. - - - - - Provides access to all calls made to fake objects within a scope. - Scopes calls so that only calls made within the scope are visible. - - - - - Creates a new scope and sets it as the current scope. - - The created scope. - - - - Creates a new scope and sets it as the current scope, using the specified - container as the container for the new scope. - - The container to use for the new scope. - The created scope. - - - - Closes the scope. - - - - - Adds an intercepted call to the current scope. - - The fake object. - The call that is intercepted. - - - - Adds a fake object call to the current scope. - - The fake object. - The rule to add. - - - - Represents a completed call to a fake object. - - - - - Gets the value set to be returned from the call. - - - - - Used by the event raising rule of fake objects to get the event arguments used in - a call to Raise.With. - - - - - Gets the sender of the event. - - - - - Gets the event arguments of the event. - - - - - Represents a listener for fake object calls, can be plugged into a - FakeManager instance to listen to all intercepted calls. - - The OnBeforeCallIntercepted method will be invoked before the OnBeforeCallIntercepted method of any - previously added listener. The OnAfterCallIntercepted method will be invoked after the OnAfterCallIntercepted - method of any previously added listener. - - - - Called when the interception begins but before any call rules - has been applied. - - The intercepted call. - - - - Called when the interception has been completed and rules has been - applied. - - The intercepted call. - The rule that was applied to the call. - - - - Handles comparisons of instances of . - - - - - Gets a value indicating whether the two instances of would invoke the same method - if invoked on an instance of the target type. - - The type of target for invocation. - The first . - The second . - True if the same method would be invoked. - - - - A null implementation for the IFakeObjectContainer interface. - - - - - Always returns false and sets the fakeObject to null. - - The type of dummy object to create. - Output variable for the fake object that will always be set to null. - Always return false. - - - - Applies base configuration to a fake object. - - The type the fake object represents. - The fake object to configure. - - - - A call rule that applies to any call and just delegates the - call to the wrapped object. - - - - - Initializes a new instance of the class. - Creates a new instance. - - - The object to wrap. - - - - - Gets whether this interceptor is applicable to the specified - call, if true is returned the Apply-method of the interceptor will - be called. - - The call to check for applicability. - True if the interceptor is applicable. - - - - Applies an action to the call, might set a return value or throw - an exception. - - The call to apply the interceptor to. - - - - Gets the number of times this call rule is valid, if it's set - to null its infinitely valid. - - - - - - An interface to be implemented by classes that can generate proxies for FakeItEasy. - - - - - Generates a proxy of the specified type and returns a result object containing information - about the success of the generation and the proxy if it was generated. - - The type of proxy to generate. - Interfaces to be implemented by the proxy. - Arguments to pass to the constructor of the type in . - The custom attribute builders. - A result containing the generated proxy. - - - - Generates a proxy of the specified type and returns a result object containing information - about the success of the generation and the proxy if it was generated. - - The type of proxy to generate. - Interfaces to be implemented by the proxy. - Arguments to pass to the constructor of the type in . - A result containing the generated proxy. - - - - Gets a value indicating whether the specified member can be intercepted by the proxy generator. - - The member to test. - The instance the method will be called on. - The reason the method can not be intercepted. - True if the member can be intercepted. - - - - An object that raises an event every time a call to a proxy has been intercepted. - - - - - Raised when a call is intercepted. - - - - - An adapter that adapts an to a . - - - - - Initializes a new instance of the class. - - The invocation. - - - - Freezes the call so that it can no longer be modified. - - A completed fake object call. - - - - Calls the base method, should not be used with interface types. - - - - - Sets the specified value to the argument at the specified index. - - The index of the argument to set the value to. - The value to set to the argument. - - - - Sets the return value of the call. - - The return value. - - - - Returns a description of the call. - - - A that represents this instance. - - - - - Gets a human readable description of the call. - - - - - - Gets the value set to be returned from the call. - - - - - Gets the method that's called. - - - - - Gets the arguments used in the call. - - - - - Gets the faked object the call is performed on. - - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to No constructor matches the passed arguments for constructor.. - - - - - Looks up a localized string similar to Arguments for constructor specified for interface type.. - - - - - Looks up a localized string similar to The type of proxy "{0}" is sealed.. - - - - - Looks up a localized string similar to The type of proxy must be an interface or a class but it was {0}.. - - - - - Looks up a localized string similar to No default constructor was found on the type {0}.. - - - - - The default implementation of the IFakeAndDummyManager interface. - - - - - Handles the creation of fake and dummy objects. - - - - - Creates a dummy of the specified type. - - The type of dummy to create. - The created dummy. - The current IProxyGenerator is not able to generate a fake of the specified type and - the current IFakeObjectContainer does not contain the specified type. - - - - Creates a fake object of the specified type. - - The type of fake object to generate. - Options for building the fake object. - A fake object. - The current IProxyGenerator is not able to generate a fake of the specified type. - - - - Tries to create a dummy of the specified type. - - The type of dummy to create. - Outputs the result dummy when creation is successful. - A value indicating whether the creation was successful. - - - - Tries to create a fake object of the specified type. - - The type of fake to create. - Options for the creation of the fake. - The created fake object when creation is successful. - A value indicating whether the creation was successful. - - - - Default implementation of the IFakeCreator-interface. - - - - - A facade used by the public API for testability. - - - - - Creates a fake object of the specified type. - - The type of fake to create. - Options for the created fake object. - The created fake object. - Was unable to generate the fake in the current configuration. - - - - Creates a dummy object, this can be a fake object or an object resolved - from the current IFakeObjectContainer. - - The type of dummy to create. - The created dummy. - Was unable to generate the fake in the current configuration and - no dummy was registered in the container for the specified type.. - - - - Creates a collection of fakes of the specified type. - - The type of fakes to create. - The number of fakes in the collection. - A collection of fake objects of the specified type. - - - - Initializes a new instance of the class. - - The fake and dummy manager. - - - - Creates a fake object of the specified type. - - The type of fake to create. - Options for the created fake object. - The created fake object. - Was unable to generate the fake in the current configuration. - - - - Creates a collection of fakes of the specified type. - - The type of fakes to create. - The number of fakes in the collection. - - A collection of fake objects of the specified type. - - - - - Creates a dummy object, this can be a fake object or an object resolved - from the current IFakeObjectContainer. - - The type of dummy to create. - The created dummy. - Was unable to generate the fake in the current configuration and - no dummy was registered in the container for the specified type.. - - - - Provides options for fake wrappers. - - The type of the fake object generated. - - - - Provides options for generating fake object. - - The type of fake object generated. - - - - Specifies arguments for the constructor of the faked class. - - The arguments to pass to the constructor of the faked class. - Options object. - - - - Specifies arguments for the constructor of the faked class by giving an expression with the call to - the desired constructor using the arguments to be passed to the constructor. - - The constructor call to use when creating a class proxy. - Options object. - - - - Specifies that the fake should delegate calls to the specified instance. - - The object to delegate calls to. - Options object. - - - - Specifies that the fake should be created with these additional attributes. - - The attributes to build into the proxy. - Options object. - - - - Sets up the fake to implement the specified interface in addition to the - originally faked class. - - The type of interface to implement. - Options object. - The specified type is not an interface. - The specified type is null. - - - - Specifies an action that should be run over the fake object - once it's created. - - An action to perform. - Options object. - - - - Specifies a fake recorder to use. - - The recorder to use. - Options object. - - - - Initializes a new instance of the class. - - The container. - The fake object creator. - - - - Contains the result of a call to TryCreateProxy of IProxyGenerator. - - - - - Initializes a new instance of the class. - Creates a new instance representing a failed proxy - generation attempt. - - - The reason the proxy generation failed. - - - - - Initializes a new instance of the class. - Creates a new instance representing a successful proxy - generation. - - - The proxy that was generated. - - - An event raiser that raises - events when calls are intercepted to the proxy. - - - - - Gets a value indicating whether the proxy was successfully created. - - - - - Gets the generated proxy when it was successfully created. - - - - - Gets the event raiser that raises events when calls to the proxy are - intercepted. - - - - - Gets the reason for failure when the generation was not successful. - - - - - Represents a text writer that writes to the output. - - - - - Writes the specified value to the output. - - The value to write. - The writer for method chaining. - - - - Formats the specified argument value as a string and writes - it to the output. - - The value to write. - The writer for method chaining. - - - - Indents the writer. - - A disposable that will unindent the writer when disposed. - - - - Represents a definition of how a fake object of the type T should - be created. - - The type of fake. - - - - Represents a definition of how dummies of the specified type should be created. - - - - - Creates the fake. - - The fake object. - - - - Gets the type of fake object the definition is for. - - - - - Creates the dummy. - - The dummy object. - - - - Creates the dummy. - - The dummy object. - - - - Gets the type the definition is for. - - For type. - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to The Apply method of the ExpressionInterceptor may no be called before the Applicator property has been set.. - - - - - Looks up a localized string similar to The specified argument name does not exist in the ArgumentList.. - - - - - Looks up a localized string similar to Arguments for constructor was specified when generating proxy of interface type.. - - - - - Looks up a localized string similar to An argument validation was not configured correctly.. - - - - - Looks up a localized string similar to The method '{0}' was called too few times, expected #{1} times but was called #{2} times.. - - - - - Looks up a localized string similar to The method '{0}' was called too many times, expected #{1} times but was called #{2} times.. - - - - - Looks up a localized string similar to Can not create fake of the type '{0}', it's not registered in the current container and the current IProxyGenerator can not generate the fake. - - The following constructors failed: - {1}. - - - - - Looks up a localized string similar to Error when accessing FakeObject, the specified argument is of the type '{0}' which is not faked.. - - - - - Looks up a localized string similar to An ExpressionCallMatcher can only be created for expressions that represents a method call or a property getter.. - - - - - Looks up a localized string similar to - - The current proxy generator failed to create a proxy with the specified arguments for the constructor: - - Reason for failure: - - {0} - - . - - - - - Looks up a localized string similar to FakeItEasy failed to create fake object of type "{0}". - - 1. The type is not registered in the current IFakeObjectContainer. - 2. The current IProxyGenerator failed to generate a proxy for the following reason: - - {1}. - - - - - Looks up a localized string similar to Unable to create fake object.. - - - - - Looks up a localized string similar to Only abstract classes can be faked using the A.Fake-method that takes an enumerable of objects as arguments for constructor, use the overload that takes an expression instead.. - - - - - Looks up a localized string similar to The member accessor expression must be a lambda expression with a MethodCallExpression or MemberAccessExpression as its body.. - - - - - Looks up a localized string similar to The specified method can not be configured since it can not be intercepted by the current IProxyGenerator.. - - - - - Looks up a localized string similar to The method of the call did not match the method of the recorded call, the recorded sequence is no longer valid.. - - - - - Looks up a localized string similar to No constructor matching the specified arguments was found on the type {0}.. - - - - - Looks up a localized string similar to Can not generate fake object for the class since no default constructor was found, specify a constructor call.. - - - - - Looks up a localized string similar to All the recorded calls has been applied, the recorded sequence is no longer valid.. - - - - - Looks up a localized string similar to Only expression of the type ExpressionType.New (constructor calls) are accepted.. - - - - - Looks up a localized string similar to The Now-method on the event raise is not meant to be called directly, only use it to register to an event on a fake object that you want to be raised.. - - - - - Looks up a localized string similar to The number of values for out and ref parameters specified does not match the number of out and ref parameters in the call.. - - - - - Looks up a localized string similar to A scope for ordered assertions is already opened, close that scope before opening another one.. - - - - - Looks up a localized string similar to The specified call is not made on a fake object.. - - - - - Looks up a localized string similar to The current fake proxy generator can not create proxies of the type {0}.. - - - - - Looks up a localized string similar to FakeItEasy was unable to create dummy of type "{0}", register it in the current IFakeObjectContainer to enable this.. - - - - - Looks up a localized string similar to Expected to find call {0} the number of times specified by the predicate '{1}' but found it {2} times among the calls:. - - - - - Looks up a localized string similar to The number of argument names does not match the number of arguments.. - - - - - An exception thrown when an expectation is not met (when asserting on fake object calls). - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - The message. - - - - Initializes a new instance of the class. - - The message. - The inner exception. - - - - Represents a class that can parse a lambda expression - that represents a method or property call. - - - - - Parses the specified expression. - - The expression to parse. - The parsed expression. - - - - Handles the matching of fake object calls to expressions. - - - - - Initializes a new instance of the class. - - The call specification. - The constraint factory. - The method info manager to use. - A parser to use to parse call expressions. - - - - Matches the specified call against the expression. - - The call to match. - True if the call is matched by the expression. - - - - Gets a description of the call. - - Description of the call. - - - - Gets a human readable description of calls that will be matched by this - matcher. - - - - - An implementation of the interface that uses - expressions for evaluating if the rule is applicable to a specific call. - - - - - Initializes a new instance of the class. - - The expression matcher to use. - - - - Returns a that represents this instance. - - - A that represents this instance. - - - - - Handles the instantiation of ExpressionCallRule instance. - - An expression specifying the call. - A rule instance. - - - - Manages breaking call specification expression into their various parts. - - - - - Manages breaking call specification expression into their various parts. - - - - - Gets the fake object an expression is called on. - - The call expression. - The FakeManager instance that manages the faked object the call is made on. - The fakeObjectCall is null. - The specified expression is not an expression where a call is made to a faked object. - - - - Gets the fake object an expression is called on. - - The call expression. - A FakeObject. - The fakeObjectCall is null. - The specified expression is not an expression where a call is made to a faked object. - - - - Provides extension methods for configuring and asserting on faked objects - without going through the static methods of the Fake-class. - - - - - Configures the behavior of the fake object when a call that matches the specified - call happens. - - The type of fake object to configure. - The type of the return value of the member. - The faked object to configure. - An expression that specifies the calls to configure. - A configuration object. - - - - Configures the behavior of the fake object when a call that matches the specified - call happens. - - The faked object to configure. - The type of fake object to configure. - An expression that specifies the calls to configure. - A configuration object. - - - - Configures the behavior of the fake object when a call is made to any method on the - object. - - The type of the fake. - The faked object. - A configuration object. - - - - Provides an extension method for configuring fake objects. - - - - - Gets an object that provides a fluent interface syntax for configuring - the fake object. - - The type of the fake object. - The fake object to configure. - A configuration object. - The fakedObject was null. - The object passed in is not a faked object. - - - - Provides static methods for accessing fake objects. - - - - - Gets the fake object that manages the faked object. - - The faked object to get the manager object for. - The fake object manager. - - - - Creates a new scope and sets it as the current scope. When inside a scope the - getting the calls made to a fake will return only the calls within that scope and when - asserting that calls were made, the calls must have been made within that scope. - - The created scope. - - - - Creates a new scope and sets it as the current scope. When inside a scope the - getting the calls made to a fake will return only the calls within that scope and when - asserting that calls were made, the calls must have been made within that scope. - - The container to use within the specified scope. - The created scope. - - - - Gets a value indicating whether the two objects are equal. - - The first object to compare. - The second object to compare. - True if the two objects are equal. - - - - Gets a value indicating whether the two objects are the same reference. - - The object A. - The object B. - True if the objects are the same reference. - - - - Gets all the calls made to the specified fake object. - - The faked object. - A collection containing the calls to the object. - The object passed in is not a faked object. - - - - Clears the configuration of the faked object. - - The faked object to clear the configuration of. - - - - Sets a new fake to each property or field that is tagged with the FakeAttribute in the specified - fixture. - - The object to initialize. - - - - Represents a fake object that provides an API for configuring a faked object, exposed by the - FakedObject-property. - - The type of the faked object. - - - - Initializes a new instance of the class. - Creates a new fake object. - - - - - Initializes a new instance of the class. - Creates a new fake object using the specified options. - - - Options used to create the fake object. - - - - - Configures calls to the specified member. - - An expression specifying the call to configure. - A configuration object. - - - - Configures calls to the specified member. - - The type of value the member returns. - An expression specifying the call to configure. - A configuration object. - - - - Configures any call to the fake object. - - A configuration object. - - - - Gets the faked object. - - - - - Gets all calls made to the faked object. - - - - - Used to tag fields and properties that will be initialized through the - Fake.Initialize-method. - - - - - Provides the base implementation for the IFakeConfigurator-interface. - - The type of fakes the configurator can configure. - - - - Provides configurations for fake objects of a specific type. - - - - - Applies the configuration for the specified fake object. - - The fake object to configure. - - - - Gets the type the instance provides configuration for. - - - - - Configures the fake. - - The fake object. - - - - Applies the configuration for the specified fake object. - - The fake object to configure. - - - - Asserts the type of the that fake is of correct. - - The fake object. - - - - Gets the type the instance provides configuration for. - - - - - - Provides extension methods for fake objects. - - - - - Specifies NumberOfTimes(1) to the IRepeatConfiguration{TFake}. - - The configuration to set repeat 1 to. - - - - Specifies NumberOfTimes(2) to the IRepeatConfiguration{TFake}. - - The configuration to set repeat 2 to. - - - - Specifies that a call to the configured call should be applied no matter what arguments - are used in the call to the faked object. - - The type of the interface. - The configuration. - A configuration object. - - - - Filters to contain only the calls that matches the call specification. - - The type of fake the call is made on. - The calls to filter. - The call to match on. - A collection of the calls that matches the call specification. - - - - Asserts that the specified call must have happened once or more. - - The configuration to assert on. - - - - Asserts that the specified has not happened. - - The configuration to assert on. - - - - Configures the call to return the next value from the specified sequence each time it's called. Null will - be returned when all the values in the sequence has been returned. - - - The type of return value. - - - The call configuration to extend. - - - The values to return in sequence. - - - - - Specifies the value to return when the configured call is made. - - The type of the return value. - The configuration to extend. - The value to return. - A configuration object. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The type of the return value. - The configuration to extend. - A function that produces the return value. - A configuration object. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The type of the return value. - Type of the first argument of the faked method call. - The configuration to extend. - A function that produces the return value. - A configuration object. - The signatures of the faked method and the do not match. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The configuration to extend. - A function that produces the return value. - The type of the return value. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - A configuration object. - The signatures of the faked method and the do not match. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The configuration to extend. - A function that produces the return value. - The type of the return value. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - A configuration object. - The signatures of the faked method and the do not match. - - - - Specifies a function used to produce a return value when the configured call is made. - The function will be called each time this call is made and can return different values - each time. - - The configuration to extend. - A function that produces the return value. - The type of the return value. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - Type of the fourth argument of the faked method call. - A configuration object. - The signatures of the faked method and the do not match. - - - - Writes the calls in the collection to the specified text writer. - - The type of the calls. - The calls to write. - The writer to write the calls to. - - - - Writes all calls in the collection to the console. - - The type of the calls. - The calls to write. - - - - Gets the argument at the specified index in the arguments collection - for the call. - - The type of the argument to get. - The call to get the argument from. - The index of the argument. - The value of the argument with the specified index. - - - - Gets the argument with the specified name in the arguments collection - for the call. - - The type of the argument to get. - The call to get the argument from. - The name of the argument. - The value of the argument with the specified name. - - - - Makes the fake strict, this means that any call to the fake - that has not been explicitly configured will throw an exception. - - The type of fake object. - The configuration. - A configuration object. - - - - Applies a predicate to constrain which calls will be considered for interception. - - - The return type of the where method. - - - The configuration object to extend. - - - A predicate for a fake object call. - - to the output. - - The configuration object. - - - - - Executes the specified action when a matching call is being made. This overload can also be used to fake calls with arguments when they don't need to be accessed. - - The type of fake object. - The configuration that is extended. - The to invoke. - The fake object. - - - - Executes the specified action when a matching call is being made. - - The configuration that is extended. - The to invoke. - The type of fake object. - Type of the first argument of the faked method call. - The signatures of the faked method and the do not match. - The fake object. - - - - Executes the specified action when a matching call is being made. - - The configuration that is extended. - The to invoke. - The type of fake object. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - The signatures of the faked method and the do not match. - The fake object. - - - - Executes the specified action when a matching call is being made. - - The configuration that is extended. - The to invoke. - The type of fake object. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - The signatures of the faked method and the do not match. - The fake object. - - - - Executes the specified action when a matching call is being made. - - The configuration that is extended. - The to invoke. - The type of fake object. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - Type of the fourth argument of the faked method call. - The signatures of the faked method and the do not match. - The fake object. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - The exception to throw when a call that matches is invoked. - Configuration object. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Configuration object. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Type of the first argument of the faked method call. - Configuration object. - The signatures of the faked method and the do not match. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Configuration object. - The signatures of the faked method and the do not match. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - Configuration object. - The signatures of the faked method and the do not match. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - A function that returns the exception to throw when invoked. - Type of the first argument of the faked method call. - Type of the second argument of the faked method call. - Type of the third argument of the faked method call. - Type of the fourth argument of the faked method call. - Configuration object. - The signatures of the faked method and the do not match. - - - - Throws the specified exception when the currently configured - call gets called. - - The configuration to use. - The type of exception to throw. - Configuration object. - - - - Provides methods for guarding method arguments. - - - - - Throws an exception if the specified argument is null. - - The argument. - Name of the argument. - The specified argument was null. - - - - Gets the value produced by the specified expression when compiled and invoked. - - The expression to get the value from. - The value produced by the expression. - - - - Provides access to the file system. - - - - - Opens the specified file in the specified mode. - - The full path and name of the file to open. - The mode to open the file in. - A stream for reading and writing the file. - - - - Gets a value indicating whether the specified file exists. - - The path and name of the file to check. - True if the file exists. - - - - Creates a file with the specified name. - - The name of the file to create. - - - - A simple implementation of an IoC container. - - - - - The dictionary that stores the registered services. - - - - - Initializes a new instance of the class. - - - - - Resolves an instance of the specified component type. - - Type of the component. - An instance of the component type. - - - - Registers the specified resolver. - - The type of component to register. - The resolver. - - - - Registers the specified resolver as a singleton. - - The type of component to register. - The resolver. - - - - Provides properties and methods to specify repeat. - - - - - Specifies the number of times as repeat. - - The number of times expected. - A Repeated instance. - - - - Specifies once as the repeat. - - - - - Specifies twice as the repeat. - - - - - Lets you specify options for the next call to a fake object. - - - - - Specifies options for the next call to the specified fake object. The next call will - be recorded as a call configuration. - - The type of the faked object. - The faked object to configure. - A call configuration object. - - - - Provides functionality for making ordered assertions on fakes. - - - - - Creates a scope that changes the behavior on asserts so that all asserts within - the scope must be to calls in the specified collection of calls. Calls must have happened - in the order that the asserts are specified or the asserts will fail. - - The calls to assert among. - A disposable used to close the scope. - - - - Provides static methods for the IOutputWriter-interface. - - - - - Writes a new line to the writer. - - The writer to write to. - The writer. - - - - Writes the format string to the writer. - - The writer to write to. - The format string to write. - Replacements for the format string. - The writer. - - - - Writes the specified object to the writer (using the ToString-method of the object). - - The writer to write to. - The value to write to the writer. - The writer. - - - - Allows the developer to raise an event on a faked object. - - - - - Raises an event on a faked object by attaching the event handler produced by the method - to the event that is to be raised. - - The type of the event args. - The sender of the event. - The instance containing the event data. - A Raise(TEventArgs)-object that exposes the event handler to attach. - - - - Raises an event on a faked object by attaching the event handler produced by the method - to the event that is to be raised. - - The type of the event arguments. - The instance containing the event data. - - A Raise(TEventArgs)-object that exposes the event handler to attach. - - - - - Raises an event with empty event arguments on a faked object by attaching the event handler produced by the method - to the event that is to be raised. - - - A Raise(TEventArgs)-object that exposes the event handler to attach. - - - - - A class exposing an event handler to attach to an event of a faked object - in order to raise that event. - - The type of the event args. - - - - Register this event handler to an event on a faked object in order to raise that event. - - The sender of the event. - Event args for the event. - - - - Gets a generic event handler to attach to the event to raise. - - - - - Provides methods for creating recorders for self initializing fakes. - - - - - Provides syntax for specifying the number of times a call must have been repeated when asserting on - fake object calls. - - A.CallTo(() => foo.Bar()).Assert(Happened.Once.Exactly); - - - - Specifies that a call must have been repeated a number of times - that is validated by the specified repeatValidation argument. - - A predicate that specifies the number of times - a call must have been made. - A Repeated-instance. - - - - When implemented gets a value indicating if the repeat is matched - by the Happened-instance. - - The repeat of a call. - True if the repeat is a match. - - - - Asserts that a call has not happened at all. - - - - - The call must have happened exactly the number of times that is specified in the next step. - - - - - The call must have happened any number of times greater than or equal to the number of times that is specified - in the next step. - - - - - The call must have happened any number of times less than or equal to the number of times that is specified - in the next step. - - - - - Handles the registration of root dependencies in an IoC-container. - - - - - Registers the dependencies. - - The container to register the dependencies in. - - - - DTO for recorded calls. - - - - - Initializes a new instance of the class. - - The method. - The output arguments. - The return value. - - - - Gets the method that was called. - - The method. - - - - Gets the output arguments of the call. - - The output arguments. - - - - Gets the return value of the call. - - The return value. - - - - Represents storage for recorded calls for self initializing - fakes. - - - - - Loads the recorded calls for the specified recording. - - The recorded calls for the recording with the specified id. - - - - Saves the specified calls as the recording with the specified id, - overwriting any previous recording. - - The calls to save. - - - - An interface for recorders that provides stored responses for self initializing fakes. - - - - - Applies the call if the call has been recorded. - - The call to apply to from recording. - - - - Records the specified call. - - The call to record. - - - - Gets a value indicating whether the recorder is currently recording. - - - - - An exception that can be thrown when recording for self initialized - fakes fails or when playback fails. - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - The message. - - - - Initializes a new instance of the class. - - The message. - The inner exception. - - - - Manages the applying of recorded calls and recording of new calls when - using self initialized fakes. - - - - - Initializes a new instance of the class. - - The storage. - - - - Applies the call if the call has been recorded. - - The call to apply to from recording. - - - - Records the specified call. - - The call to record. - - - - Saves all recorded calls to the storage. - - - - - Gets a value indicating whether the recorder is currently recording. - - - - - - Represents a factory responsible for creating recording manager - instances. - - The storage the manager should use. - A RecordingManager instance. - - - - A call rule use for self initializing fakes, delegates call to - be applied by the recorder. - - - - - Initializes a new instance of the class. - - The wrapped rule. - The recorder. - - - - Gets whether this interceptor is applicable to the specified - call, if true is returned the Apply-method of the interceptor will - be called. - - The call to check for applicability. - True if the interceptor is applicable. - - - - Applies an action to the call, might set a return value or throw - an exception. - - The call to apply the interceptor to. - - - - Gets the number of times this call rule is valid, if it's set - to null its infinitely valid. - - - - - - An attribute that can be applied to code that should be fixed because there's a - code smell. - - - - - Gets or sets the description of the smell. - - - - - Used to tag fields and properties that will be initialized as a SUT through the Fake.Initialize-method. - - - - - Fixes so that existing Serializable-attributes are omitted in the compilation - of the silverlight project. - - - - - Fixes so that existing NonSerialized-attributes are omitted in the compilation - of the silverlight project. - - - - + + + + FakeItEasy + + + + + Provides methods for generating fake objects. + + + + + Creates a fake object of the type T. + + The type of fake object to create. + A fake object. + + + + Creates a fake object of the type T. + + The type of fake object to create. + A lambda where options for the built fake object can be specified. + A fake object. + + + + Creates a collection of fakes of the specified type. + + The type of fakes to create. + The number of fakes in the collection. + A collection of fake objects of the specified type. + + + + Gets a dummy object of the specified type. The value of a dummy object + should be irrelevant. Dummy objects should not be configured. + + The type of dummy to return. + A dummy object of the specified type. + Dummies of the specified type can not be created. + + + + Gets a value indicating whether the two objects are equal. + + The first object to compare. + The second object to compare. + True if the two objects are equal. + + + + Gets a value indicating whether the two objects are the same reference. + + The object A. + The object B. + True if the objects are the same reference. + + + + Configures a call to a faked object. + + An expression where the configured member is called. + A configuration object. + + + + Gets a configuration object allowing for further configuration of + any call to the specified faked object. + + + The fake to configure. + + + A configuration object. + + + + + Configures a call to a faked object. + + The type of member on the faked object to configure. + An expression where the configured member is called. + A configuration object. + + + + Provides an API entry point for constraining arguments of fake object calls. + + The type of argument to validate. + + + + Gets an argument constraint object that will be used to constrain a method call argument. + + + + + Gets a constraint that considers any value of an argument as valid. + + This is a shortcut for the "Ignored"-property. + + + + Gets a constraint that considers any value of an argument as valid. + + + + + Provides configuration for any (not a specific) call on a faked object. + + + + + Gets a configuration object allowing for further configuration of + any call to the specified faked object. + + The faked object to configure. + A configuration object. + + + + Gets a value indicating whether the two objects are equal. + + The first object to compare. + The second object to compare. + True if the two objects are equal. + + + + Gets a value indicating whether the two objects are the same reference. + + The object A. + The object B. + True if the objects are the same reference. + + + + A collection of method arguments. + + + + + The arguments this collection contains. + + + + + Initializes a new instance of the class. + + The arguments. + The argument names. + + + + Initializes a new instance of the class. + + The arguments. + The method. + + + + Returns an enumerator that iterates through the collection or arguments. + + + A that can be used to iterate through the collection. + + + + + Gets the argument at the specified index. + + The type of the argument to get. + The index of the argument. + The argument at the specified index. + + + + Gets the argument with the specified name. + + The type of the argument to get. + The name of the argument. + The argument with the specified name. + + + + Gets an empty ArgumentList. + + + + + Gets the number of arguments in the list. + + + + + Gets the names of the arguments in the list. + + + + + Gets the argument at the specified index. + + The index of the argument to get. + The argument at the specified index. + + + + Provides validation extensions for . + + + + + Constrains an argument so that it must be null (Nothing in VB). + + The type of the argument. + The constraint manager to match the constraint. + A dummy argument value. + + + + Constrains the string argument to contain the specified text. + + The constraint manager to match the constraint. + The string the argument string should contain. + A dummy argument value. + + + + Constrains the sequence so that it must contain the specified value. + + The constraint manager to match the constraint. + The value the collection should contain. + The type of sequence. + A dummy argument value. + + + + Constrains the string so that it must start with the specified value. + + The constraint manager to match the constraint. + The value the string should start with. + A dummy argument value. + + + + Constrains the string so that it must end with the specified value. + + The constraint manager to match the constraint. + The value the string should end with. + A dummy argument value. + + + + Constrains the string so that it must be null or empty. + + The constraint manager to match the constraint. + A dummy argument value. + + + + Constrains argument value so that it must be greater than the specified value. + + The constraint manager to match the constraint. + The value the string should start with. + The type of argument to constrain. + A dummy argument value. + + + + The tested argument collection should contain the same elements as the + as the specified collection. + + The constraint manager to match the constraint. + The sequence to test against. + The type of argument to constrain. + A dummy argument value. + + + + Tests that the IEnumerable contains no items. + + The type of argument. + The constraint manager to match the constraint. + A dummy argument value. + + + + Tests that the passed in argument is equal to the specified value. + + The type of the argument. + The constraint manager to match the constraint. + The value to compare to. + A dummy argument value. + + + + Tests that the passed in argument is the same instance (reference) as the specified value. + + The type of the argument. + The constraint manager to match the constraint. + The reference to compare to. + A dummy argument value. + + + + Constrains the argument to be of the specified type. + + The type of argument in the method signature. + The constraint manager. + The type to constrain the argument with. + A dummy value. + + + + Constrains the argument with a predicate. + + + The constraint manager. + + + The predicate that should constrain the argument. + + + A human readable description of the constraint. + + + The type of argument in the method signature. + + + A dummy argument value. + + + + + Constrains the argument with a predicate. + + + The constraint manager. + + + The predicate that should constrain the argument. + + + A human readable description of the constraint format string. + + + Arguments for the format string. + + + The type of argument in the method signature. + + + A dummy argument value. + + + + + Constrains the argument with a predicate. + + + The constraint manager. + + + The predicate that should constrain the argument. + + + The type of argument in the method signature. + + + A dummy argument value. + + + + + Constrains the argument to be not null (Nothing in VB) and to match + the specified predicate. + + The type of the argument to constrain. + The constraint manager. + The predicate that constrains non null values. + An action that writes a description of the constraint + to the output. + A dummy argument value. + + + + Provides string formatting for arguments of type T when written in call lists. + + The type of the arguments which will be formatted by this instance. + + + + Provides string formatting for arguments when written in + call lists. + + + + + Gets a string representing the specified argument value. + + The argument value to get as a string. + A string representation of the value. + + + + Gets the type of arguments this formatter works on. + + + + + Gets the priority of the formatter, when two formatters are + registered for the same type the one with the highest + priority is used. + + + + + Gets a string representing the specified argument value. + + The argument value to get as a string. + A string representation of the value. + + + + Gets a string representing the specified argument value. + + The argument value to get as a string. + A string representation of the value. + + + + Gets the type of arguments this formatter works on. + + + + + Gets the priority of the formatter, when two formatters are + registered for the same type the one with the highest + priority is used. + + + + + Provides extension methods for the common uses. + + + + + Replaces the format item in a specified System.String with the text equivalent + of the value of a corresponding System.Object instance in a specified array using + invariant culture as . + + A composite format string. + An array containing zero or more objects to format. + The formatted string. + + + + Gets an enumerable of tuples where the first value of each tuple is a value + from the first collection and the second value of each tuple is the value at the same position + from the second collection. + + The type of values in the first collection. + The type of values in the second collection. + The first of the collections to combine. + The second of the collections to combine. + An enumerable of tuples. + + + + Joins the collection to a string. + + The type of items in the collection. + The items to join. + A function that converts from an item to a string value. + Separator to insert between each item. + A string representation of the collection. + + + + Gets a dictionary containing the first element from the sequence that has a key specified by the key selector. + + The type of items in the sequence. + The type of the key. + The sequence. + The key selector. + A dictionary. + + + + Provides the base for rules that can be built using the FakeConfiguration. + + + + + Represents a call rule that has a description of the calls the + rule is applicable to. + + + + + Allows for intercepting call to a fake object and + act upon them. + + + + + Gets whether this interceptor is applicable to the specified + call, if true is returned the Apply-method of the interceptor will + be called. + + The call to check for applicability. + True if the interceptor is applicable. + + + + Applies an action to the call, might set a return value or throw + an exception. + + The call to apply the interceptor to. + + + + Gets the number of times this call rule is valid, if it's set + to null its infinitely valid. + + + + + Writes a description of calls the rule is applicable to. + + The writer. + + + + Gets if this rule is applicable to the specified call. + + The call to validate. + True if the rule applies to the call. + + + + Writes a description of calls the rule is applicable to. + + The writer to write the description to. + + + + Gets or sets an action that is called by the Apply method to apply this + rule to a fake object call. + + + + + Gets a collection of actions that should be invoked when the configured + call is made. + + + + + Gets or sets values to apply to output and reference variables. + + + + + Gets or sets a value indicating whether the base method of the fake object call should be + called when the fake object call is made. + + + + + Gets or sets the number of times the configured rule should be used. + + + + + Gets a description of calls the rule is applicable to. + + + + + + Configuration for any call to a faked object. + + + + + Provides a way to configure predicates for when a call should be applied. + + The type of fake object that is going to be configured.. + + + + Applies a predicate to constrain which calls will be considered for interception. + + A predicate for a fake object call. + An action that writes a description of the predicate + to the output. + The configuration object. + + + + Provides configuration methods for methods that does not have a return value and + allows the use to specify validations for arguments. + + + + + Provides configuration methods for methods that does not have a return value. + + + + + Configuration that lets the developer specify that an exception should be + thrown by a fake object call. + + + + + Hides standard Object members to make fluent interfaces + easier to read. Found in the source of Autofac: + Based on blog post here: + + + + + + Hides the ToString-method. + + A string representation of the implementing object. + + + + Determines whether the specified is equal to this instance. + + The to compare with this instance. + + true if the specified is equal to this instance; otherwise, false. + + + + + Returns a hash code for this instance. + + + A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. + + + + + Gets the type. + + The exact runtime type of the current instance. + + + + Throws the specified exception when the currently configured + call gets called. + + A function that creates the exception to throw. + Configuration object. + + + + Configuration for callbacks of fake object calls. + + The type of interface to return. + + + + Executes the specified action when a matching call is being made. + + The action to invoke. + A configuration object. + + + + Configuration that lets you specify that a fake object call should call it's base method. + + + + + When the configured method or methods are called the call + will be delegated to the base method of the faked method. + + A configuration object. + The fake object is of an abstract type or an interface + and no base method exists. + + + + Lets the developer configure output values of out and ref parameters. + + + + + Specifies output values for out and ref parameters. Specify the values in the order + the ref and out parameters has in the configured call, any non out and ref parameters are ignored. + + The values. + A configuration object. + + + + Allows the developer to assert on a call that's configured. + + + + + Asserts that the configured call has happened the number of times + constrained by the repeatConstraint parameter. + + A constraint for how many times the call + must have happened. + The call has not been called a number of times + that passes the repeat constraint. + + + + Configures the specified call to do nothing when called. + + A configuration object. + + + + Provides configurations to validate arguments of a fake object call. + + The type of interface to return. + + + + Configures the call to be accepted when the specified predicate returns true. + + The argument predicate. + A configuration object. + + + + Matches calls that has the return type specified in the generic type parameter. + + The return type of the members to configure. + A configuration object. + + + + Manages registration of a set of components in a DictionaryContainer. + + + + + Registers the components of this module. + + The container to register components in. + + + + A factory that creates instances of the RecordingCallRuleType. + + + + + Creates the specified fake object. + + The type of the fake. + The fake object the rule belongs to. + The rule that's being recorded. + A RecordingCallRule instance. + + + + A factory responsible for creating start configuration for fake objects. + + + + + Creates a start configuration for the specified fake object that fakes the + specified type. + + The type of the fake object. + The fake object to configure. + A configuration object. + + + + An exception that can be thrown when something goes wrong with the configuration + of a fake object. + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + The message. + + + + Initializes a new instance of the class. + + The message. + The inner exception. + + + + Handles the configuration of fake object given an expression specifying + a call on a faked object. + + + + + Lets you set up expectations and configure repeat for the configured call. + + + + + Provides configuration for method calls that has a return value. + + + + + Specifies the number of times for the configured event. + + The number of times to repeat. + + + + A combination of the IAfterCallSpecifiedConfiguration and IOutAndRefParametersConfiguration + interfaces. + + + + + Aggregate of IReturnValueArgumentValidationConfiguration<T> and IWhereConfiguration<IAnyCallConfigurationWithReturnTypeSpecified<T>>. + + The type of fake object that is configured. + + + + Configures a call that returns a value and allows the use to + specify validations for arguments. + + The type of the member. + + + + Configures a call that returns a value. + + The type of the member. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + A function that produces the return value. + A configuration object. + + + + Configurations for when a configured call is recorded. + + + + + Provides configuration from VisualBasic. + + + + + Provides methods for configuring a fake object. + + The type of fake object. + + + + Configures the behavior of the fake object when a call that matches the specified + call happens. + + The type of the return value of the member. + An expression that specifies the calls to configure. + A configuration object. + + + + Configures the behavior of the fake object when a call that matches the specified + call happens. + + An expression that specifies the calls to configure. + A configuration object. + + + + Configures the behavior of the fake object when a call is made to any method on the + object. + + A configuration object. + + + + A call rule that has been recorded. + + + + + A call rule that "sits and waits" for the next call, when + that call occurs the recorded rule is added for that call. + + The type of the fake. + + + + Provides access to a set of calls and a call matcher for these calls. + + + + + Provides access to a call matcher. + + + + + Gets a call predicate that can be used to check if a fake object call matches + the specified constraint. + + + + + Gets the set of calls. + + + + + Represents a delegate that creates a configuration object from + a fake object and the rule to build. + + The rule that's being built. + The fake object the rule is for. + A configuration object. + + + + Represents a predicate that matches a fake object call. + + + + + Gets a value indicating whether the call matches the predicate. + + The call to match. + True if the call matches the predicate. + + + + Provides configuration of faked objects. + + + + + Gets a configuration for the specified faked object. + + The type of the fake. + The faked object to configure. + A configuration object. + The specified object is not a faked object. + The fakedObject parameter was null. + + + + Represents an argument and a dummy value to use for that argument. + + + + + Initializes a new instance of the class. + + A value indicating if the dummy value was successfully resolved. + The type of argument. + The resolved value. + + + + Gets a value indicating whether a dummy argument value was successfully + resolved. + + + + + Gets the type of the argument. + + + + + Gets the resolved value. + + + + + Holds a formatter as well as the distance between a type to be formatted + and the type for which the formatted is registered. + + + + + Represents an event that happens when a call has been intercepted by a proxy. + + + + + Initializes a new instance of the class. + + The call. + + + + Gets the call that was intercepted. + + The call. + + + + Keeps track of metadata for interceptions. + + + + + Gets whether the rule has been called the number of times specified or not. + + True if the rule has not been called the number of times specified. + + + + Gets or sets the number of times the rule has been used. + + + + + Gets or sets the rule this metadata object is tracking. + + + + + Manages attaching of argument constraints. + + The type of argument to constrain. + + + + Constrains the argument with a predicate. + + The predicate that should constrain the argument. + An action that will be write a description of the constraint. + A dummy argument value. + + + + Inverts the logic of the matches method. + + + + + Validates an argument, checks that it's valid in a specific fake call. + + + + + Writes a description of the argument constraint to the specified writer. + + + The writer. + + + + + Gets whether the argument is valid. + + The argument to validate. + True if the argument is valid. + + + + Default implementation of . + + + + + Attaches a fake manager to the proxy so that intercepted + calls can be configured. + + + + + Attaches a to the specified proxy, listening to + the event raiser. + + The type of the fake object proxy. + The proxy to attach to. + The event raiser to listen to. + + + + Gets the fake manager associated with the proxy. + + The proxy to get the manager from. + A fake manager. + + + + Attaches a to the specified proxy, listening to + the event raiser. + + The type of the fake object proxy. + The proxy to attach to. + The event raiser to listen to. + + + + Gets the fake manager associated with the proxy. + + The proxy to get the manager from. + A fake manager. + + + + Represents an object that can be tagged with another object. When implemented + by a proxy returned from an FakeItEasy uses the tag + to store a reference to the that handles that proxy. + + + + + Gets or sets the tag. + + + + + The default implementation of the IFakeObjectCallFormatter interface. + + + + + Provides string formatting for fake object calls. + + + + + Gets a human readable description of the specified + fake object call. + + The call to get a description for. + A description of the call. + + + + Gets a human readable description of the specified + fake object call. + + The call to get a description for. + A description of the call. + + + + Handles configuring of fake objects to delegate all their calls to a wrapped instance. + + + + + Manages configuration of fake objects to wrap instances. + + + + + Configures the specified faked object to wrap the specified instance. + + The faked object to configure. + The instance to wrap. + The recorder to use, null if no recording should be made. + + + + Configures the specified faked object to wrap the specified instance. + + The faked object to configure. + The instance to wrap. + The recorder to use, null if no recording should be made. + + + + A fake object container where delegates can be registered that are used to + resolve fake objects. + + + + + A container that can create fake objects. + + + + + Handles global configuration of fake object. + + + + + Applies base configuration to a fake object. + + The type the fake object represents. + The fake object to configure. + + + + Creates a dummy object of the specified type using the specified arguments if it's + supported by the container, returns a value indicating if it's supported or not. + + The type of dummy object to create. + The dummy object that was created if the method returns true. + True if a dummy object can be created. + + + + Initializes a new instance of the class. + Creates a new instance of the DelegateFakeObjectContainer. + + + + + Creates a fake object of the specified type using the specified arguments if it's + supported by the container, returns a value indicating if it's supported or not. + + The type of dummy object to create. + The fake object that was created if the method returns true. + True if a fake object can be created. + + + + Configures the fake. + + The type of fake. + The fake object. + + + + Registers the specified fake delegate. + + The type of the return value of the method that encapsulates. + The fake delegate. + + + + A IFakeObjectContainer implementation that uses MEF to load IFakeDefinitions and + IFakeConfigurations. + + + + + Initializes a new instance of the class. + + The dummy definitions. + The fake configurators. + + + + Creates a fake object of the specified type using the specified arguments if it's + supported by the container, returns a value indicating if it's supported or not. + + The type of fake object to create. + The fake object that was created if the method returns true. + True if a fake object can be created. + + + + Applies base configuration to a fake object. + + The type the fake object represents. + The fake object to configure. + + + + An exception that is thrown when there was an error creating a fake object. + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + The message. + + + + Initializes a new instance of the class. + + The message. + The inner exception. + + + Auto fake property rule. + + The central point in the API for proxied fake objects handles interception + of fake object calls by using a set of rules. User defined rules can be inserted + by using the AddRule-method. + + Event rule. + Object member rule. + Property behavior rule. + Property setter rule. + + + + Initializes a new instance of the class. + + + + + Adds a call rule to the fake object. + + The rule to add. + + + + Adds a call rule last in the list of user rules, meaning it has the lowest priority possible. + + The rule to add. + + + + Removes the specified rule for the fake object. + + The rule to remove. + + + + Adds an interception listener to the manager. + + The listener to add. + + + + Removes any specified user rules. + + + + + Gets the faked object. + + + + + Gets the faked type. + + + + + Gets the interceptions that are currently registered with the fake object. + + + + + Gets a collection of all the calls made to the fake object within the current scope. + + + + + A delegate responsible for creating FakeObject instances. + + An instance of . + + + + Represents a call to a fake object at interception time. + + + + + Represents a fake object call that can be edited. + + + + + Represents a call to a fake object. + + + + + Gets the method that's called. + + + + + Gets the arguments used in the call. + + + + + Gets the faked object the call is performed on. + + + + + Sets the return value of the call. + + The return value to set. + + + + Calls the base method of the faked type. + + + + + Sets the value of the argument at the specified index in the parameters list. + + The index of the argument to set the value of. + The value to set to the argument. + + + + Freezes the call so that it can no longer be modified. + + A completed fake object call. + + + + Sets that the call should not be recorded by the fake manager. + + + + + Represents a scope for fake objects, calls configured within a scope + are only valid within that scope. Only calls made within a scope + are accessible from within a scope so for example asserts will only + assert on those calls done within the scope. + + + + + Provides access to all calls made to fake objects within a scope. + Scopes calls so that only calls made within the scope are visible. + + + + + Creates a new scope and sets it as the current scope. + + The created scope. + + + + Creates a new scope and sets it as the current scope, using the specified + container as the container for the new scope. + + The container to use for the new scope. + The created scope. + + + + Closes the scope. + + + + + Adds an intercepted call to the current scope. + + The fake object. + The call that is intercepted. + + + + Adds a fake object call to the current scope. + + The fake object. + The rule to add. + + + + Represents a completed call to a fake object. + + + + + Gets the value set to be returned from the call. + + + + + Used by the event raising rule of fake objects to get the event arguments used in + a call to Raise.With. + + + + + Gets the sender of the event. + + + + + Gets the event arguments of the event. + + + + + Represents a listener for fake object calls, can be plugged into a + FakeManager instance to listen to all intercepted calls. + + The OnBeforeCallIntercepted method will be invoked before the OnBeforeCallIntercepted method of any + previously added listener. The OnAfterCallIntercepted method will be invoked after the OnAfterCallIntercepted + method of any previously added listener. + + + + Called when the interception begins but before any call rules + has been applied. + + The intercepted call. + + + + Called when the interception has been completed and rules has been + applied. + + The intercepted call. + The rule that was applied to the call. + + + + Handles comparisons of instances of . + + + + + Gets a value indicating whether the two instances of would invoke the same method + if invoked on an instance of the target type. + + The type of target for invocation. + The first . + The second . + True if the same method would be invoked. + + + + A null implementation for the IFakeObjectContainer interface. + + + + + Always returns false and sets the fakeObject to null. + + The type of dummy object to create. + Output variable for the fake object that will always be set to null. + Always return false. + + + + Applies base configuration to a fake object. + + The type the fake object represents. + The fake object to configure. + + + + A call rule that applies to any call and just delegates the + call to the wrapped object. + + + + + Initializes a new instance of the class. + Creates a new instance. + + + The object to wrap. + + + + + Gets whether this interceptor is applicable to the specified + call, if true is returned the Apply-method of the interceptor will + be called. + + The call to check for applicability. + True if the interceptor is applicable. + + + + Applies an action to the call, might set a return value or throw + an exception. + + The call to apply the interceptor to. + + + + Gets the number of times this call rule is valid, if it's set + to null its infinitely valid. + + + + + + An interface to be implemented by classes that can generate proxies for FakeItEasy. + + + + + Generates a proxy of the specified type and returns a result object containing information + about the success of the generation and the proxy if it was generated. + + The type of proxy to generate. + Interfaces to be implemented by the proxy. + Arguments to pass to the constructor of the type in . + The custom attribute builders. + A result containing the generated proxy. + + + + Generates a proxy of the specified type and returns a result object containing information + about the success of the generation and the proxy if it was generated. + + The type of proxy to generate. + Interfaces to be implemented by the proxy. + Arguments to pass to the constructor of the type in . + A result containing the generated proxy. + + + + Gets a value indicating whether the specified member can be intercepted by the proxy generator. + + The member to test. + The instance the method will be called on. + The reason the method can not be intercepted. + True if the member can be intercepted. + + + + An object that raises an event every time a call to a proxy has been intercepted. + + + + + Raised when a call is intercepted. + + + + + An adapter that adapts an to a . + + + + + Initializes a new instance of the class. + + The invocation. + + + + Freezes the call so that it can no longer be modified. + + A completed fake object call. + + + + Calls the base method, should not be used with interface types. + + + + + Sets the specified value to the argument at the specified index. + + The index of the argument to set the value to. + The value to set to the argument. + + + + Sets the return value of the call. + + The return value. + + + + Returns a description of the call. + + + A that represents this instance. + + + + + Gets a human readable description of the call. + + + + + + Gets the value set to be returned from the call. + + + + + Gets the method that's called. + + + + + Gets the arguments used in the call. + + + + + Gets the faked object the call is performed on. + + + + + A strongly-typed resource class, for looking up localized strings, etc. + + + + + Returns the cached ResourceManager instance used by this class. + + + + + Overrides the current thread's CurrentUICulture property for all + resource lookups using this strongly typed resource class. + + + + + Looks up a localized string similar to No constructor matches the passed arguments for constructor.. + + + + + Looks up a localized string similar to Arguments for constructor specified for interface type.. + + + + + Looks up a localized string similar to The type of proxy "{0}" is sealed.. + + + + + Looks up a localized string similar to The type of proxy must be an interface or a class but it was {0}.. + + + + + Looks up a localized string similar to No usable default constructor was found on the type {0}.. + + + + + The default implementation of the IFakeAndDummyManager interface. + + + + + Handles the creation of fake and dummy objects. + + + + + Creates a dummy of the specified type. + + The type of dummy to create. + The created dummy. + The current IProxyGenerator is not able to generate a fake of the specified type and + the current IFakeObjectContainer does not contain the specified type. + + + + Creates a fake object of the specified type. + + The type of fake object to generate. + Options for building the fake object. + A fake object. + The current IProxyGenerator is not able to generate a fake of the specified type. + + + + Tries to create a dummy of the specified type. + + The type of dummy to create. + Outputs the result dummy when creation is successful. + A value indicating whether the creation was successful. + + + + Tries to create a fake object of the specified type. + + The type of fake to create. + Options for the creation of the fake. + The created fake object when creation is successful. + A value indicating whether the creation was successful. + + + + Default implementation of the IFakeCreator-interface. + + + + + A facade used by the public API for testability. + + + + + Creates a fake object of the specified type. + + The type of fake to create. + Options for the created fake object. + The created fake object. + Was unable to generate the fake in the current configuration. + + + + Creates a dummy object, this can be a fake object or an object resolved + from the current IFakeObjectContainer. + + The type of dummy to create. + The created dummy. + Was unable to generate the fake in the current configuration and + no dummy was registered in the container for the specified type.. + + + + Creates a collection of fakes of the specified type. + + The type of fakes to create. + The number of fakes in the collection. + A collection of fake objects of the specified type. + + + + Initializes a new instance of the class. + + The fake and dummy manager. + + + + Creates a fake object of the specified type. + + The type of fake to create. + Options for the created fake object. + The created fake object. + Was unable to generate the fake in the current configuration. + + + + Creates a collection of fakes of the specified type. + + The type of fakes to create. + The number of fakes in the collection. + + A collection of fake objects of the specified type. + + + + + Creates a dummy object, this can be a fake object or an object resolved + from the current IFakeObjectContainer. + + The type of dummy to create. + The created dummy. + Was unable to generate the fake in the current configuration and + no dummy was registered in the container for the specified type.. + + + + Provides options for fake wrappers. + + The type of the fake object generated. + + + + Provides options for generating fake object. + + The type of fake object generated. + + + + Specifies arguments for the constructor of the faked class. + + The arguments to pass to the constructor of the faked class. + Options object. + + + + Specifies arguments for the constructor of the faked class by giving an expression with the call to + the desired constructor using the arguments to be passed to the constructor. + + The constructor call to use when creating a class proxy. + Options object. + + + + Specifies that the fake should delegate calls to the specified instance. + + The object to delegate calls to. + Options object. + + + + Specifies that the fake should be created with these additional attributes. + + The attributes to build into the proxy. + Options object. + + + + Sets up the fake to implement the specified interface in addition to the + originally faked class. + + The type of interface to implement. + Options object. + The specified type is not an interface. + The specified type is null. + + + + Specifies an action that should be run over the fake object + once it's created. + + An action to perform. + Options object. + + + + Specifies a fake recorder to use. + + The recorder to use. + Options object. + + + + Initializes a new instance of the class. + + The container. + The fake object creator. + + + + Contains the result of a call to TryCreateProxy of IProxyGenerator. + + + + + Initializes a new instance of the class. + Creates a new instance representing a failed proxy + generation attempt. + + + The reason the proxy generation failed. + + + + + Initializes a new instance of the class. + Creates a new instance representing a failed proxy + generation attempt due to an exception being caught. + + + The reason the proxy generation failed. + + + The exception thrown from the creation attempt. + + + + + Initializes a new instance of the class. + Creates a new instance representing a successful proxy + generation. + + + The proxy that was generated. + + + An event raiser that raises + events when calls are intercepted to the proxy. + + + + + Gets a value indicating whether the proxy was successfully created. + + + + + Gets the generated proxy when it was successfully created. + + + + + Gets the event raiser that raises events when calls to the proxy are + intercepted. + + + + + Gets the reason for failure when the generation was not successful. + + + + + Represents a text writer that writes to the output. + + + + + Writes the specified value to the output. + + The value to write. + The writer for method chaining. + + + + Formats the specified argument value as a string and writes + it to the output. + + The value to write. + The writer for method chaining. + + + + Indents the writer. + + A disposable that will unindent the writer when disposed. + + + + Represents a definition of how a fake object of the type T should + be created. + + The type of fake. + + + + Represents a definition of how dummies of the specified type should be created. + + + + + Creates the fake. + + The fake object. + + + + Gets the type of fake object the definition is for. + + + + + Creates the dummy. + + The dummy object. + + + + Creates the dummy. + + The dummy object. + + + + Gets the type the definition is for. + + For type. + + + + A strongly-typed resource class, for looking up localized strings, etc. + + + + + Returns the cached ResourceManager instance used by this class. + + + + + Overrides the current thread's CurrentUICulture property for all + resource lookups using this strongly typed resource class. + + + + + Looks up a localized string similar to The Apply method of the ExpressionInterceptor may no be called before the Applicator property has been set.. + + + + + Looks up a localized string similar to The specified argument name does not exist in the ArgumentList.. + + + + + Looks up a localized string similar to Arguments for constructor was specified when generating proxy of interface type.. + + + + + Looks up a localized string similar to An argument validation was not configured correctly.. + + + + + Looks up a localized string similar to The method '{0}' was called too few times, expected #{1} times but was called #{2} times.. + + + + + Looks up a localized string similar to The method '{0}' was called too many times, expected #{1} times but was called #{2} times.. + + + + + Looks up a localized string similar to Can not create fake of the type '{0}', it's not registered in the current container and the current IProxyGenerator can not generate the fake. + + The following constructors failed: + {1}. + + + + + Looks up a localized string similar to Error when accessing FakeObject, the specified argument is of the type '{0}' which is not faked.. + + + + + Looks up a localized string similar to An ExpressionCallMatcher can only be created for expressions that represents a method call or a property getter.. + + + + + Looks up a localized string similar to + + The current proxy generator failed to create a proxy with the specified arguments for the constructor: + + Reason for failure: + - {0} + + . + + + + + Looks up a localized string similar to FakeItEasy failed to create fake object of type "{0}". + + 1. The type is not registered in the current IFakeObjectContainer. + 2. The current IProxyGenerator failed to generate a proxy for the following reason: + + {1}. + + + + + Looks up a localized string similar to Unable to create fake object.. + + + + + Looks up a localized string similar to Only abstract classes can be faked using the A.Fake-method that takes an enumerable of objects as arguments for constructor, use the overload that takes an expression instead.. + + + + + Looks up a localized string similar to The member accessor expression must be a lambda expression with a MethodCallExpression or MemberAccessExpression as its body.. + + + + + Looks up a localized string similar to The specified method can not be configured since it can not be intercepted by the current IProxyGenerator.. + + + + + Looks up a localized string similar to The method of the call did not match the method of the recorded call, the recorded sequence is no longer valid.. + + + + + Looks up a localized string similar to No constructor matching the specified arguments was found on the type {0}.. + + + + + Looks up a localized string similar to Can not generate fake object for the class since no usable default constructor was found, specify a constructor call.. + + + + + Looks up a localized string similar to All the recorded calls has been applied, the recorded sequence is no longer valid.. + + + + + Looks up a localized string similar to Only expression of the type ExpressionType.New (constructor calls) are accepted.. + + + + + Looks up a localized string similar to The Now-method on the event raise is not meant to be called directly, only use it to register to an event on a fake object that you want to be raised.. + + + + + Looks up a localized string similar to The number of values for out and ref parameters specified does not match the number of out and ref parameters in the call.. + + + + + Looks up a localized string similar to A scope for ordered assertions is already opened, close that scope before opening another one.. + + + + + Looks up a localized string similar to The specified call is not made on a fake object.. + + + + + Looks up a localized string similar to The current fake proxy generator can not create proxies of the type {0}.. + + + + + Looks up a localized string similar to FakeItEasy was unable to create dummy of type "{0}", register it in the current IFakeObjectContainer to enable this.. + + + + + Looks up a localized string similar to Expected to find call {0} the number of times specified by the predicate '{1}' but found it {2} times among the calls:. + + + + + Looks up a localized string similar to The number of argument names does not match the number of arguments.. + + + + + An exception thrown when an expectation is not met (when asserting on fake object calls). + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + The message. + + + + Initializes a new instance of the class. + + The message. + The inner exception. + + + + Represents a class that can parse a lambda expression + that represents a method or property call. + + + + + Parses the specified expression. + + The expression to parse. + The parsed expression. + + + + Handles the matching of fake object calls to expressions. + + + + + Initializes a new instance of the class. + + The call specification. + The constraint factory. + The method info manager to use. + A parser to use to parse call expressions. + + + + Matches the specified call against the expression. + + The call to match. + True if the call is matched by the expression. + + + + Gets a description of the call. + + Description of the call. + + + + Gets a human readable description of calls that will be matched by this + matcher. + + + + + An implementation of the interface that uses + expressions for evaluating if the rule is applicable to a specific call. + + + + + Initializes a new instance of the class. + + The expression matcher to use. + + + + Returns a that represents this instance. + + + A that represents this instance. + + + + + Handles the instantiation of ExpressionCallRule instance. + + An expression specifying the call. + A rule instance. + + + + Manages breaking call specification expression into their various parts. + + + + + Manages breaking call specification expression into their various parts. + + + + + Gets the fake object an expression is called on. + + The call expression. + The FakeManager instance that manages the faked object the call is made on. + The fakeObjectCall is null. + The specified expression is not an expression where a call is made to a faked object. + + + + Gets the fake object an expression is called on. + + The call expression. + A FakeObject. + The fakeObjectCall is null. + The specified expression is not an expression where a call is made to a faked object. + + + + Provides extension methods for configuring and asserting on faked objects + without going through the static methods of the Fake-class. + + + + + Configures the behavior of the fake object when a call that matches the specified + call happens. + + The type of fake object to configure. + The type of the return value of the member. + The faked object to configure. + An expression that specifies the calls to configure. + A configuration object. + + + + Configures the behavior of the fake object when a call that matches the specified + call happens. + + The faked object to configure. + The type of fake object to configure. + An expression that specifies the calls to configure. + A configuration object. + + + + Configures the behavior of the fake object when a call is made to any method on the + object. + + The type of the fake. + The faked object. + A configuration object. + + + + Provides an extension method for configuring fake objects. + + + + + Gets an object that provides a fluent interface syntax for configuring + the fake object. + + The type of the fake object. + The fake object to configure. + A configuration object. + The fakedObject was null. + The object passed in is not a faked object. + + + + Provides static methods for accessing fake objects. + + + + + Gets the fake object that manages the faked object. + + The faked object to get the manager object for. + The fake object manager. + + + + Creates a new scope and sets it as the current scope. When inside a scope the + getting the calls made to a fake will return only the calls within that scope and when + asserting that calls were made, the calls must have been made within that scope. + + The created scope. + + + + Creates a new scope and sets it as the current scope. When inside a scope the + getting the calls made to a fake will return only the calls within that scope and when + asserting that calls were made, the calls must have been made within that scope. + + The container to use within the specified scope. + The created scope. + + + + Gets a value indicating whether the two objects are equal. + + The first object to compare. + The second object to compare. + True if the two objects are equal. + + + + Gets a value indicating whether the two objects are the same reference. + + The object A. + The object B. + True if the objects are the same reference. + + + + Gets all the calls made to the specified fake object. + + The faked object. + A collection containing the calls to the object. + The object passed in is not a faked object. + + + + Clears the configuration of the faked object. + + The faked object to clear the configuration of. + + + + Sets a new fake to each property or field that is tagged with the FakeAttribute in the specified + fixture. + + The object to initialize. + + + + Represents a fake object that provides an API for configuring a faked object, exposed by the + FakedObject-property. + + The type of the faked object. + + + + Initializes a new instance of the class. + Creates a new fake object. + + + + + Initializes a new instance of the class. + Creates a new fake object using the specified options. + + + Options used to create the fake object. + + + + + Configures calls to the specified member. + + An expression specifying the call to configure. + A configuration object. + + + + Configures calls to the specified member. + + The type of value the member returns. + An expression specifying the call to configure. + A configuration object. + + + + Configures any call to the fake object. + + A configuration object. + + + + Gets the faked object. + + + + + Gets all calls made to the faked object. + + + + + Used to tag fields and properties that will be initialized through the + Fake.Initialize-method. + + + + + Provides the base implementation for the IFakeConfigurator-interface. + + The type of fakes the configurator can configure. + + + + Provides configurations for fake objects of a specific type. + + + + + Applies the configuration for the specified fake object. + + The fake object to configure. + + + + Gets the type the instance provides configuration for. + + + + + Configures the fake. + + The fake object. + + + + Applies the configuration for the specified fake object. + + The fake object to configure. + + + + Asserts the type of the that fake is of correct. + + The fake object. + + + + Gets the type the instance provides configuration for. + + + + + + Provides extension methods for fake objects. + + + + + Specifies NumberOfTimes(1) to the IRepeatConfiguration{TFake}. + + The configuration to set repeat 1 to. + + + + Specifies NumberOfTimes(2) to the IRepeatConfiguration{TFake}. + + The configuration to set repeat 2 to. + + + + Specifies that a call to the configured call should be applied no matter what arguments + are used in the call to the faked object. + + The type of the interface. + The configuration. + A configuration object. + + + + Filters to contain only the calls that matches the call specification. + + The type of fake the call is made on. + The calls to filter. + The call to match on. + A collection of the calls that matches the call specification. + + + + Asserts that the specified call must have happened once or more. + + The configuration to assert on. + + + + Asserts that the specified has not happened. + + The configuration to assert on. + + + + Configures the call to return the next value from the specified sequence each time it's called. Null will + be returned when all the values in the sequence has been returned. + + + The type of return value. + + + The call configuration to extend. + + + The values to return in sequence. + + + + + Specifies the value to return when the configured call is made. + + The type of the return value. + The configuration to extend. + The value to return. + A configuration object. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The type of the return value. + The configuration to extend. + A function that produces the return value. + A configuration object. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The type of the return value. + Type of the first argument of the faked method call. + The configuration to extend. + A function that produces the return value. + A configuration object. + The signatures of the faked method and the do not match. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The configuration to extend. + A function that produces the return value. + The type of the return value. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + A configuration object. + The signatures of the faked method and the do not match. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The configuration to extend. + A function that produces the return value. + The type of the return value. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + A configuration object. + The signatures of the faked method and the do not match. + + + + Specifies a function used to produce a return value when the configured call is made. + The function will be called each time this call is made and can return different values + each time. + + The configuration to extend. + A function that produces the return value. + The type of the return value. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + Type of the fourth argument of the faked method call. + A configuration object. + The signatures of the faked method and the do not match. + + + + Writes the calls in the collection to the specified text writer. + + The type of the calls. + The calls to write. + The writer to write the calls to. + + + + Writes all calls in the collection to the console. + + The type of the calls. + The calls to write. + + + + Gets the argument at the specified index in the arguments collection + for the call. + + The type of the argument to get. + The call to get the argument from. + The index of the argument. + The value of the argument with the specified index. + + + + Gets the argument with the specified name in the arguments collection + for the call. + + The type of the argument to get. + The call to get the argument from. + The name of the argument. + The value of the argument with the specified name. + + + + Makes the fake strict, this means that any call to the fake + that has not been explicitly configured will throw an exception. + + The type of fake object. + The configuration. + A configuration object. + + + + Applies a predicate to constrain which calls will be considered for interception. + + + The return type of the where method. + + + The configuration object to extend. + + + A predicate for a fake object call. + + to the output. + + The configuration object. + + + + + Executes the specified action when a matching call is being made. This overload can also be used to fake calls with arguments when they don't need to be accessed. + + The type of fake object. + The configuration that is extended. + The to invoke. + The fake object. + + + + Executes the specified action when a matching call is being made. + + The configuration that is extended. + The to invoke. + The type of fake object. + Type of the first argument of the faked method call. + The signatures of the faked method and the do not match. + The fake object. + + + + Executes the specified action when a matching call is being made. + + The configuration that is extended. + The to invoke. + The type of fake object. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + The signatures of the faked method and the do not match. + The fake object. + + + + Executes the specified action when a matching call is being made. + + The configuration that is extended. + The to invoke. + The type of fake object. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + The signatures of the faked method and the do not match. + The fake object. + + + + Executes the specified action when a matching call is being made. + + The configuration that is extended. + The to invoke. + The type of fake object. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + Type of the fourth argument of the faked method call. + The signatures of the faked method and the do not match. + The fake object. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + The exception to throw when a call that matches is invoked. + Configuration object. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Configuration object. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Type of the first argument of the faked method call. + Configuration object. + The signatures of the faked method and the do not match. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Configuration object. + The signatures of the faked method and the do not match. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + Configuration object. + The signatures of the faked method and the do not match. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + A function that returns the exception to throw when invoked. + Type of the first argument of the faked method call. + Type of the second argument of the faked method call. + Type of the third argument of the faked method call. + Type of the fourth argument of the faked method call. + Configuration object. + The signatures of the faked method and the do not match. + + + + Throws the specified exception when the currently configured + call gets called. + + The configuration to use. + The type of exception to throw. + Configuration object. + + + + Provides methods for guarding method arguments. + + + + + Throws an exception if the specified argument is null. + + The argument. + Name of the argument. + The specified argument was null. + + + + Gets the value produced by the specified expression when compiled and invoked. + + The expression to get the value from. + The value produced by the expression. + + + + Provides access to the file system. + + + + + Opens the specified file in the specified mode. + + The full path and name of the file to open. + The mode to open the file in. + A stream for reading and writing the file. + + + + Gets a value indicating whether the specified file exists. + + The path and name of the file to check. + True if the file exists. + + + + Creates a file with the specified name. + + The name of the file to create. + + + + A simple implementation of an IoC container. + + + + + The dictionary that stores the registered services. + + + + + Initializes a new instance of the class. + + + + + Resolves an instance of the specified component type. + + Type of the component. + An instance of the component type. + + + + Registers the specified resolver. + + The type of component to register. + The resolver. + + + + Registers the specified resolver as a singleton. + + The type of component to register. + The resolver. + + + + Provides properties and methods to specify repeat. + + + + + Specifies the number of times as repeat. + + The number of times expected. + A Repeated instance. + + + + Specifies once as the repeat. + + + + + Specifies twice as the repeat. + + + + + Lets you specify options for the next call to a fake object. + + + + + Specifies options for the next call to the specified fake object. The next call will + be recorded as a call configuration. + + The type of the faked object. + The faked object to configure. + A call configuration object. + + + + Provides functionality for making ordered assertions on fakes. + + + + + Creates a scope that changes the behavior on asserts so that all asserts within + the scope must be to calls in the specified collection of calls. Calls must have happened + in the order that the asserts are specified or the asserts will fail. + + The calls to assert among. + A disposable used to close the scope. + + + + Provides static methods for the IOutputWriter-interface. + + + + + Writes a new line to the writer. + + The writer to write to. + The writer. + + + + Writes the format string to the writer. + + The writer to write to. + The format string to write. + Replacements for the format string. + The writer. + + + + Writes the specified object to the writer (using the ToString-method of the object). + + The writer to write to. + The value to write to the writer. + The writer. + + + + Allows the developer to raise an event on a faked object. + + + + + Raises an event on a faked object by attaching the event handler produced by the method + to the event that is to be raised. + + The type of the event args. + The sender of the event. + The instance containing the event data. + A Raise(TEventArgs)-object that exposes the event handler to attach. + + + + Raises an event on a faked object by attaching the event handler produced by the method + to the event that is to be raised. + + The type of the event arguments. + The instance containing the event data. + + A Raise(TEventArgs)-object that exposes the event handler to attach. + + + + + Raises an event with empty event arguments on a faked object by attaching the event handler produced by the method + to the event that is to be raised. + + + A Raise(TEventArgs)-object that exposes the event handler to attach. + + + + + A class exposing an event handler to attach to an event of a faked object + in order to raise that event. + + The type of the event args. + + + + Register this event handler to an event on a faked object in order to raise that event. + + The sender of the event. + Event args for the event. + + + + Gets a generic event handler to attach to the event to raise. + + + + + Provides methods for creating recorders for self initializing fakes. + + + + + Provides syntax for specifying the number of times a call must have been repeated when asserting on + fake object calls. + + A.CallTo(() => foo.Bar()).Assert(Happened.Once.Exactly); + + + + Specifies that a call must have been repeated a number of times + that is validated by the specified repeatValidation argument. + + A predicate that specifies the number of times + a call must have been made. + A Repeated-instance. + + + + When implemented gets a value indicating if the repeat is matched + by the Happened-instance. + + The repeat of a call. + True if the repeat is a match. + + + + Asserts that a call has not happened at all. + + + + + The call must have happened exactly the number of times that is specified in the next step. + + + + + The call must have happened any number of times greater than or equal to the number of times that is specified + in the next step. + + + + + The call must have happened any number of times less than or equal to the number of times that is specified + in the next step. + + + + + Handles the registration of root dependencies in an IoC-container. + + + + + Registers the dependencies. + + The container to register the dependencies in. + + + + DTO for recorded calls. + + + + + Initializes a new instance of the class. + + The method. + The output arguments. + The return value. + + + + Gets the method that was called. + + The method. + + + + Gets the output arguments of the call. + + The output arguments. + + + + Gets the return value of the call. + + The return value. + + + + Represents storage for recorded calls for self initializing + fakes. + + + + + Loads the recorded calls for the specified recording. + + The recorded calls for the recording with the specified id. + + + + Saves the specified calls as the recording with the specified id, + overwriting any previous recording. + + The calls to save. + + + + An interface for recorders that provides stored responses for self initializing fakes. + + + + + Applies the call if the call has been recorded. + + The call to apply to from recording. + + + + Records the specified call. + + The call to record. + + + + Gets a value indicating whether the recorder is currently recording. + + + + + An exception that can be thrown when recording for self initialized + fakes fails or when playback fails. + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + The message. + + + + Initializes a new instance of the class. + + The message. + The inner exception. + + + + Manages the applying of recorded calls and recording of new calls when + using self initialized fakes. + + + + + Initializes a new instance of the class. + + The storage. + + + + Applies the call if the call has been recorded. + + The call to apply to from recording. + + + + Records the specified call. + + The call to record. + + + + Saves all recorded calls to the storage. + + + + + Gets a value indicating whether the recorder is currently recording. + + + + + + Represents a factory responsible for creating recording manager + instances. + + The storage the manager should use. + A RecordingManager instance. + + + + A call rule use for self initializing fakes, delegates call to + be applied by the recorder. + + + + + Initializes a new instance of the class. + + The wrapped rule. + The recorder. + + + + Gets whether this interceptor is applicable to the specified + call, if true is returned the Apply-method of the interceptor will + be called. + + The call to check for applicability. + True if the interceptor is applicable. + + + + Applies an action to the call, might set a return value or throw + an exception. + + The call to apply the interceptor to. + + + + Gets the number of times this call rule is valid, if it's set + to null its infinitely valid. + + + + + + An attribute that can be applied to code that should be fixed because there's a + code smell. + + + + + Gets or sets the description of the smell. + + + + + Used to tag fields and properties that will be initialized as a SUT through the Fake.Initialize-method. + + + + + Fixes so that existing Serializable-attributes are omitted in the compilation + of the silverlight project. + + + + + Fixes so that existing NonSerialized-attributes are omitted in the compilation + of the silverlight project. + + + + diff --git a/packages/Machine.Fakes.1.4.0/Machine.Fakes.1.4.0.nupkg b/packages/Machine.Fakes.1.4.0/Machine.Fakes.1.4.0.nupkg deleted file mode 100644 index 9a1c6ee..0000000 Binary files a/packages/Machine.Fakes.1.4.0/Machine.Fakes.1.4.0.nupkg and /dev/null differ diff --git a/packages/Machine.Fakes.1.4.0/lib/net40/Machine.Fakes.dll b/packages/Machine.Fakes.1.4.0/lib/net40/Machine.Fakes.dll deleted file mode 100644 index 23f12ad..0000000 Binary files a/packages/Machine.Fakes.1.4.0/lib/net40/Machine.Fakes.dll and /dev/null differ diff --git a/packages/Machine.Fakes.1.8.0/Machine.Fakes.1.8.0.nupkg b/packages/Machine.Fakes.1.8.0/Machine.Fakes.1.8.0.nupkg new file mode 100644 index 0000000..47b5b93 Binary files /dev/null and b/packages/Machine.Fakes.1.8.0/Machine.Fakes.1.8.0.nupkg differ diff --git a/packages/Machine.Fakes.1.4.0/Machine.Fakes.1.4.0.nuspec b/packages/Machine.Fakes.1.8.0/Machine.Fakes.1.8.0.nuspec similarity index 92% rename from packages/Machine.Fakes.1.4.0/Machine.Fakes.1.4.0.nuspec rename to packages/Machine.Fakes.1.8.0/Machine.Fakes.1.8.0.nuspec index 8acb75f..fd63ccf 100644 --- a/packages/Machine.Fakes.1.4.0/Machine.Fakes.1.4.0.nuspec +++ b/packages/Machine.Fakes.1.8.0/Machine.Fakes.1.8.0.nuspec @@ -1,21 +1,21 @@ - - - - Machine.Fakes - 1.4.0 - The machine project - The machine project - https://github.com/machine/machine.fakes/raw/master/License.txt - https://github.com/machine/machine.fakes - https://github.com/machine/machine.fakes/raw/master/machine.fakes-128x128.png - false - Machine.Fakes attempts to simplify the usage of such frameworks on top of Machine.Specifications by helping to reduce a lot of the typical fake framwork related clutter code in specifications. If you choose so, Machine.Fakes even helps you to stay mostly independent of a concrete fake framework by providing a little wrapper API and a provider model for fake frameworks. - A framework for faking dependencies on top of Machine.Specifications. - See https://github.com/machine/machine.fakes/blob/master/changelog.markdown - en-US - tdd bdd testing unittest fakes mocks mspec mfakes - - - - + + + + Machine.Fakes + 1.8.0 + The machine project + The machine project + https://github.com/machine/machine.fakes/raw/master/License.txt + https://github.com/machine/machine.fakes + https://github.com/machine/machine.fakes/raw/master/machine.fakes-128x128.png + false + Machine.Fakes attempts to simplify the usage of such frameworks on top of Machine.Specifications by helping to reduce a lot of the typical fake framwork related clutter code in specifications. If you choose so, Machine.Fakes even helps you to stay mostly independent of a concrete fake framework by providing a little wrapper API and a provider model for fake frameworks. + A framework for faking dependencies on top of Machine.Specifications. + See https://github.com/machine/machine.fakes/blob/master/changelog.markdown + en-US + tdd bdd testing unittest fakes mocks mspec mfakes + + + + \ No newline at end of file diff --git a/packages/Machine.Fakes.1.8.0/lib/net40/Machine.Fakes.dll b/packages/Machine.Fakes.1.8.0/lib/net40/Machine.Fakes.dll new file mode 100644 index 0000000..852f0c7 Binary files /dev/null and b/packages/Machine.Fakes.1.8.0/lib/net40/Machine.Fakes.dll differ diff --git a/packages/Machine.Fakes.1.4.0/lib/net40/Machine.Fakes.xml b/packages/Machine.Fakes.1.8.0/lib/net40/Machine.Fakes.xml similarity index 93% rename from packages/Machine.Fakes.1.4.0/lib/net40/Machine.Fakes.xml rename to packages/Machine.Fakes.1.8.0/lib/net40/Machine.Fakes.xml index d09f5f3..e2bfaa9 100644 --- a/packages/Machine.Fakes.1.4.0/lib/net40/Machine.Fakes.xml +++ b/packages/Machine.Fakes.1.8.0/lib/net40/Machine.Fakes.xml @@ -1,1570 +1,1536 @@ - - - - Machine.Fakes - - - - - Delegate used in behavior configs in order - to configure dependencies in the main specification - from outside the specification. - - - Specifies gateway for accessing fakes. - - - - - Delegate used in behavior configs in order - to cleanup the subject after a specification has been - executed. This can be used for cleaning up transactions - for example. - - - Specifies the subject of a context / specification. - - - - - Exception that occurs when a type cannot be instantiated by the automatic faking/dependency resolution - - - - - Constructor - - Type that cannot be created - Reason - - - - This class implements the several way that can be used to work with the - API. - - - - - Uses the instance supplied by during the - creation of the sut. The specified instance will be injected into the constructor. - - Specifies the interface type. - Specifies the fake accessor - Specifies the instance to be used for the specification. - - - - Registered the type specified via as the default type - for the interface specified via . With this the type gets automatically - build when the subject is resolved. - - - Specifies the fake accessor - - - Specifies the interface type. - - - Specifies the implementation type. - - - - - Shortcut for . This one will create - a registrar for you and allow configuration via the delegate passed - in via . - - - Specifies the fake accessor - - - Specifies the configuration for the registrar. - - - Thrown when the supplied registrar expression is null. - - - - - Entry point for using inline parameter constraints with Machine.Fakes. - - - - - Configures that the parameter must match the specified value. - - The value. - Specifies the parameter type. - A substitute type that isn't directly used. - - - - Configures that every parameter value matches. - - - Specifies the parameter type. - - - A substitute type that isn't directly used. - - - - - Entry point for using inline parameter constraints with Machine.Fakes. - - - Specifies the parameters type. - - - - - Configures that the parameter must be of a particular type. - - - Specifies the other type. - - - A substitute type that isn't directly used. - - - - - Configures that the parameter must match the specified predicate. - - - Specifies the predicate. - - - A substitute type that isn't directly used. - - - - - Matches when the parameter value is null. - - - A substitute type that isn't directly used. - - - - - Matches when the parameter value is not null. - - - A substitute type that isn't directly used. - - - - - Every parameter is matched. - - - A substitute type that isn't directly used. - - - - - Registration endpoint for configuring the underlying container with - concrete implementations (the rest that can be faked will be filled up from the AutoFakeContainer). - - - - - Stores the mapping supplied by . - - - Specifies the mapping to be stored. - - - Thrown when is null. - - - - - Applies the configured mappings. - - An action that registers a single mapping - - - - Shortcut for inlining the configuration of a registrar via - the nested closure pattern. - - - Specifies the expression that does the configuraition. - - - The configured registrar. - - - Thrown when is null. - - - - - Starts the configuration of a type. This should be the interface type. - - - Specifies the interface type. - - - An expression for further configuration. - - - Thrown when is null. - - - - - Starts the configuration of a type. This should be the interface type. - - - Specifies the interface type. - - - An expression for further configuration. - - - - - Concludes the configurataion that was startet with . - - - - - Configures the underlying container to use - the specified instance whenever an instance of the interface type - in the container is resolved. - - - Specifies the instance to be used. - - - Thrown when is null. - - - - - Configures the underlying container to use - the specified implementation type whenever an instance of the interface type - in the container is resolved. - - - Specifies the implementation type to be used. - - - Thrown when is null. - - - - - Concludes the configuration that was started with . - - - - - Configures the underlying container to use - the specified implementation type whenever an instance of the interface type - in the container is resolved. - - - Specifies the implementation type. - - - - - Configures the underlying container to use - the specified instance whenever an instance of the interface type - in the container is resolved. - - - Specifies the instance to be used. - - - - - Configures the underlying container to use - the specified factory when he needs to create an instance of the target type. - - - Specifies the factory to be used for creation. - - - Thrown when is null. - - - - - A converter for a . - - - Specifies the expression to be converted. - - - The result of the conversion. - - - - - A converter for a . - - - Specifies the expression to be converted. - - - The result of the conversion. - - - - - Base class for implementations. - - - - - Rewriter abstraction that is used by Machine.Fakes - in order to transform the inline constraint format used by Machine.Fakes - into the specific formats used by the different mock frameworks. - - - - - Rewrites the expression tree and replaces all occurences - of Machine.Fakes specific inline constraints with the - equivalents of a specific mock framework. - - - Specifies the input expression. - - - Returns the target expression in the format of the relevant mock framework. - - - - - Rewrites the expression tree and replaces all occurences - of Machine.Fakes specific inline constraints with the - equivalents of a specific mock framework. - - - Specifies the input expression. - - - Returns the target expression in the format of the relevant mock framework. - - - - - Adds a converter for a particular method. - - - Specifies the name of the method. - - - Specifies the converter - - - - - Adds a converter for a particular member. - - - Specifies the name of the member. - - - Specifies the converter - - - - - Is called on each expression. - - - Specifies the expression node. - - - The new expression to be used for that node. - - - - - Is called on each expression. - - - Specifies the expression node. - - - The new expression to be used for that node. - - - - - A helper class for extensions on expression. - - - - - Rewrites the expression specified by - with the rewriter specified by . - - - Specifies the parameter type in the expression. - - - Specifies the return type in the expression. - - - Specifies the expression. - - - Specifies the rewriter. - - - The converted expression. - - - - - Rewrites the expression specified by - with the rewriter specified by . - - - Specifies the parameter type in the expression. - - - Specifies the expression. - - - Specifies the rewriter. - - - The converted expression. - - - - - Helper class which contains all the helper method needed for reflection. - - - - - Checks whether the supplied type is one of the machine.fakes - inline constraint types. - - - Specifies the type to check. - - - true if it's one of the constraint types. Otherwise not. - - - - - Checks whether the supplied type closes the class. - - - Specifies the type to be checked. - - - true if the type closes the type. Otherwise false. - - - - - Gets the first generic type argument of the specified type. - - - Specifies the type to extract the type argument from. - - - The extracted type. - - - - - Gets the first generic type argument of the specified type. - - - Specifies the method to extract the type argument from. - - - The extracted type. - - - - - Creates a on a public instance property. - - - Specifies the target type. - - - Specifies the name of the property to be accessed. - - - Specifies an instance via an . - - - The created . - - - - - Creates a on a public static property. - - - Specifies the target type. - - - Specifies the name of the property to be accessed. - - - The created . - - - - - Get all field values of the type specified by . - - - Specifies the field type. - - - Specifies the instance to extract the field values from. - - - A collection of all field values of the specified type. - - - - - Resets the references in the instance specified by . - - The instance. - - - - Derive from this class in order to make inline constraints work. - This is just glue code. The expression writer does does all the job. - - - - - Interface to a fake framework. - - - - - Creates a fake of the type specified via using a non default constructor. - - - Specifies the interface type to create a fake for. - - - Specifies parameters for non default constructor. - - - The created fake instance. - - - - - Creates a partial mock. - - - Specifies the type of the partial mock. This needs to be - an abstract base class. - - - Specifies the constructor parameters. - - - The created instance. - - - - - Configures the behavior of the fake specified by . - - - Specifies the type of the fake. - - - Specifies the type of the return value. - - - The fake to configure behavior on. - - - Expression to set up the behavior. - - - A for further configuration. - - - - - Configures the behavior of the fake specified by . - - - Specifies the type of the fake. - - - The fake to configure behavior on. - - - Configures the behavior. This must be a void method. - - - A for further configuration. - - - This method is used for command, e.g. methods returning void. - - - - - Verifies that the behavior specified by - was not executed on the fake specified by . - - - Specifies the type of the fake. - - - Specifies the fake instance. - - - Specifies the behavior that was not supposed to happen. - - - - - Verifies that the behavior specified by - was executed on the fake specified by . - - - Specifies the type of the fake. - - - Specifies the fake instance. - - - Specifies the behavior that was supposed to happen. - - - A which can be used - to narrow down the expectations to a particular amount of times. - - - - - Creates a new instance of the class. - - - Specifies the rewriter that translates the expressions or more - specific the generic inline constraints used in expressions - to the inline constraints used in the target fake framework. - - - - - Creates a fake of the type specified via with no default constructor. - - Specifies the interface type to create a fake for. - Specifies the constructor parameters. - The created fake instance. - - - - Creates a partial mock. - - - Specifies the type of the partial mock. This needs to be - an abstract base class. - - - Specifies the constructor parameters. - - - The created instance. - - - - - Configures the behavior of the fake specified by . - - Specifies the type of the fake. - Specifies the type of the return value. - The fake to configure behavior on. - Expression to set up the behavior. - A for further configuration. - - - - Configures the behavior of the fake specified by . - - Specifies the type of the fake. - The fake to configure behavior on. - Configures the behavior. This must be a void method. - A for further configuration. - This method is used for command, e.g. methods returning void. - - - - Verifies that the behavior specified by - was not executed on the fake specified by . - - Specifies the type of the fake. - Specifies the fake instance. - Specifies the behavior that was not supposed to happen. - - - - Verifies that the behavior specified by - was executed on the fake specified by . - - Specifies the type of the fake. - Specifies the fake instance. - Specifies the behavior that was supposed to happen. - A which can be used - to narrow down the expectations to a particular amount of times. - - - - Verifies that the behavior specified by - was executed on the fake specified by . - - Specifies the type of the fake. - Specifies the fake instance. - Specifies the behavior that was supposed to happen - expressed in terms of the target framework. - A which can be used - to narrow down the expectations to a particular amount of times. - - - - Configures the behavior of the fake specified by . - - Specifies the type of the fake. - Specifies the type of the return value. - The fake to configure behavior on. - Expression to set up the behavior in terms of the target framework. - A for further configuration. - - - - Verifies that the behavior specified by - was not executed on the fake specified by . - - Specifies the type of the fake. - Specifies the fake instance. - Specifies the behavior that was not supposed to happen - expressed in terms of the target framework. - - - - Configures the behavior of the fake specified by . - - Specifies the type of the fake. - The fake to configure behavior on. - Configures the behavior expressed in terms of the target framework. - This must be a void method. - A for further configuration. - - - - Shortcut for which - supplies the type of the fake engine to be used via a generic type parameter. - - - The subject for the specification. This is the type that is created by the - specification for you. - - - Specifies the type of the fake engine which will be used. - - - - - Controller that implements all the core capabilities of Machine.Fakes. - This includes filling a subject with fakes and providing all the handy helper methods - for interacting with fakes in a specification. - - - The subject for the specification. This is the type that is created by the - specification for you. - - - - - Accessor interface for dependencies created and managed by fake framework / auto fake container. - - - - - Creates a fake of the type specified by . - - - The type to create a fake for. (Should be an interface or an abstract class) - - - The ctor parameters for the newly created entity - - - An newly created fake implementing . - - - - - Creates a fake of the type specified by . - - The type to create a fake for. (Should be an interface or an abstract class) - - Specifies the type of item to fake. - - - The ctor parameters for the newly created entity - - - An newly created fake implementing . - - - - - Creates a fake of the type specified by . - This method reuses existing instances. If an instance of - was already requested it's returned here. (You can say this is kind of a singleton behavior) - Besides that, you can obtain a reference to automatically injected fakes with this - method. - - - The type to create a fake for. (Should be an interface or an abstract class) - - - An instance implementing . - - - - - Creates a list containing 3 fake instances of the type specified - via . - - - Specifies the item type of the list. This should be an interface or an abstract class. - - - An . - - - - - Creates a list containing fake instances of the type specified via . - - - Specifies the amount of fakes in the list. - - Specifies the item type of the list. This should be an interface or an abstract class. - An . - - - - Applies the configuration embedded in the registar to the underlying container. - - - Specifies the registrar. - - - Thrown when the supplied registrar is null. - - - - - Creates a new instance of the class. - - - Specifies the that is used for creating specifications. - - - - - Applies the configuration embedded in the registar to the underlying container. - - - Specifies the registrar. - - - Thrown when the supplied registrar is null. - - - - - Configures the specification to execute a behavior config before the action on the subject - is executed (). - - Specifies the type of the config to be executed. - The behavior config instance. - - The class specified by - needs to have private fields assigned with either - or delegates. - - - - - Configures the specification to execute the behavior config specified - by before the action on the sut is executed (). - - - Specifies the behavior config to be executed. - - - The object specified by - needs to have private fields assigned with either - or delegates. - - - - - Creates a fake of the type specified by without a default constructor. - - The type to create a fake for. - - No default constructor arguments - - - An newly created fake implementing . - - - - - Creates a fake of the type specified by without default constructor. - - The type to create a fake for. - - Specifies the type of item to fake. - - - Specifies the constructor parameters if the class is a concrete class without default constructor - - - An newly created fake implementing . - - - - - Creates a fake of the type specified by . - This method reuses existing instances. If an instance of - was already requested it's returned here. (You can say this is kind of a singleton behavior) - Besides that, you can obtain a reference to automatically injected fakes with this - method. - - The type to create a fake for. (Should be an interface or an abstract class) - - An instance implementing . - - - - - Creates a list containing 3 fake instances of the type specified - via . - - Specifies the item type of the list. This should be an interface or an abstract class. - An . - - - - Creates a list of fakes. - - - Specifies the item type of the list. This should be an interface or an abstract class. - - - Specifies the amount of fakes that have to be created and inserted into the list. - - - An . - - - - - Performs cleanup. Exuecutes the Cleanup functionality of all configured behavior configs. - - - - - Ensures that the subject has been created. This will trigger the lazy loading in case creation hasn't happened - before. - - - - - Gives access to the subject under specification. On first access - the spec tries to create an instance of the subject type by itself. - Override this behavior by manually setting a subject instance. - - - - - Creates a new instance of the class. - - - - - Base class for the simpler cases than . - This class only contains the shortcuts for creating fakes via "An" and "Some". - - - Specifies the concrete fake engine that will be used for creating fake instances. - This must be a class with a parameterless constructor that implements . - - - - - The specification controller - - - - - Creates a new instance of the class. - - - - - Creates a fake of the type specified by . - - The type to create a fake for. (Should be an interface or an abstract class) - - Optional constructor parameters for abstract base classes as fakes. - - - An newly created fake implementing . - - - - - Creates a list containing 3 fake instances of the type specified - via . - - Specifies the item type of the list. This should be an interface or an abstract class. - An . - - - - Creates a list of fakes. - - - Specifies the item type of the list. This should be an interface or an abstract class. - - - Specifies the amount of fakes that have to be created and inserted into the list. - - - An . - - - - - Configures the specification to execute a behavior config before the action on the subject - is executed (). - - Specifies the type of the config to be executed. - The behavior config instance. - - The class specified by - needs to have private fields assigned with either - or delegates. - - - - - Configures the specification to execute the behavior config specified - by before the action on the sut is executed (). - - - Specifies the behavior config to be executed. - - - The object specified by - needs to have private fields assigned with either - or delegates. - - - - - A set of extension methods for setting up behavior on fakes in a fashion independent - of a particular fake framework. - - - - - Configures the behavior of the fake specified by . - - - Specifies the type of the fake. - - - Specifies the type of the return value. - - - The fake to configure behavior on. - - - Configures the behavior. This must be a void method. - - - A for further configuration. - - - - - Configures the behavior of the fake specified by . - - - Specifies the type of the fake. - - - The fake to configure behavior on. - - - Configures the behavior. This must be a void method. - - - A for further configuration. - - - This method is used for command, e.g. methods returning void. - - - - - Verifies that the behavior specified by - was not executed on the fake specified by . - - - Specifies the type of the fake. - - - Specifies the fake instance. - - - Specifies the behavior that was not supposed to happen. - - - - - Verifies that the behavior specified by - was executed on the fake specified by . - - - Specifies the type of the fake. - - - Specifies the fake instance. - - - Specifies the behavior that was supposed to happen. - - - A which can be used - to narrow down the expectations to a particular amount of times. - - - - - A set of extension methods to simplify the strong typed fake creation - which is used at several places in the framework. - - - - Gives strong typed access to the generic method. - Specifies the type to stub e.g. to create a fake for. - Specifies the . - Constructor arguments for fake to create. - A new fake for the type specified via . - - - - Container class for (as it name implies) guard clauses. - - - - - Verifies that the argument supplied by - is not null. - - The object to be checked. - The name of the object that will be used when raising an . - - Thrown when is null. - - - - - Verifies that the argument supplied by - is neither null nor an empty . - - The object to be checked. - The name of the object that will be used when raising an . - - Thrown when is null or an empty . - - - - - Verifies that the type supplied by - is assignable to the type specified by . - - The type to be checked. - The target type. - - Thrown when is not assignable to . - - - - - Defines a fake framework independent fluent interface for setting up behavior - for methods returning void (commands) - - - - - Configures that the function supplied by - will be called when the method under configuration is called. - - - Specifies the function which is called when the method under configuration is called. - - - Use this overload when you're not interested in the parameters. - - - - - Configures that the function supplied by - will be called when the method under configuration is called. - - - Specifies the function which is called when the method under configuration is called. - - - Use this for callbacks on methods with a single parameter. - - - - - Configures that the function supplied by - will be called when the method under configuration is called. - - - Specifies the function which is called when the method under configuration is called. - - - Use this for callbacks on methods with two parameters. - - - - - Configures that the function supplied by - will be called when the method under configuration is called. - - - Specifies the function which is called when the method under configuration is called. - - - Use this for callbacks on methods with three parameters. - - - - - Configures that the function supplied by - will be called when the method under configuration is called. - - - Specifies the function which is called when the method under configuration is called. - - - Use this for callbacks on methods with four parameters. - - - - - Configures that the invocation of the related behavior - results in the specified beeing thrown. - - - Specifies the exception which should be thrown when the - behavior is invoked. - - - - - Interface for detail configuration used by . - - - - - Specifies that the behavior on the fake should be executed several times. - specifies exactly how often. - - - The number of times the behavior should have been executed. - - - - - Specifies that the behavior on the fake should only be executed once. - - - - - Specifies that the behavior on the fake should be called twice. - - - - - Defines a fake framework independent fluent interface for setting up behavior - for methods returning a result (queries). - - - Specifies the return value of the behavior under configuration. - - - - - Sets up the return value of a behavior. - - - Specifies the return value. - - - - - Configures that the function supplied by - will be used to evaluate the result value of a behavior. - - - Specifies the function which is called when the method is called. - - - Use this for configuring parameterless methods. - - - - - Configures that the function supplied by - will be used to evaluate the result value of a behavior. - - - Specifies the function which is called when the method is called. - - - Use this for configuring methods with a single parameter. - - - - - Configures that the function supplied by - will be used to evaluate the result value of a behavior. - - - Specifies the function which is called when the method is called. - - - Use this for configuring methods with two parameters. - - - - - Configures that the function supplied by - will be used to evaluate the result value of a behavior. - - - Specifies the function which is called when the method is called. - - - Use this for configuring methods with three parameters. - - - - - Configures that the function supplied by - will be used to evaluate the result value of a behavior. - - - Specifies the function which is called when the method is called. - - - Use this for configuring methods with four parameters. - - - - - Configures that the invocation of the related behavior - results in the specified beeing thrown. - - - Specifies the exception which should be thrown when the - behavior is invoked. - - - - - Base class that adds auto mocking (grasp), I mean auto faking capabilities - to Machine.Specifications. - - - The subject for the specification. This is the type that is created by the - specification for you. - - - Specifies the concrete fake engine that will be used for creating fake instances. - This must be a class with a parameterless constructor that implements . - - - - - The specification controller - - - - - Creates a new instance of the class. - - - - - Creates a fake of the type specified by . - This method reuses existing instances. If an instance of - was already requested it's returned here. (You can say this is kind of a singleton behavior) - Besides that, you can obtain a reference to automatically injected fakes with this - method. - - The type to create a fake for. (Should be an interface or an abstract class) - - An instance implementing . - - - - - Creates a fake of the type specified by . - - The type to create a fake for. (Should be an interface or an abstract class) - - Optional constructor parameters for abstract base classes as fakes. - - - An newly created fake implementing . - - - - - Creates a list containing 3 fake instances of the type specified - via . - - Specifies the item type of the list. This should be an interface or an abstract class. - An . - - - - Creates a list of fakes. - - - Specifies the item type of the list. This should be an interface or an abstract class. - - - Specifies the amount of fakes that have to be created and inserted into the list. - - - An . - - - - - Uses the instance supplied by during the - build process of the subject. The specified instance will be injected into the constructor. - - Specifies the interface type. - Specifies the instance to be used for the specification. - - - - Registered the type specified via as the default type - for the interface specified via . With this the type gets automatically - build when the subject is resolved. - - - Specifies the interface type. - - - Specifies the implementation type. - - - - - Applies the configuration embedded in the registar to the underlying container. - - - Specifies the registrar. - - - Thrown when the supplied registrar is null. - - - - - Applies the configuration embedded in the registar to the underlying container. - Shortcut for so that you don't have to create the - registrar manually. - - The registrar type. - The registrar. - - - - Shortcut for . This one will create - a registrar for you and allow configuration via the delegate passed - in via . - - - Specifies the configuration for the registrar. - - - Thrown when the supplied registrar is null. - - - - - Configures the specification to execute a behavior config before the action on the subject - is executed (). - - Specifies the type of the config to be executed. - The behavior config instance. - - The class specified by - needs to have private fields assigned with either - or delegates. - - - - - Configures the specification to execute the behavior config specified - by before the action on the sut is executed (). - - - Specifies the behavior config to be executed. - - - The object specified by - needs to have private fields assigned with either - or delegates. - - - - - Gives access to the subject under specification. On first access - the spec tries to create an instance of the subject type by itself. - Override this behavior by manually setting a subject instance. - - - - + + + + Machine.Fakes + + + + + Delegate used in behavior configs in order + to configure dependencies in the main specification + from outside the specification. + + + Specifies gateway for accessing fakes. + + + + + Delegate used in behavior configs in order + to cleanup the subject after a specification has been + executed. This can be used for cleaning up transactions + for example. + + + Specifies the subject of a context / specification. + + + + + Interface for setting up callbacks for methods returning void (commands). + + + + + Configures that the function supplied by + will be called when the method under configuration is called. + + + Specifies the function which is called when the method under configuration is called. + + + Use this overload when you're not interested in the parameters. + + + + + Configures that the function supplied by + will be called when the method under configuration is called. + + + Specifies the function which is called when the method under configuration is called. + + + Use this for callbacks on methods with a single parameter. + + + + + Configures that the function supplied by + will be called when the method under configuration is called. + + + Specifies the function which is called when the method under configuration is called. + + + Use this for callbacks on methods with two parameters. + + + + + Configures that the function supplied by + will be called when the method under configuration is called. + + + Specifies the function which is called when the method under configuration is called. + + + Use this for callbacks on methods with three parameters. + + + + + Configures that the function supplied by + will be called when the method under configuration is called. + + + Specifies the function which is called when the method under configuration is called. + + + Use this for callbacks on methods with four parameters. + + + + + Exception that occurs when a type cannot be instantiated by the automatic faking/dependency resolution + + + + + Constructor + + Type that cannot be created + Reason + + + + Constructor + + Type that cannot be created + Reason + Inner Exception + + + + This class implements the several way that can be used to work with the + API. + + + + + Uses the instance supplied by during the + creation of the sut. The specified instance will be injected into the constructor. + + Specifies the interface type. + Specifies the fake accessor + Specifies the instance to be used for the specification. + + + + Registered the type specified via as the default type + for the interface specified via . With this the type gets automatically + build when the subject is resolved. + + + Specifies the fake accessor + + + Specifies the interface type. + + + Specifies the implementation type. + + + + + Shortcut for . This one will create + a registrar for you and allow configuration via the delegate passed + in via . + + + Specifies the fake accessor + + + Specifies the configuration for the registrar. + + + Thrown when the supplied registrar expression is null. + + + + + Entry point for using inline parameter constraints with Machine.Fakes. + + + + + Configures that the parameter must match the specified value. + + The value. + Specifies the parameter type. + A substitute type that isn't directly used. + + + + Configures that every parameter value matches. + + + Specifies the parameter type. + + + A substitute type that isn't directly used. + + + + + Entry point for using inline parameter constraints with Machine.Fakes. + + + Specifies the parameters type. + + + + + Configures that the parameter must be of a particular type. + + + Specifies the other type. + + + A substitute type that isn't directly used. + + + + + Configures that the parameter must match the specified predicate. + + + Specifies the predicate. + + + A substitute type that isn't directly used. + + + + + Matches when the parameter value is null. + + + A substitute type that isn't directly used. + + + + + Matches when the parameter value is not null. + + + A substitute type that isn't directly used. + + + + + Every parameter is matched. + + + A substitute type that isn't directly used. + + + + + Registration endpoint for configuring the underlying container with + concrete implementations (the rest that can be faked will be filled up from the AutoFakeContainer). + + + + + Stores the mapping supplied by . + + + Specifies the mapping to be stored. + + + Thrown when is null. + + + + + Applies the configured mappings. + + An action that registers a single mapping + + + + Shortcut for inlining the configuration of a registrar via + the nested closure pattern. + + + Specifies the expression that does the configuraition. + + + The configured registrar. + + + Thrown when is null. + + + + + Starts the configuration of a type. This should be the interface type. + + + Specifies the interface type. + + + An expression for further configuration. + + + Thrown when is null. + + + + + Starts the configuration of a type. This should be the interface type. + + + Specifies the interface type. + + + An expression for further configuration. + + + + + Concludes the configurataion that was startet with . + + + + + Configures the underlying container to use + the specified instance whenever an instance of the interface type + in the container is resolved. + + + Specifies the instance to be used. + + + Thrown when is null. + + + + + Configures the underlying container to use + the specified implementation type whenever an instance of the interface type + in the container is resolved. + + + Specifies the implementation type to be used. + + + Thrown when is null. + + + + + Concludes the configuration that was started with . + + + + + Configures the underlying container to use + the specified implementation type whenever an instance of the interface type + in the container is resolved. + + + Specifies the implementation type. + + + + + Configures the underlying container to use + the specified instance whenever an instance of the interface type + in the container is resolved. + + + Specifies the instance to be used. + + + + + Configures the underlying container to use + the specified factory when he needs to create an instance of the target type. + + + Specifies the factory to be used for creation. + + + Thrown when is null. + + + + + A converter for a . + + + Specifies the expression to be converted. + + + The result of the conversion. + + + + + A converter for a . + + + Specifies the expression to be converted. + + + The result of the conversion. + + + + + Base class for implementations. + + + + + Rewriter abstraction that is used by Machine.Fakes + in order to transform the inline constraint format used by Machine.Fakes + into the specific formats used by the different mock frameworks. + + + + + Rewrites the expression tree and replaces all occurences + of Machine.Fakes specific inline constraints with the + equivalents of a specific mock framework. + + + Specifies the input expression. + + + Returns the target expression in the format of the relevant mock framework. + + + + + Rewrites the expression tree and replaces all occurences + of Machine.Fakes specific inline constraints with the + equivalents of a specific mock framework. + + + Specifies the input expression. + + + Returns the target expression in the format of the relevant mock framework. + + + + + Adds a converter for a particular method. + + + Specifies the name of the method. + + + Specifies the converter + + + + + Adds a converter for a particular member. + + + Specifies the name of the member. + + + Specifies the converter + + + + + Is called on each expression. + + + Specifies the expression node. + + + The new expression to be used for that node. + + + + + Is called on each expression. + + + Specifies the expression node. + + + The new expression to be used for that node. + + + + + A helper class for extensions on expression. + + + + + Rewrites the expression specified by + with the rewriter specified by . + + + Specifies the parameter type in the expression. + + + Specifies the return type in the expression. + + + Specifies the expression. + + + Specifies the rewriter. + + + The converted expression. + + + + + Rewrites the expression specified by + with the rewriter specified by . + + + Specifies the parameter type in the expression. + + + Specifies the expression. + + + Specifies the rewriter. + + + The converted expression. + + + + + Helper class which contains all the helper method needed for reflection. + + + + + Checks whether the supplied type is one of the machine.fakes + inline constraint types. + + + Specifies the type to check. + + + true if it's one of the constraint types. Otherwise not. + + + + + Checks whether the supplied type closes the class. + + + Specifies the type to be checked. + + + true if the type closes the type. Otherwise false. + + + + + Gets the first generic type argument of the specified type. + + + Specifies the type to extract the type argument from. + + + The extracted type. + + + + + Gets the first generic type argument of the specified type. + + + Specifies the method to extract the type argument from. + + + The extracted type. + + + + + Creates a on a public instance property. + + + Specifies the target type. + + + Specifies the name of the property to be accessed. + + + Specifies an instance via an . + + + The created . + + + + + Creates a on a public static property. + + + Specifies the target type. + + + Specifies the name of the property to be accessed. + + + The created . + + + + + Get all field values of the type specified by . + + + Specifies the field type. + + + Specifies the instance to extract the field values from. + + + A collection of all field values of the specified type. + + + + + Resets the references in the instance specified by . + + The instance. + + + + Derive from this class in order to make inline constraints work. + This is just glue code. The expression writer does does all the job. + + + + + Interface to a fake framework. + + + + + Creates a fake of the type specified via using a non default constructor. + + + Specifies the interface type to create a fake for. + + + Specifies parameters for non default constructor. + + + The created fake instance. + + + + + Creates a partial mock. + + + Specifies the type of the partial mock. This needs to be + an abstract base class. + + + Specifies the constructor parameters. + + + The created instance. + + + + + Configures the behavior of the fake specified by . + + + Specifies the type of the fake. + + + Specifies the type of the return value. + + + The fake to configure behavior on. + + + Expression to set up the behavior. + + + A for further configuration. + + + + + Configures the behavior of the fake specified by . + + + Specifies the type of the fake. + + + The fake to configure behavior on. + + + Configures the behavior. This must be a void method. + + + A for further configuration. + + + This method is used for command, e.g. methods returning void. + + + + + Verifies that the behavior specified by + was not executed on the fake specified by . + + + Specifies the type of the fake. + + + Specifies the fake instance. + + + Specifies the behavior that was not supposed to happen. + + + + + Verifies that the behavior specified by + was executed on the fake specified by . + + + Specifies the type of the fake. + + + Specifies the fake instance. + + + Specifies the behavior that was supposed to happen. + + + A which can be used + to narrow down the expectations to a particular amount of times. + + + + + Creates a new instance of the class. + + + Specifies the rewriter that translates the expressions or more + specific the generic inline constraints used in expressions + to the inline constraints used in the target fake framework. + + + + + Creates a fake of the type specified via with no default constructor. + + Specifies the interface type to create a fake for. + Specifies the constructor parameters. + The created fake instance. + + + + Creates a partial mock. + + + Specifies the type of the partial mock. This needs to be + an abstract base class. + + + Specifies the constructor parameters. + + + The created instance. + + + + + Configures the behavior of the fake specified by . + + Specifies the type of the fake. + Specifies the type of the return value. + The fake to configure behavior on. + Expression to set up the behavior. + A for further configuration. + + + + Configures the behavior of the fake specified by . + + Specifies the type of the fake. + The fake to configure behavior on. + Configures the behavior. This must be a void method. + A for further configuration. + This method is used for command, e.g. methods returning void. + + + + Verifies that the behavior specified by + was not executed on the fake specified by . + + Specifies the type of the fake. + Specifies the fake instance. + Specifies the behavior that was not supposed to happen. + + + + Verifies that the behavior specified by + was executed on the fake specified by . + + Specifies the type of the fake. + Specifies the fake instance. + Specifies the behavior that was supposed to happen. + A which can be used + to narrow down the expectations to a particular amount of times. + + + + Verifies that the behavior specified by + was executed on the fake specified by . + + Specifies the type of the fake. + Specifies the fake instance. + Specifies the behavior that was supposed to happen + expressed in terms of the target framework. + A which can be used + to narrow down the expectations to a particular amount of times. + + + + Configures the behavior of the fake specified by . + + Specifies the type of the fake. + Specifies the type of the return value. + The fake to configure behavior on. + Expression to set up the behavior in terms of the target framework. + A for further configuration. + + + + Verifies that the behavior specified by + was not executed on the fake specified by . + + Specifies the type of the fake. + Specifies the fake instance. + Specifies the behavior that was not supposed to happen + expressed in terms of the target framework. + + + + Configures the behavior of the fake specified by . + + Specifies the type of the fake. + The fake to configure behavior on. + Configures the behavior expressed in terms of the target framework. + This must be a void method. + A for further configuration. + + + + Shortcut for which + supplies the type of the fake engine to be used via a generic type parameter. + + + The subject for the specification. This is the type that is created by the + specification for you. + + + Specifies the type of the fake engine which will be used. + + + + + Controller that implements all the core capabilities of Machine.Fakes. + This includes filling a subject with fakes and providing all the handy helper methods + for interacting with fakes in a specification. + + + The subject for the specification. This is the type that is created by the + specification for you. + + + + + Accessor interface for dependencies created and managed by fake framework / auto fake container. + + + + + Creates a fake of the type specified by . + + + The type to create a fake for. (Should be an interface or an abstract class) + + + The ctor parameters for the newly created entity + + + An newly created fake implementing . + + + + + Creates a fake of the type specified by . + + The type to create a fake for. (Should be an interface or an abstract class) + + Specifies the type of item to fake. + + + The ctor parameters for the newly created entity + + + An newly created fake implementing . + + + + + Creates a fake of the type specified by . + This method reuses existing instances. If an instance of + was already requested it's returned here. (You can say this is kind of a singleton behavior) + Besides that, you can obtain a reference to automatically injected fakes with this + method. + + + The type to create a fake for. (Should be an interface or an abstract class) + + + An instance implementing . + + + + + Creates a list containing 3 fake instances of the type specified + via . + + + Specifies the item type of the list. This should be an interface or an abstract class. + + + An . + + + + + Creates a list containing fake instances of the type specified via . + + + Specifies the amount of fakes in the list. + + Specifies the item type of the list. This should be an interface or an abstract class. + An . + + + + Applies the configuration embedded in the registar to the underlying container. + + + Specifies the registrar. + + + Thrown when the supplied registrar is null. + + + + + Creates a new instance of the class. + + + Specifies the that is used for creating specifications. + + + + + Applies the configuration embedded in the registar to the underlying container. + + + Specifies the registrar. + + + Thrown when the supplied registrar is null. + + + + + Configures the specification to execute a behavior config before the action on the subject + is executed (). + + Specifies the type of the config to be executed. + The behavior config instance. + + The class specified by + needs to have private fields assigned with either + or delegates. + + + + + Configures the specification to execute the behavior config specified + by before the action on the sut is executed (). + + + Specifies the behavior config to be executed. + + + The object specified by + needs to have private fields assigned with either + or delegates. + + + + + Creates a fake of the type specified by without a default constructor. + + The type to create a fake for. + + No default constructor arguments + + + An newly created fake implementing . + + + + + Creates a fake of the type specified by without default constructor. + + The type to create a fake for. + + Specifies the type of item to fake. + + + Specifies the constructor parameters if the class is a concrete class without default constructor + + + An newly created fake implementing . + + + + + Creates a fake of the type specified by . + This method reuses existing instances. If an instance of + was already requested it's returned here. (You can say this is kind of a singleton behavior) + Besides that, you can obtain a reference to automatically injected fakes with this + method. + + The type to create a fake for. (Should be an interface or an abstract class) + + An instance implementing . + + + + + Creates a list containing 3 fake instances of the type specified + via . + + Specifies the item type of the list. This should be an interface or an abstract class. + An . + + + + Creates a list of fakes. + + + Specifies the item type of the list. This should be an interface or an abstract class. + + + Specifies the amount of fakes that have to be created and inserted into the list. + + + An . + + + + + Performs cleanup. Exuecutes the Cleanup functionality of all configured behavior configs. + + + + + Ensures that the subject has been created. This will trigger the lazy loading in case creation hasn't happened + before. + + + + + Gives access to the subject under specification. On first access + the spec tries to create an instance of the subject type by itself. + Override this behavior by manually setting a subject instance. + + + + + Creates a new instance of the class. + + + + + Base class for specifications. + + The subject of the specification + + Specifies the concrete fake engine that will be used for creating fake instances. + This must be a class with a parameterless constructor that implements . + + + + + The specification controller + + + + + Creates a fake of the type specified by . + + The type to create a fake for. (Should be an interface or an abstract class) + + Optional constructor parameters for abstract base classes as fakes. + + + An newly created fake implementing . + + + + + Creates a list containing 3 fake instances of the type specified + via . + + Specifies the item type of the list. This should be an interface or an abstract class. + An . + + + + Creates a list of fakes. + + + Specifies the item type of the list. This should be an interface or an abstract class. + + + Specifies the amount of fakes that have to be created and inserted into the list. + + + An . + + + + + Configures the specification to execute a behavior config before the action on the subject + is executed (). + + Specifies the type of the config to be executed. + The behavior config instance. + + The class specified by + needs to have private fields assigned with either + or delegates. + + + + + Configures the specification to execute the behavior config specified + by before the action on the sut is executed (). + + + Specifies the behavior config to be executed. + + + The object specified by + needs to have private fields assigned with either + or delegates. + + + + + Creates a fake of the type specified by . + This method reuses existing instances. If an instance of + was already requested it's returned here. (You can say this is kind of a singleton behavior) + Besides that, you can obtain a reference to automatically injected fakes with this + method. + + The type to create a fake for. (Should be an interface or an abstract class) + + An instance implementing . + + + + + Uses the instance supplied by during the + build process of the subject. The specified instance will be injected into the constructor. + + Specifies the interface type. + Specifies the instance to be used for the specification. + + + + Registered the type specified via as the default type + for the interface specified via . With this the type gets automatically + build when the subject is resolved. + + + Specifies the interface type. + + + Specifies the implementation type. + + + + + Applies the configuration embedded in the registar to the underlying container. + + + Specifies the registrar. + + + Thrown when the supplied registrar is null. + + + + + Applies the configuration embedded in the registar to the underlying container. + Shortcut for so that you don't have to create the + registrar manually. + + The registrar type. + The registrar. + + + + Shortcut for . This one will create + a registrar for you and allow configuration via the delegate passed + in via . + + + Specifies the configuration for the registrar. + + + Thrown when the supplied registrar is null. + + + + + Throws when the constructor has not been called + + + + + Base class for the simpler cases than . + + + Specifies the concrete fake engine that will be used for creating fake instances. + This must be a class with a parameterless constructor that implements . + + + + + A set of extension methods for setting up behavior on fakes in a fashion independent + of a particular fake framework. + + + + + Configures the behavior of the fake specified by . + + + Specifies the type of the fake. + + + Specifies the type of the return value. + + + The fake to configure behavior on. + + + Configures the behavior. + + + A for further configuration. + + + + + Configures the behavior of the fake specified by . + + + Specifies the type of the fake. + + + The fake to configure behavior on. + + + Configures the behavior. This must be a void method. + + + A for further configuration. + + + This method is used for command, e.g. methods returning void. + + + + + Verifies that the behavior specified by + was not executed on the fake specified by . + + + Specifies the type of the fake. + + + Specifies the fake instance. + + + Specifies the behavior that was not supposed to happen. + + + + + Verifies that the behavior specified by + was executed on the fake specified by . + + + Specifies the type of the fake. + + + Specifies the fake instance. + + + Specifies the behavior that was supposed to happen. + + + A which can be used + to narrow down the expectations to a particular amount of times. + + + + + A set of extension methods to simplify the strong typed fake creation + which is used at several places in the framework. + + + + Gives strong typed access to the generic method. + Specifies the type to stub e.g. to create a fake for. + Specifies the . + Constructor arguments for fake to create. + A new fake for the type specified via . + + + + Container class for (as it name implies) guard clauses. + + + + + Verifies that the argument supplied by + is not null. + + The object to be checked. + The name of the object that will be used when raising an . + + Thrown when is null. + + + + + Verifies that the argument supplied by + is neither null nor an empty . + + The object to be checked. + The name of the object that will be used when raising an . + + Thrown when is null or an empty . + + + + + Verifies that the type supplied by + is assignable to the type specified by . + + The type to be checked. + The target type. + + Thrown when is not assignable to . + + + + + Defines a fake framework independent fluent interface for setting up behavior + for methods returning void (commands) + + + + + Configures that the invocation of the related behavior + results in the specified beeing thrown. + + + Specifies the exception which should be thrown when the + behavior is invoked. + + + + + Configures that the out and ref parameters of the method are set to the specified . + + Values to be set. Specify the values in the order the ref and out parameters appear in the method signature, + any non out and ref parameters are ignored. + Interface for configuring further behavior + An is thrown when the method is invoked and if + more or less values are given than there are out and ref parameters in the method signature. + + + + Interface for detail configuration used by . + + + + + Specifies that the behavior on the fake should be executed several times. + specifies exactly how often. + + + The number of times the behavior should have been executed. + + + + + Specifies that the behavior on the fake should only be executed once. + + + + + Specifies that the behavior on the fake should be called twice. + + + + + Defines a fake framework independent fluent interface for setting up behavior + for methods returning a result (queries). + + + Specifies the return value of the behavior under configuration. + + + + + Sets up the return value of a behavior. + + + Specifies the return value. + + + + + Configures that the function supplied by + will be used to evaluate the result value of a behavior. + + + Specifies the function which is called when the method is called. + + + Use this for configuring parameterless methods. + + + + + Configures that the function supplied by + will be used to evaluate the result value of a behavior. + + + Specifies the function which is called when the method is called. + + + Use this for configuring methods with a single parameter. + + + + + Configures that the function supplied by + will be used to evaluate the result value of a behavior. + + + Specifies the function which is called when the method is called. + + + Use this for configuring methods with two parameters. + + + + + Configures that the function supplied by + will be used to evaluate the result value of a behavior. + + + Specifies the function which is called when the method is called. + + + Use this for configuring methods with three parameters. + + + + + Configures that the function supplied by + will be used to evaluate the result value of a behavior. + + + Specifies the function which is called when the method is called. + + + Use this for configuring methods with four parameters. + + + + + Configures that the invocation of the related behavior + results in the specified beeing thrown. + + + Specifies the exception which should be thrown when the + behavior is invoked. + + + + + Base class that adds auto mocking (grasp), I mean auto faking capabilities + to Machine.Specifications. + + + The subject of the specification. This is the type that is created by the + specification for you. + + + Specifies the concrete fake engine that will be used for creating fake instances. + This must be a class with a parameterless constructor that implements . + + + + + Creates a new instance of the class. + + + + + Gives access to the subject under specification. On first access + the spec tries to create an instance of the subject type by itself. + Override this behavior by manually setting a subject instance. + + + + diff --git a/packages/Machine.Fakes.FakeItEasy.1.4.0/Machine.Fakes.FakeItEasy.1.4.0.nupkg b/packages/Machine.Fakes.FakeItEasy.1.4.0/Machine.Fakes.FakeItEasy.1.4.0.nupkg deleted file mode 100644 index 3a82a10..0000000 Binary files a/packages/Machine.Fakes.FakeItEasy.1.4.0/Machine.Fakes.FakeItEasy.1.4.0.nupkg and /dev/null differ diff --git a/packages/Machine.Fakes.FakeItEasy.1.4.0/lib/net40/Machine.Fakes.Adapters.FakeItEasy.dll b/packages/Machine.Fakes.FakeItEasy.1.4.0/lib/net40/Machine.Fakes.Adapters.FakeItEasy.dll deleted file mode 100644 index b42c836..0000000 Binary files a/packages/Machine.Fakes.FakeItEasy.1.4.0/lib/net40/Machine.Fakes.Adapters.FakeItEasy.dll and /dev/null differ diff --git a/packages/Machine.Fakes.FakeItEasy.1.8.0/Machine.Fakes.FakeItEasy.1.8.0.nupkg b/packages/Machine.Fakes.FakeItEasy.1.8.0/Machine.Fakes.FakeItEasy.1.8.0.nupkg new file mode 100644 index 0000000..b3d9fff Binary files /dev/null and b/packages/Machine.Fakes.FakeItEasy.1.8.0/Machine.Fakes.FakeItEasy.1.8.0.nupkg differ diff --git a/packages/Machine.Fakes.FakeItEasy.1.4.0/Machine.Fakes.FakeItEasy.1.4.0.nuspec b/packages/Machine.Fakes.FakeItEasy.1.8.0/Machine.Fakes.FakeItEasy.1.8.0.nuspec similarity index 85% rename from packages/Machine.Fakes.FakeItEasy.1.4.0/Machine.Fakes.FakeItEasy.1.4.0.nuspec rename to packages/Machine.Fakes.FakeItEasy.1.8.0/Machine.Fakes.FakeItEasy.1.8.0.nuspec index 69ea15b..0647c0a 100644 --- a/packages/Machine.Fakes.FakeItEasy.1.4.0/Machine.Fakes.FakeItEasy.1.4.0.nuspec +++ b/packages/Machine.Fakes.FakeItEasy.1.8.0/Machine.Fakes.FakeItEasy.1.8.0.nuspec @@ -1,22 +1,22 @@ - - - - Machine.Fakes.FakeItEasy - 1.4.0 - The machine project - The machine project - https://github.com/machine/machine.fakes/raw/master/License.txt - https://github.com/machine/machine.fakes - https://github.com/machine/machine.fakes/raw/master/machine.fakes-128x128.png - false - Machine.Fakes attempts to simplify the usage of such frameworks on top of Machine.Specifications by helping to reduce a lot of the typical fake framwork related clutter code in specifications. If you choose so, Machine.Fakes even helps you to stay mostly independent of a concrete fake framework by providing a little wrapper API and a provider model for fake frameworks. This is the adapter for FakeItEasy 1.10.0 - A framework for faking objects with FakeItEasy on top of Machine.Specifications. - See https://github.com/machine/machine.fakes/blob/master/changelog.markdown - en-US - tdd bdd testing unittest fakes mocks mspec mfakes - - - - - + + + + Machine.Fakes.FakeItEasy + 1.8.0 + The machine project + The machine project + https://github.com/machine/machine.fakes/raw/master/License.txt + https://github.com/machine/machine.fakes + https://github.com/machine/machine.fakes/raw/master/machine.fakes-128x128.png + false + Machine.Fakes attempts to simplify the usage of such frameworks on top of Machine.Specifications by helping to reduce a lot of the typical fake framwork related clutter code in specifications. If you choose so, Machine.Fakes even helps you to stay mostly independent of a concrete fake framework by providing a little wrapper API and a provider model for fake frameworks. This is the adapter for FakeItEasy 1.14.0 + A framework for faking objects with FakeItEasy on top of Machine.Specifications. + See https://github.com/machine/machine.fakes/blob/master/changelog.markdown + en-US + tdd bdd testing unittest fakes mocks mspec mfakes + + + + + \ No newline at end of file diff --git a/packages/Machine.Fakes.FakeItEasy.1.8.0/lib/net40/Machine.Fakes.Adapters.FakeItEasy.dll b/packages/Machine.Fakes.FakeItEasy.1.8.0/lib/net40/Machine.Fakes.Adapters.FakeItEasy.dll new file mode 100644 index 0000000..a8634fb Binary files /dev/null and b/packages/Machine.Fakes.FakeItEasy.1.8.0/lib/net40/Machine.Fakes.Adapters.FakeItEasy.dll differ diff --git a/packages/Machine.Fakes.FakeItEasy.1.4.0/lib/net40/Machine.Fakes.Adapters.FakeItEasy.xml b/packages/Machine.Fakes.FakeItEasy.1.8.0/lib/net40/Machine.Fakes.Adapters.FakeItEasy.xml similarity index 97% rename from packages/Machine.Fakes.FakeItEasy.1.4.0/lib/net40/Machine.Fakes.Adapters.FakeItEasy.xml rename to packages/Machine.Fakes.FakeItEasy.1.8.0/lib/net40/Machine.Fakes.Adapters.FakeItEasy.xml index f807258..de92ba7 100644 --- a/packages/Machine.Fakes.FakeItEasy.1.4.0/lib/net40/Machine.Fakes.Adapters.FakeItEasy.xml +++ b/packages/Machine.Fakes.FakeItEasy.1.8.0/lib/net40/Machine.Fakes.Adapters.FakeItEasy.xml @@ -1,63 +1,63 @@ - - - - Machine.Fakes.Adapters.FakeItEasy - - - - - An implementation of using the FakeItEasy framework. - - - - - Default constructor - - - - - - - - - - - - - - - - - - - - - - - Functionality to transform the inline constraint format used by Machine.Fakes - into the specific format used by FakeItEasy. - - - - - Default constructor - - - - - Base class for the simpler cases than . - This class only contains the shortcuts for creating fakes via "An" and "Some". - - - - - Base class that adds auto mocking (grasp), I mean auto faking capabilities - to Machine.Specifications. - - - The subject for the specification. This is the type that is created by the - specification for you. - - - - + + + + Machine.Fakes.Adapters.FakeItEasy + + + + + An implementation of using the FakeItEasy framework. + + + + + Default constructor + + + + + + + + + + + + + + + + + + + + + + + Functionality to transform the inline constraint format used by Machine.Fakes + into the specific format used by FakeItEasy. + + + + + Default constructor + + + + + Base class for the simpler cases than . + This class only contains the shortcuts for creating fakes via "An" and "Some". + + + + + Base class that adds auto mocking (grasp), I mean auto faking capabilities + to Machine.Specifications. + + + The subject for the specification. This is the type that is created by the + specification for you. + + + + diff --git a/packages/Machine.Fakes.Moq.1.4.0/Machine.Fakes.Moq.1.4.0.nupkg b/packages/Machine.Fakes.Moq.1.4.0/Machine.Fakes.Moq.1.4.0.nupkg deleted file mode 100644 index f693c08..0000000 Binary files a/packages/Machine.Fakes.Moq.1.4.0/Machine.Fakes.Moq.1.4.0.nupkg and /dev/null differ diff --git a/packages/Machine.Fakes.Moq.1.4.0/lib/net40/Machine.Fakes.Adapters.Moq.dll b/packages/Machine.Fakes.Moq.1.4.0/lib/net40/Machine.Fakes.Adapters.Moq.dll deleted file mode 100644 index 3053749..0000000 Binary files a/packages/Machine.Fakes.Moq.1.4.0/lib/net40/Machine.Fakes.Adapters.Moq.dll and /dev/null differ diff --git a/packages/Machine.Fakes.Moq.1.8.0/Machine.Fakes.Moq.1.8.0.nupkg b/packages/Machine.Fakes.Moq.1.8.0/Machine.Fakes.Moq.1.8.0.nupkg new file mode 100644 index 0000000..98f9a95 Binary files /dev/null and b/packages/Machine.Fakes.Moq.1.8.0/Machine.Fakes.Moq.1.8.0.nupkg differ diff --git a/packages/Machine.Fakes.Moq.1.4.0/Machine.Fakes.Moq.1.4.0.nuspec b/packages/Machine.Fakes.Moq.1.8.0/Machine.Fakes.Moq.1.8.0.nuspec similarity index 85% rename from packages/Machine.Fakes.Moq.1.4.0/Machine.Fakes.Moq.1.4.0.nuspec rename to packages/Machine.Fakes.Moq.1.8.0/Machine.Fakes.Moq.1.8.0.nuspec index 75c9e3a..aee648c 100644 --- a/packages/Machine.Fakes.Moq.1.4.0/Machine.Fakes.Moq.1.4.0.nuspec +++ b/packages/Machine.Fakes.Moq.1.8.0/Machine.Fakes.Moq.1.8.0.nuspec @@ -1,22 +1,22 @@ - - - - Machine.Fakes.Moq - 1.4.0 - The machine project - The machine project - https://github.com/machine/machine.fakes/raw/master/License.txt - https://github.com/machine/machine.fakes - https://github.com/machine/machine.fakes/raw/master/machine.fakes-128x128.png - false - Machine.Fakes attempts to simplify the usage of such frameworks on top of Machine.Specifications by helping to reduce a lot of the typical fake framwork related clutter code in specifications. If you choose so, Machine.Fakes even helps you to stay mostly independent of a concrete fake framework by providing a little wrapper API and a provider model for fake frameworks. This is the adapter for Moq 4.0.10827 - A framework for faking objects with Moq on top of Machine.Specifications. - See https://github.com/machine/machine.fakes/blob/master/changelog.markdown - en-US - tdd bdd testing unittest fakes mocks mspec mfakes - - - - - + + + + Machine.Fakes.Moq + 1.8.0 + The machine project + The machine project + https://github.com/machine/machine.fakes/raw/master/License.txt + https://github.com/machine/machine.fakes + https://github.com/machine/machine.fakes/raw/master/machine.fakes-128x128.png + false + Machine.Fakes attempts to simplify the usage of such frameworks on top of Machine.Specifications by helping to reduce a lot of the typical fake framwork related clutter code in specifications. If you choose so, Machine.Fakes even helps you to stay mostly independent of a concrete fake framework by providing a little wrapper API and a provider model for fake frameworks. This is the adapter for Moq 4.1.1309.1617 + A framework for faking objects with Moq on top of Machine.Specifications. + See https://github.com/machine/machine.fakes/blob/master/changelog.markdown + en-US + tdd bdd testing unittest fakes mocks mspec mfakes + + + + + \ No newline at end of file diff --git a/packages/Machine.Fakes.Moq.1.8.0/lib/net40/Machine.Fakes.Adapters.Moq.dll b/packages/Machine.Fakes.Moq.1.8.0/lib/net40/Machine.Fakes.Adapters.Moq.dll new file mode 100644 index 0000000..e3c5097 Binary files /dev/null and b/packages/Machine.Fakes.Moq.1.8.0/lib/net40/Machine.Fakes.Adapters.Moq.dll differ diff --git a/packages/Machine.Fakes.Moq.1.4.0/lib/net40/Machine.Fakes.Adapters.Moq.xml b/packages/Machine.Fakes.Moq.1.8.0/lib/net40/Machine.Fakes.Adapters.Moq.xml similarity index 97% rename from packages/Machine.Fakes.Moq.1.4.0/lib/net40/Machine.Fakes.Adapters.Moq.xml rename to packages/Machine.Fakes.Moq.1.8.0/lib/net40/Machine.Fakes.Adapters.Moq.xml index 374454c..c110241 100644 --- a/packages/Machine.Fakes.Moq.1.4.0/lib/net40/Machine.Fakes.Adapters.Moq.xml +++ b/packages/Machine.Fakes.Moq.1.8.0/lib/net40/Machine.Fakes.Adapters.Moq.xml @@ -1,53 +1,53 @@ - - - - Machine.Fakes.Adapters.Moq - - - - - An implementation of - using the Moq framework. - - - - - Default constructor - - - - - - - - - - - - - - - - - - - - - - - Base class for the simpler cases than . - This class only contains the shortcuts for creating fakes via "An" and "Some". - - - - - Base class that adds auto mocking (grasp), I mean auto faking capabilities - to Machine.Specifications. - - - The subject for the specification. This is the type that is created by the - specification for you. - - - - + + + + Machine.Fakes.Adapters.Moq + + + + + An implementation of + using the Moq framework. + + + + + Default constructor + + + + + + + + + + + + + + + + + + + + + + + Base class for the simpler cases than . + This class only contains the shortcuts for creating fakes via "An" and "Some". + + + + + Base class that adds auto mocking (grasp), I mean auto faking capabilities + to Machine.Specifications. + + + The subject for the specification. This is the type that is created by the + specification for you. + + + + diff --git a/packages/Machine.Fakes.NSubstitute.1.4.0/Machine.Fakes.NSubstitute.1.4.0.nupkg b/packages/Machine.Fakes.NSubstitute.1.4.0/Machine.Fakes.NSubstitute.1.4.0.nupkg deleted file mode 100644 index f33fb9a..0000000 Binary files a/packages/Machine.Fakes.NSubstitute.1.4.0/Machine.Fakes.NSubstitute.1.4.0.nupkg and /dev/null differ diff --git a/packages/Machine.Fakes.NSubstitute.1.4.0/lib/net40/Machine.Fakes.Adapters.NSubstitute.dll b/packages/Machine.Fakes.NSubstitute.1.4.0/lib/net40/Machine.Fakes.Adapters.NSubstitute.dll deleted file mode 100644 index 462d536..0000000 Binary files a/packages/Machine.Fakes.NSubstitute.1.4.0/lib/net40/Machine.Fakes.Adapters.NSubstitute.dll and /dev/null differ diff --git a/packages/Machine.Fakes.NSubstitute.1.8.0/Machine.Fakes.NSubstitute.1.8.0.nupkg b/packages/Machine.Fakes.NSubstitute.1.8.0/Machine.Fakes.NSubstitute.1.8.0.nupkg new file mode 100644 index 0000000..1bdfe28 Binary files /dev/null and b/packages/Machine.Fakes.NSubstitute.1.8.0/Machine.Fakes.NSubstitute.1.8.0.nupkg differ diff --git a/packages/Machine.Fakes.NSubstitute.1.4.0/Machine.Fakes.NSubstitute.1.4.0.nuspec b/packages/Machine.Fakes.NSubstitute.1.8.0/Machine.Fakes.NSubstitute.1.8.0.nuspec similarity index 85% rename from packages/Machine.Fakes.NSubstitute.1.4.0/Machine.Fakes.NSubstitute.1.4.0.nuspec rename to packages/Machine.Fakes.NSubstitute.1.8.0/Machine.Fakes.NSubstitute.1.8.0.nuspec index 1b83c61..01bc406 100644 --- a/packages/Machine.Fakes.NSubstitute.1.4.0/Machine.Fakes.NSubstitute.1.4.0.nuspec +++ b/packages/Machine.Fakes.NSubstitute.1.8.0/Machine.Fakes.NSubstitute.1.8.0.nuspec @@ -1,22 +1,22 @@ - - - - Machine.Fakes.NSubstitute - 1.4.0 - The machine project - The machine project - https://github.com/machine/machine.fakes/raw/master/License.txt - https://github.com/machine/machine.fakes - https://github.com/machine/machine.fakes/raw/master/machine.fakes-128x128.png - false - Machine.Fakes attempts to simplify the usage of such frameworks on top of Machine.Specifications by helping to reduce a lot of the typical fake framwork related clutter code in specifications. If you choose so, Machine.Fakes even helps you to stay mostly independent of a concrete fake framework by providing a little wrapper API and a provider model for fake frameworks. This is the adapter for NSubstitute 1.5.0.0 - A framework for faking objects with NSubstitute on top of Machine.Specifications. - See https://github.com/machine/machine.fakes/blob/master/changelog.markdown - en-US - tdd bdd testing unittest fakes mocks mspec mfakes - - - - - + + + + Machine.Fakes.NSubstitute + 1.8.0 + The machine project + The machine project + https://github.com/machine/machine.fakes/raw/master/License.txt + https://github.com/machine/machine.fakes + https://github.com/machine/machine.fakes/raw/master/machine.fakes-128x128.png + false + Machine.Fakes attempts to simplify the usage of such frameworks on top of Machine.Specifications by helping to reduce a lot of the typical fake framwork related clutter code in specifications. If you choose so, Machine.Fakes even helps you to stay mostly independent of a concrete fake framework by providing a little wrapper API and a provider model for fake frameworks. This is the adapter for NSubstitute 1.6.1.0 + A framework for faking objects with NSubstitute on top of Machine.Specifications. + See https://github.com/machine/machine.fakes/blob/master/changelog.markdown + en-US + tdd bdd testing unittest fakes mocks mspec mfakes + + + + + \ No newline at end of file diff --git a/packages/Machine.Fakes.NSubstitute.1.8.0/lib/net40/Machine.Fakes.Adapters.NSubstitute.dll b/packages/Machine.Fakes.NSubstitute.1.8.0/lib/net40/Machine.Fakes.Adapters.NSubstitute.dll new file mode 100644 index 0000000..471949c Binary files /dev/null and b/packages/Machine.Fakes.NSubstitute.1.8.0/lib/net40/Machine.Fakes.Adapters.NSubstitute.dll differ diff --git a/packages/Machine.Fakes.NSubstitute.1.4.0/lib/net40/Machine.Fakes.Adapters.NSubstitute.xml b/packages/Machine.Fakes.NSubstitute.1.8.0/lib/net40/Machine.Fakes.Adapters.NSubstitute.xml similarity index 97% rename from packages/Machine.Fakes.NSubstitute.1.4.0/lib/net40/Machine.Fakes.Adapters.NSubstitute.xml rename to packages/Machine.Fakes.NSubstitute.1.8.0/lib/net40/Machine.Fakes.Adapters.NSubstitute.xml index 8fd1509..3e11c7a 100644 --- a/packages/Machine.Fakes.NSubstitute.1.4.0/lib/net40/Machine.Fakes.Adapters.NSubstitute.xml +++ b/packages/Machine.Fakes.NSubstitute.1.8.0/lib/net40/Machine.Fakes.Adapters.NSubstitute.xml @@ -1,50 +1,50 @@ - - - - Machine.Fakes.Adapters.NSubstitute - - - - - An implementation of - using the NSubstitute framework. - - - - - Default constructor - - - - - - - - - - - - - - - - - - - - - - - - - - Base class that adds auto mocking (grasp), I mean auto faking capabilities - to Machine.Specifications. - - - The subject for the specification. This is the type that is created by the - specification for you. - - - - + + + + Machine.Fakes.Adapters.NSubstitute + + + + + An implementation of + using the NSubstitute framework. + + + + + Default constructor + + + + + + + + + + + + + + + + + + + + + + + + + + Base class that adds auto mocking (grasp), I mean auto faking capabilities + to Machine.Specifications. + + + The subject for the specification. This is the type that is created by the + specification for you. + + + + diff --git a/packages/Machine.Fakes.RhinoMocks.1.4.0/Machine.Fakes.RhinoMocks.1.4.0.nupkg b/packages/Machine.Fakes.RhinoMocks.1.4.0/Machine.Fakes.RhinoMocks.1.4.0.nupkg deleted file mode 100644 index 315a519..0000000 Binary files a/packages/Machine.Fakes.RhinoMocks.1.4.0/Machine.Fakes.RhinoMocks.1.4.0.nupkg and /dev/null differ diff --git a/packages/Machine.Fakes.RhinoMocks.1.4.0/lib/net40/Machine.Fakes.Adapters.RhinoMocks.dll b/packages/Machine.Fakes.RhinoMocks.1.4.0/lib/net40/Machine.Fakes.Adapters.RhinoMocks.dll deleted file mode 100644 index f77e254..0000000 Binary files a/packages/Machine.Fakes.RhinoMocks.1.4.0/lib/net40/Machine.Fakes.Adapters.RhinoMocks.dll and /dev/null differ diff --git a/packages/Machine.Fakes.RhinoMocks.1.8.0/Machine.Fakes.RhinoMocks.1.8.0.nupkg b/packages/Machine.Fakes.RhinoMocks.1.8.0/Machine.Fakes.RhinoMocks.1.8.0.nupkg new file mode 100644 index 0000000..d388da8 Binary files /dev/null and b/packages/Machine.Fakes.RhinoMocks.1.8.0/Machine.Fakes.RhinoMocks.1.8.0.nupkg differ diff --git a/packages/Machine.Fakes.RhinoMocks.1.4.0/Machine.Fakes.RhinoMocks.1.4.0.nuspec b/packages/Machine.Fakes.RhinoMocks.1.8.0/Machine.Fakes.RhinoMocks.1.8.0.nuspec similarity index 93% rename from packages/Machine.Fakes.RhinoMocks.1.4.0/Machine.Fakes.RhinoMocks.1.4.0.nuspec rename to packages/Machine.Fakes.RhinoMocks.1.8.0/Machine.Fakes.RhinoMocks.1.8.0.nuspec index 71c839e..ebbfc2f 100644 --- a/packages/Machine.Fakes.RhinoMocks.1.4.0/Machine.Fakes.RhinoMocks.1.4.0.nuspec +++ b/packages/Machine.Fakes.RhinoMocks.1.8.0/Machine.Fakes.RhinoMocks.1.8.0.nuspec @@ -1,22 +1,22 @@ - - - - Machine.Fakes.RhinoMocks - 1.4.0 - The machine project - The machine project - https://github.com/machine/machine.fakes/raw/master/License.txt - https://github.com/machine/machine.fakes - https://github.com/machine/machine.fakes/raw/master/machine.fakes-128x128.png - false - Machine.Fakes attempts to simplify the usage of such frameworks on top of Machine.Specifications by helping to reduce a lot of the typical fake framwork related clutter code in specifications. If you choose so, Machine.Fakes even helps you to stay mostly independent of a concrete fake framework by providing a little wrapper API and a provider model for fake frameworks. This is the adapter for RhinoMocks 3.6.1 - A framework for faking objects with RhinoMocks on top of Machine.Specifications. - See https://github.com/machine/machine.fakes/blob/master/changelog.markdown - en-US - tdd bdd testing unittest fakes mocks mspec mfakes - - - - - + + + + Machine.Fakes.RhinoMocks + 1.8.0 + The machine project + The machine project + https://github.com/machine/machine.fakes/raw/master/License.txt + https://github.com/machine/machine.fakes + https://github.com/machine/machine.fakes/raw/master/machine.fakes-128x128.png + false + Machine.Fakes attempts to simplify the usage of such frameworks on top of Machine.Specifications by helping to reduce a lot of the typical fake framwork related clutter code in specifications. If you choose so, Machine.Fakes even helps you to stay mostly independent of a concrete fake framework by providing a little wrapper API and a provider model for fake frameworks. This is the adapter for RhinoMocks 3.6.1 + A framework for faking objects with RhinoMocks on top of Machine.Specifications. + See https://github.com/machine/machine.fakes/blob/master/changelog.markdown + en-US + tdd bdd testing unittest fakes mocks mspec mfakes + + + + + \ No newline at end of file diff --git a/packages/Machine.Fakes.RhinoMocks.1.8.0/lib/net40/Machine.Fakes.Adapters.RhinoMocks.dll b/packages/Machine.Fakes.RhinoMocks.1.8.0/lib/net40/Machine.Fakes.Adapters.RhinoMocks.dll new file mode 100644 index 0000000..bc4afa6 Binary files /dev/null and b/packages/Machine.Fakes.RhinoMocks.1.8.0/lib/net40/Machine.Fakes.Adapters.RhinoMocks.dll differ diff --git a/packages/Machine.Fakes.RhinoMocks.1.4.0/lib/net40/Machine.Fakes.Adapters.RhinoMocks.xml b/packages/Machine.Fakes.RhinoMocks.1.8.0/lib/net40/Machine.Fakes.Adapters.RhinoMocks.xml similarity index 98% rename from packages/Machine.Fakes.RhinoMocks.1.4.0/lib/net40/Machine.Fakes.Adapters.RhinoMocks.xml rename to packages/Machine.Fakes.RhinoMocks.1.8.0/lib/net40/Machine.Fakes.Adapters.RhinoMocks.xml index eeb850f..37be19a 100644 --- a/packages/Machine.Fakes.RhinoMocks.1.4.0/lib/net40/Machine.Fakes.Adapters.RhinoMocks.xml +++ b/packages/Machine.Fakes.RhinoMocks.1.8.0/lib/net40/Machine.Fakes.Adapters.RhinoMocks.xml @@ -1,86 +1,86 @@ - - - - Machine.Fakes.Adapters.Rhinomocks - - - - - An implementation of using the Rhino Mocks framework. - - - - - Default constructor - - - - - - - - - - - - - - - - - - - - - - - This class encapsulates the Rhino.Mocks mechanics for specifiing call expectations. - - - Specifies the type of the dependency which is configured via the methods on . - - - - - Initializes a new instance of the class. - - The dependency on which an action is expected. - The action that should have been called. - - - - Specifies that the action on the dependency should be called several times. - specifies exactly how often. - - - The number of times the method should have been called. - - - - - Specifies that the action on the dependency should only be called once. - - - - - Specifies that the action on the dependency should be called twice. - - - - - Base class for the simpler cases than . - This class only contains the shortcuts for creating fakes via "An" and "Some". - - - - - Base class that adds auto mocking (grasp), I mean auto faking capabilities - to Machine.Specifications. - - - The subject for the specification. This is the type that is created by the - specification for you. - - - - + + + + Machine.Fakes.Adapters.Rhinomocks + + + + + An implementation of using the Rhino Mocks framework. + + + + + Default constructor + + + + + + + + + + + + + + + + + + + + + + + This class encapsulates the Rhino.Mocks mechanics for specifiing call expectations. + + + Specifies the type of the dependency which is configured via the methods on . + + + + + Initializes a new instance of the class. + + The dependency on which an action is expected. + The action that should have been called. + + + + Specifies that the action on the dependency should be called several times. + specifies exactly how often. + + + The number of times the method should have been called. + + + + + Specifies that the action on the dependency should only be called once. + + + + + Specifies that the action on the dependency should be called twice. + + + + + Base class for the simpler cases than . + This class only contains the shortcuts for creating fakes via "An" and "Some". + + + + + Base class that adds auto mocking (grasp), I mean auto faking capabilities + to Machine.Specifications. + + + The subject for the specification. This is the type that is created by the + specification for you. + + + + diff --git a/packages/Machine.Specifications.0.5.12/Machine.Specifications.0.5.12.nupkg b/packages/Machine.Specifications.0.5.12/Machine.Specifications.0.5.12.nupkg deleted file mode 100644 index 9e85e5a..0000000 Binary files a/packages/Machine.Specifications.0.5.12/Machine.Specifications.0.5.12.nupkg and /dev/null differ diff --git a/packages/Machine.Specifications.0.5.12/lib/net20/Machine.Specifications.dll b/packages/Machine.Specifications.0.5.12/lib/net20/Machine.Specifications.dll deleted file mode 100644 index 1926031..0000000 Binary files a/packages/Machine.Specifications.0.5.12/lib/net20/Machine.Specifications.dll and /dev/null differ diff --git a/packages/Machine.Specifications.0.5.12/lib/net40/Machine.Specifications.dll b/packages/Machine.Specifications.0.5.12/lib/net40/Machine.Specifications.dll deleted file mode 100644 index 1926031..0000000 Binary files a/packages/Machine.Specifications.0.5.12/lib/net40/Machine.Specifications.dll and /dev/null differ diff --git a/packages/Machine.Specifications.0.5.12/tools/InstallDotCoverRunner.2.0.bat b/packages/Machine.Specifications.0.5.12/tools/InstallDotCoverRunner.2.0.bat deleted file mode 100644 index 688482a..0000000 --- a/packages/Machine.Specifications.0.5.12/tools/InstallDotCoverRunner.2.0.bat +++ /dev/null @@ -1,7 +0,0 @@ -mkdir "%LOCALAPPDATA%\JetBrains\dotCover\v2.0\Plugins" 2> NUL -mkdir "%LOCALAPPDATA%\JetBrains\dotCover\v2.0\Plugins\mspec" 2> NUL -copy /y Machine.Specifications.dll "%LOCALAPPDATA%\JetBrains\dotCover\v2.0\Plugins\mspec" -copy /y Machine.Specifications.pdb "%LOCALAPPDATA%\JetBrains\dotCover\v2.0\Plugins\mspec" > NUL -copy /y Machine.Specifications.dotCoverRunner.2.0.dll "%LOCALAPPDATA%\JetBrains\dotCover\v2.0\Plugins\mspec" -copy /y Machine.Specifications.dotCoverRunner.2.0.pdb "%LOCALAPPDATA%\JetBrains\dotCover\v2.0\Plugins\mspec" > NUL -pause diff --git a/packages/Machine.Specifications.0.5.12/tools/InstallDotCoverRunner.2.1.bat b/packages/Machine.Specifications.0.5.12/tools/InstallDotCoverRunner.2.1.bat deleted file mode 100644 index b3267a1..0000000 --- a/packages/Machine.Specifications.0.5.12/tools/InstallDotCoverRunner.2.1.bat +++ /dev/null @@ -1,7 +0,0 @@ -mkdir "%LOCALAPPDATA%\JetBrains\dotCover\v2.1\Plugins" 2> NUL -mkdir "%LOCALAPPDATA%\JetBrains\dotCover\v2.1\Plugins\mspec" 2> NUL -copy /y Machine.Specifications.dll "%LOCALAPPDATA%\JetBrains\dotCover\v2.1\Plugins\mspec" -copy /y Machine.Specifications.pdb "%LOCALAPPDATA%\JetBrains\dotCover\v2.1\Plugins\mspec" > NUL -copy /y Machine.Specifications.dotCoverRunner.2.1.dll "%LOCALAPPDATA%\JetBrains\dotCover\v2.1\Plugins\mspec" -copy /y Machine.Specifications.dotCoverRunner.2.1.pdb "%LOCALAPPDATA%\JetBrains\dotCover\v2.1\Plugins\mspec" > NUL -pause diff --git a/packages/Machine.Specifications.0.5.12/tools/InstallDotCoverRunner.2.2.bat b/packages/Machine.Specifications.0.5.12/tools/InstallDotCoverRunner.2.2.bat deleted file mode 100644 index 6488d9e..0000000 --- a/packages/Machine.Specifications.0.5.12/tools/InstallDotCoverRunner.2.2.bat +++ /dev/null @@ -1,7 +0,0 @@ -mkdir "%LOCALAPPDATA%\JetBrains\dotCover\v2.2\Plugins" 2> NUL -mkdir "%LOCALAPPDATA%\JetBrains\dotCover\v2.2\Plugins\mspec" 2> NUL -copy /y Machine.Specifications.dll "%LOCALAPPDATA%\JetBrains\dotCover\v2.2\Plugins\mspec" -copy /y Machine.Specifications.pdb "%LOCALAPPDATA%\JetBrains\dotCover\v2.2\Plugins\mspec" > NUL -copy /y Machine.Specifications.dotCoverRunner.2.2.dll "%LOCALAPPDATA%\JetBrains\dotCover\v2.2\Plugins\mspec" -copy /y Machine.Specifications.dotCoverRunner.2.2.pdb "%LOCALAPPDATA%\JetBrains\dotCover\v2.2\Plugins\mspec" > NUL -pause diff --git a/packages/Machine.Specifications.0.5.12/tools/JetBrains.dotCover.Resources.dll b/packages/Machine.Specifications.0.5.12/tools/JetBrains.dotCover.Resources.dll deleted file mode 100644 index 141a241..0000000 Binary files a/packages/Machine.Specifications.0.5.12/tools/JetBrains.dotCover.Resources.dll and /dev/null differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.ReSharperRunner.6.1.dll b/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.ReSharperRunner.6.1.dll deleted file mode 100644 index 62cdd28..0000000 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.ReSharperRunner.6.1.dll and /dev/null differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.ReSharperRunner.7.0.dll b/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.ReSharperRunner.7.0.dll deleted file mode 100644 index 7955aca..0000000 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.ReSharperRunner.7.0.dll and /dev/null differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.ReSharperRunner.7.1.dll b/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.ReSharperRunner.7.1.dll deleted file mode 100644 index 0ff4975..0000000 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.ReSharperRunner.7.1.dll and /dev/null differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.Reporting.dll b/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.Reporting.dll deleted file mode 100644 index 21343c6..0000000 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.Reporting.dll and /dev/null differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dll b/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dll deleted file mode 100644 index 1926031..0000000 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dll and /dev/null differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dotCoverRunner.2.0.dll b/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dotCoverRunner.2.0.dll deleted file mode 100644 index f3bd95f..0000000 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dotCoverRunner.2.0.dll and /dev/null differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dotCoverRunner.2.1.dll b/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dotCoverRunner.2.1.dll deleted file mode 100644 index 8af29a1..0000000 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dotCoverRunner.2.1.dll and /dev/null differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dotCoverRunner.2.2.dll b/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dotCoverRunner.2.2.dll deleted file mode 100644 index a5a1154..0000000 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dotCoverRunner.2.2.dll and /dev/null differ diff --git a/packages/Machine.Specifications.0.5.16/Machine.Specifications.0.5.16.nupkg b/packages/Machine.Specifications.0.5.16/Machine.Specifications.0.5.16.nupkg new file mode 100644 index 0000000..ac686fa Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/Machine.Specifications.0.5.16.nupkg differ diff --git a/packages/Machine.Specifications.0.5.12/Machine.Specifications.0.5.12.nuspec b/packages/Machine.Specifications.0.5.16/Machine.Specifications.0.5.16.nuspec similarity index 95% rename from packages/Machine.Specifications.0.5.12/Machine.Specifications.0.5.12.nuspec rename to packages/Machine.Specifications.0.5.16/Machine.Specifications.0.5.16.nuspec index dbd0f72..8ae2f78 100644 --- a/packages/Machine.Specifications.0.5.12/Machine.Specifications.0.5.12.nuspec +++ b/packages/Machine.Specifications.0.5.16/Machine.Specifications.0.5.16.nuspec @@ -1,22 +1,22 @@ - - - - Machine.Specifications - 0.5.12 - Machine.Specifications - Aaron Jensen, Alexander Groß, et al. - Aaron Jensen, Alexander Groß, et al. - http://github.com/machine/machine.specifications/blob/master/License.txt - http://github.com/machine/machine.specifications - http://github.com/machine/machine.specifications/raw/master/Misc/Machine.Specifications-128x128.png - false - Machine.Specifications is a Context/Specification framework geared towards removing language noise and simplifying tests. - Machine.Specifications Context/Specification framework - en-US - test unit testing context specification bdd tdd mspec - - - - - + + + + Machine.Specifications + 0.5.16 + Machine.Specifications + Aaron Jensen, Alexander Groß, et al. + Aaron Jensen, Alexander Groß, et al. + http://github.com/machine/machine.specifications/blob/master/License.txt + http://github.com/machine/machine.specifications + http://github.com/machine/machine.specifications/raw/master/Misc/Machine.Specifications-128x128.png + false + Machine.Specifications is a Context/Specification framework geared towards removing language noise and simplifying tests. + Machine.Specifications Context/Specification framework + en-US + test unit testing context specification bdd tdd mspec + + + + + \ No newline at end of file diff --git a/packages/Machine.Specifications.0.5.12/lib/net20/Machine.Specifications.TDNetRunner.dll b/packages/Machine.Specifications.0.5.16/lib/net20/Machine.Specifications.TDNetRunner.dll similarity index 71% rename from packages/Machine.Specifications.0.5.12/lib/net20/Machine.Specifications.TDNetRunner.dll rename to packages/Machine.Specifications.0.5.16/lib/net20/Machine.Specifications.TDNetRunner.dll index c8fe85d..1ccaa0e 100644 Binary files a/packages/Machine.Specifications.0.5.12/lib/net20/Machine.Specifications.TDNetRunner.dll and b/packages/Machine.Specifications.0.5.16/lib/net20/Machine.Specifications.TDNetRunner.dll differ diff --git a/packages/Machine.Specifications.0.5.16/lib/net20/Machine.Specifications.dll b/packages/Machine.Specifications.0.5.16/lib/net20/Machine.Specifications.dll new file mode 100644 index 0000000..b4a5133 Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/lib/net20/Machine.Specifications.dll differ diff --git a/packages/Machine.Specifications.0.5.12/lib/net20/Machine.Specifications.dll.tdnet b/packages/Machine.Specifications.0.5.16/lib/net20/Machine.Specifications.dll.tdnet similarity index 73% rename from packages/Machine.Specifications.0.5.12/lib/net20/Machine.Specifications.dll.tdnet rename to packages/Machine.Specifications.0.5.16/lib/net20/Machine.Specifications.dll.tdnet index 59cdf2f..7f9b22a 100644 --- a/packages/Machine.Specifications.0.5.12/lib/net20/Machine.Specifications.dll.tdnet +++ b/packages/Machine.Specifications.0.5.16/lib/net20/Machine.Specifications.dll.tdnet @@ -1,5 +1,5 @@ - - Machine.Specifications 0.5.12-e1d117a - Machine.Specifications.TDNetRunner.dll - Machine.Specifications.TDNetRunner.SpecificationRunner - + + Machine.Specifications 0.5.16-7062e80 + Machine.Specifications.TDNetRunner.dll + Machine.Specifications.TDNetRunner.SpecificationRunner + diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.Clr4.dll b/packages/Machine.Specifications.0.5.16/lib/net40/Machine.Specifications.Clr4.dll similarity index 60% rename from packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.Clr4.dll rename to packages/Machine.Specifications.0.5.16/lib/net40/Machine.Specifications.Clr4.dll index ca4c0b9..70e5511 100644 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.Clr4.dll and b/packages/Machine.Specifications.0.5.16/lib/net40/Machine.Specifications.Clr4.dll differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.TDNetRunner.dll b/packages/Machine.Specifications.0.5.16/lib/net40/Machine.Specifications.TDNetRunner.dll similarity index 71% rename from packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.TDNetRunner.dll rename to packages/Machine.Specifications.0.5.16/lib/net40/Machine.Specifications.TDNetRunner.dll index c8fe85d..1ccaa0e 100644 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.TDNetRunner.dll and b/packages/Machine.Specifications.0.5.16/lib/net40/Machine.Specifications.TDNetRunner.dll differ diff --git a/packages/Machine.Specifications.0.5.16/lib/net40/Machine.Specifications.dll b/packages/Machine.Specifications.0.5.16/lib/net40/Machine.Specifications.dll new file mode 100644 index 0000000..b4a5133 Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/lib/net40/Machine.Specifications.dll differ diff --git a/packages/Machine.Specifications.0.5.12/lib/net40/Machine.Specifications.dll.tdnet b/packages/Machine.Specifications.0.5.16/lib/net40/Machine.Specifications.dll.tdnet similarity index 73% rename from packages/Machine.Specifications.0.5.12/lib/net40/Machine.Specifications.dll.tdnet rename to packages/Machine.Specifications.0.5.16/lib/net40/Machine.Specifications.dll.tdnet index 59cdf2f..7f9b22a 100644 --- a/packages/Machine.Specifications.0.5.12/lib/net40/Machine.Specifications.dll.tdnet +++ b/packages/Machine.Specifications.0.5.16/lib/net40/Machine.Specifications.dll.tdnet @@ -1,5 +1,5 @@ - - Machine.Specifications 0.5.12-e1d117a - Machine.Specifications.TDNetRunner.dll - Machine.Specifications.TDNetRunner.SpecificationRunner - + + Machine.Specifications 0.5.16-7062e80 + Machine.Specifications.TDNetRunner.dll + Machine.Specifications.TDNetRunner.SpecificationRunner + diff --git a/packages/Machine.Specifications.0.5.12/tools/CommandLine.dll b/packages/Machine.Specifications.0.5.16/tools/CommandLine.dll similarity index 100% rename from packages/Machine.Specifications.0.5.12/tools/CommandLine.dll rename to packages/Machine.Specifications.0.5.16/tools/CommandLine.dll diff --git a/packages/Machine.Specifications.0.5.12/tools/CommandLine.xml b/packages/Machine.Specifications.0.5.16/tools/CommandLine.xml similarity index 98% rename from packages/Machine.Specifications.0.5.12/tools/CommandLine.xml rename to packages/Machine.Specifications.0.5.16/tools/CommandLine.xml index 75e0578..124f058 100644 --- a/packages/Machine.Specifications.0.5.12/tools/CommandLine.xml +++ b/packages/Machine.Specifications.0.5.16/tools/CommandLine.xml @@ -1,504 +1,504 @@ - - - - CommandLine - - - - - This exception is thrown when a generic parsing error occurs. - - - - - Models a list of command line arguments that are not options. - Must be applied to a field compatible with an interface - of instances. - - - - - Initializes a new instance of the class. - - A type that implements . - Thrown if is null. - - - - Gets or sets the maximum element allow for the list managed by type. - If lesser than 0, no upper bound is fixed. - If equal to 0, no elements are allowed. - - - - - Indicates the instance method that must be invoked when it becomes necessary show your help screen. - The method signature is an instance method with no parameters and - return value. - - - - - Provides base properties for creating an attribute, used to define rules for command line parsing. - - - - - Short name of this command line option. You can use only one character. - - - - - Long name of this command line option. This name is usually a single english word. - - - - - True if this command line option is required. - - - - - A short description of this command line option. Usually a sentence summary. - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - Allows you to define short and long option names. - - The short name of the option or null if not used. - The long name of the option or null if not used. - - - - Returns always false for this kind of option. - This behaviour can't be changed by design; if you try set - an will be thrown. - - - - - Models an option specification. - - - - - Initializes a new instance of the class. - - The short name of the option or null if not used. - The long name of the option or null if not used. - - - - Gets or sets the option's mutually exclusive set. - - - - - Models an option that can accept multiple values. - Must be applied to a field compatible with an interface - of instances. - - - - - Initializes a new instance of the class. - - The short name of the option or null if not used. - The long name of the option or null if not used. - - - - Initializes a new instance of the class. - - The short name of the option or null if not used. - The long name of the option or null if not used. - Values separator character. - - - - Gets or sets the values separator character. - - - - - Models the copyright informations part of an help text. - You can assign it where you assign any instance. - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class - specifying author and year. - - The company or person holding the copyright. - The year of coverage of copyright. - Thrown when parameter is null or empty string. - - - - Initializes a new instance of the class - specifying author and years. - - The company or person holding the copyright. - The years of coverage of copyright. - Thrown when parameter is null or empty string. - Thrown when parameter is not supplied. - - - - Initializes a new instance of the class - specifying symbol case, author and years. - - The case of the copyright symbol. - The company or person holding the copyright. - The years of coverage of copyright. - Thrown when parameter is null or empty string. - Thrown when parameter is not supplied. - - - - Returns the copyright informations as a . - - The that contains the copyright informations. - - - - Converts the copyright informations to a . - - This instance. - The that contains the copyright informations. - - - - When overridden in a derived class, allows to specify a new algorithm to render copyright years - as a instance. - - A array of years. - A instance with copyright years. - - - - When overridden in a derived class, allows to specify a different copyright word. - - - - - Defines a basic interface to parse command line arguments. - - - - - Parses a array of command line arguments, setting values in - parameter instance's public fields decorated with appropriate attributes. - - A array of command line arguments. - An object's instance used to receive values. - Parsing rules are defined using derived types. - True if parsing process succeed. - Thrown if is null. - Thrown if is null. - - - - Parses a array of command line arguments, setting values in - parameter instance's public fields decorated with appropriate attributes. - This overload allows you to specify a derived instance for write text messages. - - A array of command line arguments. - An object's instance used to receive values. - Parsing rules are defined using derived types. - Any instance derived from , - usually . Setting this argument to null, will disable help screen. - True if parsing process succeed. - Thrown if is null. - Thrown if is null. - - - - Provides methods to parse command line arguments. - Default implementation for . - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class, - configurable with a object. - - The object is used to configure - aspects and behaviors of the parser. - - - - Parses a array of command line arguments, setting values in - parameter instance's public fields decorated with appropriate attributes. - - A array of command line arguments. - An object's instance used to receive values. - Parsing rules are defined using derived types. - True if parsing process succeed. - Thrown if is null. - Thrown if is null. - - - - Parses a array of command line arguments, setting values in - parameter instance's public fields decorated with appropriate attributes. - This overload allows you to specify a derived instance for write text messages. - - A array of command line arguments. - An object's instance used to receive values. - Parsing rules are defined using derived types. - Any instance derived from , - usually . Setting this argument to null, will disable help screen. - True if parsing process succeed. - Thrown if is null. - Thrown if is null. - - - - Models an help text and collects related informations. - You can assign it in place of a instance. - - - - - Initializes a new instance of the class - specifying heading informations. - - A string with heading information or - an instance of . - Thrown when parameter is null or empty string. - - - - Adds a text line after copyright and before options usage informations. - - A instance. - Thrown when parameter is null or empty string. - - - - Adds a text line at the bottom, after options usage informations. - - A instance. - Thrown when parameter is null or empty string. - - - - Adds a text block with options usage informations. - - The instance that collected command line arguments parsed with class. - Thrown when parameter is null. - - - - Adds a text block with options usage informations. - - The instance that collected command line arguments parsed with the class. - The word to use when the option is required. - Thrown when parameter is null. - Thrown when parameter is null or empty string. - - - - Adds a text block with options usage informations. - - The instance that collected command line arguments parsed with the class. - The word to use when the option is required. - The maximum length of the help documentation. - Thrown when parameter is null. - Thrown when parameter is null or empty string. - - - - Returns the help informations as a . - - The that contains the help informations. - - - - Converts the help informations to a . - - This instance. - The that contains the help informations. - - - - Sets the copyright information string. - You can directly assign a instance. - - - - - Gets or sets the maximum width of the display. This determines word wrap when displaying the text. - - The maximum width of the display. - - - - Gets or sets whether to add an additional line after the description of the option. - - - - - Models the heading informations part of an help text. - You can assign it where you assign any instance. - - - - - Initializes a new instance of the class - specifying program name. - - The name of the program. - Thrown when parameter is null or empty string. - - - - Initializes a new instance of the class - specifying program name and version. - - The name of the program. - The version of the program. - Thrown when parameter is null or empty string. - - - - Returns the heading informations as a . - - The that contains the heading informations. - - - - Converts the heading informations to a . - - This instance. - The that contains the heading informations. - - - - Writes out a string and a new line using the program name specified in the constructor - and parameter. - - The message to write. - The target derived type. - Thrown when parameter is null or empty string. - Thrown when parameter is null. - - - - Writes out a string and a new line using the program name specified in the constructor - and parameter to standard output stream. - - The message to write. - Thrown when parameter is null or empty string. - - - - Writes out a string and a new line using the program name specified in the constructor - and parameter to standard error stream. - - The message to write. - Thrown when parameter is null or empty string. - - - - Models an option that can accept multiple values as separated arguments. - - - - - Initializes a new instance of the class. - - The short name of the option or null if not used. - The long name of the option or null if not used. - - - - Specifies a set of features to configure a behavior. - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class, - setting the case comparison behavior. - - If set to true, parsing will be case sensitive. - - - - Initializes a new instance of the class, - setting the used for help method output. - - Any instance derived from , - default . Setting this argument to null, will disable help screen. - - - - Initializes a new instance of the class, - setting case comparison and help output options. - - If set to true, parsing will be case sensitive. - Any instance derived from , - default . Setting this argument to null, will disable help screen. - - - - Initializes a new instance of the class, - setting case comparison and mutually exclusive behaviors. - - If set to true, parsing will be case sensitive. - If set to true, enable mutually exclusive behavior. - - - - Initializes a new instance of the class, - setting case comparison, mutually exclusive behavior and help output option. - - If set to true, parsing will be case sensitive. - If set to true, enable mutually exclusive behavior. - Any instance derived from , - default . Setting this argument to null, will disable help screen. - - - - Gets or sets the case comparison behavior. - Default is set to true. - - - - - Gets or sets the mutually exclusive behavior. - Default is set to false. - - - - - Gets or sets the used for help method output. - Setting this property to null, will disable help screen. - - - - + + + + CommandLine + + + + + This exception is thrown when a generic parsing error occurs. + + + + + Models a list of command line arguments that are not options. + Must be applied to a field compatible with an interface + of instances. + + + + + Initializes a new instance of the class. + + A type that implements . + Thrown if is null. + + + + Gets or sets the maximum element allow for the list managed by type. + If lesser than 0, no upper bound is fixed. + If equal to 0, no elements are allowed. + + + + + Indicates the instance method that must be invoked when it becomes necessary show your help screen. + The method signature is an instance method with no parameters and + return value. + + + + + Provides base properties for creating an attribute, used to define rules for command line parsing. + + + + + Short name of this command line option. You can use only one character. + + + + + Long name of this command line option. This name is usually a single english word. + + + + + True if this command line option is required. + + + + + A short description of this command line option. Usually a sentence summary. + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + Allows you to define short and long option names. + + The short name of the option or null if not used. + The long name of the option or null if not used. + + + + Returns always false for this kind of option. + This behaviour can't be changed by design; if you try set + an will be thrown. + + + + + Models an option specification. + + + + + Initializes a new instance of the class. + + The short name of the option or null if not used. + The long name of the option or null if not used. + + + + Gets or sets the option's mutually exclusive set. + + + + + Models an option that can accept multiple values. + Must be applied to a field compatible with an interface + of instances. + + + + + Initializes a new instance of the class. + + The short name of the option or null if not used. + The long name of the option or null if not used. + + + + Initializes a new instance of the class. + + The short name of the option or null if not used. + The long name of the option or null if not used. + Values separator character. + + + + Gets or sets the values separator character. + + + + + Models the copyright informations part of an help text. + You can assign it where you assign any instance. + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class + specifying author and year. + + The company or person holding the copyright. + The year of coverage of copyright. + Thrown when parameter is null or empty string. + + + + Initializes a new instance of the class + specifying author and years. + + The company or person holding the copyright. + The years of coverage of copyright. + Thrown when parameter is null or empty string. + Thrown when parameter is not supplied. + + + + Initializes a new instance of the class + specifying symbol case, author and years. + + The case of the copyright symbol. + The company or person holding the copyright. + The years of coverage of copyright. + Thrown when parameter is null or empty string. + Thrown when parameter is not supplied. + + + + Returns the copyright informations as a . + + The that contains the copyright informations. + + + + Converts the copyright informations to a . + + This instance. + The that contains the copyright informations. + + + + When overridden in a derived class, allows to specify a new algorithm to render copyright years + as a instance. + + A array of years. + A instance with copyright years. + + + + When overridden in a derived class, allows to specify a different copyright word. + + + + + Defines a basic interface to parse command line arguments. + + + + + Parses a array of command line arguments, setting values in + parameter instance's public fields decorated with appropriate attributes. + + A array of command line arguments. + An object's instance used to receive values. + Parsing rules are defined using derived types. + True if parsing process succeed. + Thrown if is null. + Thrown if is null. + + + + Parses a array of command line arguments, setting values in + parameter instance's public fields decorated with appropriate attributes. + This overload allows you to specify a derived instance for write text messages. + + A array of command line arguments. + An object's instance used to receive values. + Parsing rules are defined using derived types. + Any instance derived from , + usually . Setting this argument to null, will disable help screen. + True if parsing process succeed. + Thrown if is null. + Thrown if is null. + + + + Provides methods to parse command line arguments. + Default implementation for . + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class, + configurable with a object. + + The object is used to configure + aspects and behaviors of the parser. + + + + Parses a array of command line arguments, setting values in + parameter instance's public fields decorated with appropriate attributes. + + A array of command line arguments. + An object's instance used to receive values. + Parsing rules are defined using derived types. + True if parsing process succeed. + Thrown if is null. + Thrown if is null. + + + + Parses a array of command line arguments, setting values in + parameter instance's public fields decorated with appropriate attributes. + This overload allows you to specify a derived instance for write text messages. + + A array of command line arguments. + An object's instance used to receive values. + Parsing rules are defined using derived types. + Any instance derived from , + usually . Setting this argument to null, will disable help screen. + True if parsing process succeed. + Thrown if is null. + Thrown if is null. + + + + Models an help text and collects related informations. + You can assign it in place of a instance. + + + + + Initializes a new instance of the class + specifying heading informations. + + A string with heading information or + an instance of . + Thrown when parameter is null or empty string. + + + + Adds a text line after copyright and before options usage informations. + + A instance. + Thrown when parameter is null or empty string. + + + + Adds a text line at the bottom, after options usage informations. + + A instance. + Thrown when parameter is null or empty string. + + + + Adds a text block with options usage informations. + + The instance that collected command line arguments parsed with class. + Thrown when parameter is null. + + + + Adds a text block with options usage informations. + + The instance that collected command line arguments parsed with the class. + The word to use when the option is required. + Thrown when parameter is null. + Thrown when parameter is null or empty string. + + + + Adds a text block with options usage informations. + + The instance that collected command line arguments parsed with the class. + The word to use when the option is required. + The maximum length of the help documentation. + Thrown when parameter is null. + Thrown when parameter is null or empty string. + + + + Returns the help informations as a . + + The that contains the help informations. + + + + Converts the help informations to a . + + This instance. + The that contains the help informations. + + + + Sets the copyright information string. + You can directly assign a instance. + + + + + Gets or sets the maximum width of the display. This determines word wrap when displaying the text. + + The maximum width of the display. + + + + Gets or sets whether to add an additional line after the description of the option. + + + + + Models the heading informations part of an help text. + You can assign it where you assign any instance. + + + + + Initializes a new instance of the class + specifying program name. + + The name of the program. + Thrown when parameter is null or empty string. + + + + Initializes a new instance of the class + specifying program name and version. + + The name of the program. + The version of the program. + Thrown when parameter is null or empty string. + + + + Returns the heading informations as a . + + The that contains the heading informations. + + + + Converts the heading informations to a . + + This instance. + The that contains the heading informations. + + + + Writes out a string and a new line using the program name specified in the constructor + and parameter. + + The message to write. + The target derived type. + Thrown when parameter is null or empty string. + Thrown when parameter is null. + + + + Writes out a string and a new line using the program name specified in the constructor + and parameter to standard output stream. + + The message to write. + Thrown when parameter is null or empty string. + + + + Writes out a string and a new line using the program name specified in the constructor + and parameter to standard error stream. + + The message to write. + Thrown when parameter is null or empty string. + + + + Models an option that can accept multiple values as separated arguments. + + + + + Initializes a new instance of the class. + + The short name of the option or null if not used. + The long name of the option or null if not used. + + + + Specifies a set of features to configure a behavior. + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class, + setting the case comparison behavior. + + If set to true, parsing will be case sensitive. + + + + Initializes a new instance of the class, + setting the used for help method output. + + Any instance derived from , + default . Setting this argument to null, will disable help screen. + + + + Initializes a new instance of the class, + setting case comparison and help output options. + + If set to true, parsing will be case sensitive. + Any instance derived from , + default . Setting this argument to null, will disable help screen. + + + + Initializes a new instance of the class, + setting case comparison and mutually exclusive behaviors. + + If set to true, parsing will be case sensitive. + If set to true, enable mutually exclusive behavior. + + + + Initializes a new instance of the class, + setting case comparison, mutually exclusive behavior and help output option. + + If set to true, parsing will be case sensitive. + If set to true, enable mutually exclusive behavior. + Any instance derived from , + default . Setting this argument to null, will disable help screen. + + + + Gets or sets the case comparison behavior. + Default is set to true. + + + + + Gets or sets the mutually exclusive behavior. + Default is set to false. + + + + + Gets or sets the used for help method output. + Setting this property to null, will disable help screen. + + + + diff --git a/packages/Machine.Specifications.0.5.16/tools/InstallDotCoverRunner.2.0.bat b/packages/Machine.Specifications.0.5.16/tools/InstallDotCoverRunner.2.0.bat new file mode 100644 index 0000000..117b309 --- /dev/null +++ b/packages/Machine.Specifications.0.5.16/tools/InstallDotCoverRunner.2.0.bat @@ -0,0 +1,7 @@ +mkdir "%APPDATA%\JetBrains\dotCover\v2.0\Plugins" 2> NUL +mkdir "%APPDATA%\JetBrains\dotCover\v2.0\Plugins\mspec" 2> NUL +copy /y Machine.Specifications.dll "%APPDATA%\JetBrains\dotCover\v2.0\Plugins\mspec" +copy /y Machine.Specifications.pdb "%APPDATA%\JetBrains\dotCover\v2.0\Plugins\mspec" > NUL +copy /y Machine.Specifications.dotCoverRunner.2.0.dll "%APPDATA%\JetBrains\dotCover\v2.0\Plugins\mspec" +copy /y Machine.Specifications.dotCoverRunner.2.0.pdb "%APPDATA%\JetBrains\dotCover\v2.0\Plugins\mspec" > NUL +pause diff --git a/packages/Machine.Specifications.0.5.16/tools/InstallDotCoverRunner.2.1.bat b/packages/Machine.Specifications.0.5.16/tools/InstallDotCoverRunner.2.1.bat new file mode 100644 index 0000000..e960183 --- /dev/null +++ b/packages/Machine.Specifications.0.5.16/tools/InstallDotCoverRunner.2.1.bat @@ -0,0 +1,7 @@ +mkdir "%APPDATA%\JetBrains\dotCover\v2.1\Plugins" 2> NUL +mkdir "%APPDATA%\JetBrains\dotCover\v2.1\Plugins\mspec" 2> NUL +copy /y Machine.Specifications.dll "%APPDATA%\JetBrains\dotCover\v2.1\Plugins\mspec" +copy /y Machine.Specifications.pdb "%APPDATA%\JetBrains\dotCover\v2.1\Plugins\mspec" > NUL +copy /y Machine.Specifications.dotCoverRunner.2.1.dll "%APPDATA%\JetBrains\dotCover\v2.1\Plugins\mspec" +copy /y Machine.Specifications.dotCoverRunner.2.1.pdb "%APPDATA%\JetBrains\dotCover\v2.1\Plugins\mspec" > NUL +pause diff --git a/packages/Machine.Specifications.0.5.16/tools/InstallDotCoverRunner.2.2.bat b/packages/Machine.Specifications.0.5.16/tools/InstallDotCoverRunner.2.2.bat new file mode 100644 index 0000000..c5f80c0 --- /dev/null +++ b/packages/Machine.Specifications.0.5.16/tools/InstallDotCoverRunner.2.2.bat @@ -0,0 +1,7 @@ +mkdir "%APPDATA%\JetBrains\dotCover\v2.2\Plugins" 2> NUL +mkdir "%APPDATA%\JetBrains\dotCover\v2.2\Plugins\mspec" 2> NUL +copy /y Machine.Specifications.dll "%APPDATA%\JetBrains\dotCover\v2.2\Plugins\mspec" +copy /y Machine.Specifications.pdb "%APPDATA%\JetBrains\dotCover\v2.2\Plugins\mspec" > NUL +copy /y Machine.Specifications.dotCoverRunner.2.2.dll "%APPDATA%\JetBrains\dotCover\v2.2\Plugins\mspec" +copy /y Machine.Specifications.dotCoverRunner.2.2.pdb "%APPDATA%\JetBrains\dotCover\v2.2\Plugins\mspec" > NUL +pause diff --git a/packages/Machine.Specifications.0.5.16/tools/InstallDotCoverRunner.2.5.bat b/packages/Machine.Specifications.0.5.16/tools/InstallDotCoverRunner.2.5.bat new file mode 100644 index 0000000..5c4511f --- /dev/null +++ b/packages/Machine.Specifications.0.5.16/tools/InstallDotCoverRunner.2.5.bat @@ -0,0 +1,7 @@ +mkdir "%APPDATA%\JetBrains\dotCover\v2.5\Plugins" 2> NUL +mkdir "%APPDATA%\JetBrains\dotCover\v2.5\Plugins\mspec" 2> NUL +copy /y Machine.Specifications.dll "%APPDATA%\JetBrains\dotCover\v2.5\Plugins\mspec" +copy /y Machine.Specifications.pdb "%APPDATA%\JetBrains\dotCover\v2.5\Plugins\mspec" > NUL +copy /y Machine.Specifications.dotCoverRunner.2.5.dll "%APPDATA%\JetBrains\dotCover\v2.5\Plugins\mspec" +copy /y Machine.Specifications.dotCoverRunner.2.5.pdb "%APPDATA%\JetBrains\dotCover\v2.5\Plugins\mspec" > NUL +pause diff --git a/packages/Machine.Specifications.0.5.12/tools/InstallResharperRunner.6.1.bat b/packages/Machine.Specifications.0.5.16/tools/InstallResharperRunner.6.1.bat similarity index 100% rename from packages/Machine.Specifications.0.5.12/tools/InstallResharperRunner.6.1.bat rename to packages/Machine.Specifications.0.5.16/tools/InstallResharperRunner.6.1.bat diff --git a/packages/Machine.Specifications.0.5.12/tools/InstallResharperRunner.7.0.bat b/packages/Machine.Specifications.0.5.16/tools/InstallResharperRunner.7.0.bat similarity index 100% rename from packages/Machine.Specifications.0.5.12/tools/InstallResharperRunner.7.0.bat rename to packages/Machine.Specifications.0.5.16/tools/InstallResharperRunner.7.0.bat diff --git a/packages/Machine.Specifications.0.5.12/tools/InstallResharperRunner.7.1.bat b/packages/Machine.Specifications.0.5.16/tools/InstallResharperRunner.7.1.bat similarity index 100% rename from packages/Machine.Specifications.0.5.12/tools/InstallResharperRunner.7.1.bat rename to packages/Machine.Specifications.0.5.16/tools/InstallResharperRunner.7.1.bat diff --git a/packages/Machine.Specifications.0.5.16/tools/InstallResharperRunner.8.0.bat b/packages/Machine.Specifications.0.5.16/tools/InstallResharperRunner.8.0.bat new file mode 100644 index 0000000..52785f6 --- /dev/null +++ b/packages/Machine.Specifications.0.5.16/tools/InstallResharperRunner.8.0.bat @@ -0,0 +1,10 @@ +del "%APPDATA%\JetBrains\ReSharper\v8.0\vs10.0\Plugins\Machine.Specifications.*" 2> NUL +del "%APPDATA%\JetBrains\ReSharper\v8.0\vs11.0\Plugins\Machine.Specifications.*" 2> NUL + +mkdir "%APPDATA%\JetBrains\ReSharper\v8.0\Plugins" 2> NUL +mkdir "%APPDATA%\JetBrains\ReSharper\v8.0\Plugins\mspec" 2> NUL +copy /y Machine.Specifications.dll "%APPDATA%\JetBrains\ReSharper\v8.0\Plugins\mspec" +copy /y Machine.Specifications.pdb "%APPDATA%\JetBrains\ReSharper\v8.0\Plugins\mspec" > NUL +copy /y Machine.Specifications.ReSharperRunner.8.0.dll "%APPDATA%\JetBrains\ReSharper\v8.0\Plugins\mspec" +copy /y Machine.Specifications.ReSharperRunner.8.0.pdb "%APPDATA%\JetBrains\ReSharper\v8.0\Plugins\mspec" > NUL +pause diff --git a/packages/Machine.Specifications.0.5.12/tools/InstallTDNetRunner.bat b/packages/Machine.Specifications.0.5.16/tools/InstallTDNetRunner.bat similarity index 97% rename from packages/Machine.Specifications.0.5.12/tools/InstallTDNetRunner.bat rename to packages/Machine.Specifications.0.5.16/tools/InstallTDNetRunner.bat index f14a26d..70e31c1 100644 --- a/packages/Machine.Specifications.0.5.12/tools/InstallTDNetRunner.bat +++ b/packages/Machine.Specifications.0.5.16/tools/InstallTDNetRunner.bat @@ -1,16 +1,16 @@ -@echo off & if not "%ECHO%"=="" echo %ECHO% - -setlocal -set LOCALDIR=%~dp0 - -echo Windows Registry Editor Version 5.00 > MSpecTDNet.reg -echo [HKEY_CURRENT_USER\Software\MutantDesign\TestDriven.NET\TestRunners\MSpec] >> MSpecTDNet.reg -echo "Application"="" >> MSpecTDNet.reg -echo "AssemblyPath"="%LOCALDIR:\=\\%Machine.Specifications.TDNetRunner.dll" >> MSpecTDNet.reg -echo "TargetFrameworkAssemblyName"="Machine.Specifications" >> MSpecTDNet.reg -echo "TypeName"="Machine.Specifications.TDNetRunner.SpecificationRunner" >> MSpecTDNet.reg -echo @="5" >> MSpecTDNet.reg - -regedit MSpecTDNet.reg - -del MSpecTDNet.reg +@echo off & if not "%ECHO%"=="" echo %ECHO% + +setlocal +set LOCALDIR=%~dp0 + +echo Windows Registry Editor Version 5.00 > MSpecTDNet.reg +echo [HKEY_CURRENT_USER\Software\MutantDesign\TestDriven.NET\TestRunners\MSpec] >> MSpecTDNet.reg +echo "Application"="" >> MSpecTDNet.reg +echo "AssemblyPath"="%LOCALDIR:\=\\%Machine.Specifications.TDNetRunner.dll" >> MSpecTDNet.reg +echo "TargetFrameworkAssemblyName"="Machine.Specifications" >> MSpecTDNet.reg +echo "TypeName"="Machine.Specifications.TDNetRunner.SpecificationRunner" >> MSpecTDNet.reg +echo @="5" >> MSpecTDNet.reg + +regedit MSpecTDNet.reg + +del MSpecTDNet.reg diff --git a/packages/Machine.Specifications.0.5.12/tools/InstallTDNetRunnerSilent.bat b/packages/Machine.Specifications.0.5.16/tools/InstallTDNetRunnerSilent.bat similarity index 97% rename from packages/Machine.Specifications.0.5.12/tools/InstallTDNetRunnerSilent.bat rename to packages/Machine.Specifications.0.5.16/tools/InstallTDNetRunnerSilent.bat index 12d6334..c13697e 100644 --- a/packages/Machine.Specifications.0.5.12/tools/InstallTDNetRunnerSilent.bat +++ b/packages/Machine.Specifications.0.5.16/tools/InstallTDNetRunnerSilent.bat @@ -1,16 +1,16 @@ -@echo off & if not "%ECHO%"=="" echo %ECHO% - -setlocal -set LOCALDIR=%~dp0 - -echo Windows Registry Editor Version 5.00 > MSpecTDNet.reg -echo [HKEY_CURRENT_USER\Software\MutantDesign\TestDriven.NET\TestRunners\MSpec] >> MSpecTDNet.reg -echo "Application"="" >> MSpecTDNet.reg -echo "AssemblyPath"="%LOCALDIR:\=\\%Machine.Specifications.TDNetRunner.dll" >> MSpecTDNet.reg -echo "TargetFrameworkAssemblyName"="Machine.Specifications" >> MSpecTDNet.reg -echo "TypeName"="Machine.Specifications.TDNetRunner.SpecificationRunner" >> MSpecTDNet.reg -echo @="5" >> MSpecTDNet.reg - -regedit /s MSpecTDNet.reg - -del MSpecTDNet.reg +@echo off & if not "%ECHO%"=="" echo %ECHO% + +setlocal +set LOCALDIR=%~dp0 + +echo Windows Registry Editor Version 5.00 > MSpecTDNet.reg +echo [HKEY_CURRENT_USER\Software\MutantDesign\TestDriven.NET\TestRunners\MSpec] >> MSpecTDNet.reg +echo "Application"="" >> MSpecTDNet.reg +echo "AssemblyPath"="%LOCALDIR:\=\\%Machine.Specifications.TDNetRunner.dll" >> MSpecTDNet.reg +echo "TargetFrameworkAssemblyName"="Machine.Specifications" >> MSpecTDNet.reg +echo "TypeName"="Machine.Specifications.TDNetRunner.SpecificationRunner" >> MSpecTDNet.reg +echo @="5" >> MSpecTDNet.reg + +regedit /s MSpecTDNet.reg + +del MSpecTDNet.reg diff --git a/packages/Machine.Specifications.0.5.12/tools/License.txt b/packages/Machine.Specifications.0.5.16/tools/License.txt similarity index 98% rename from packages/Machine.Specifications.0.5.12/tools/License.txt rename to packages/Machine.Specifications.0.5.16/tools/License.txt index 6183ea8..0cbf2c9 100644 --- a/packages/Machine.Specifications.0.5.12/tools/License.txt +++ b/packages/Machine.Specifications.0.5.16/tools/License.txt @@ -1,54 +1,54 @@ -Copyright (c) 2008 Machine Project -Portions Copyright (c) 2008 Jacob Lewallen, Aaron Jensen - -Permission is hereby granted, free of charge, to any person obtaining a copy -of this software and associated documentation files (the "Software"), to deal -in the Software without restriction, including without limitation the rights -to use, copy, modify, merge, publish, distribute, sublicense, and/or sell -copies of the Software, and to permit persons to whom the Software is -furnished to do so, subject to the following conditions: - -The above copyright notice and this permission notice shall be included in -all copies or substantial portions of the Software. - -THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR -IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, -FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE -AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER -LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, -OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN -THE SOFTWARE. - -***************************** -Some parts licensed under MS-PL -***************************** - -This license governs use of the accompanying software. If you use the software, you accept this license. If you do not accept the license, do not use the software. - -1. Definitions - -The terms "reproduce," "reproduction," "derivative works," and "distribution" have the same meaning here as under U.S. copyright law. - -A "contribution" is the original software, or any additions or changes to the software. - -A "contributor" is any person that distributes its contribution under this license. - -"Licensed patents" are a contributor's patent claims that read directly on its contribution. - -2. Grant of Rights - -(A) Copyright Grant- Subject to the terms of this license, including the license conditions and limitations in section 3, each contributor grants you a non-exclusive, worldwide, royalty-free copyright license to reproduce its contribution, prepare derivative works of its contribution, and distribute its contribution or any derivative works that you create. - -(B) Patent Grant- Subject to the terms of this license, including the license conditions and limitations in section 3, each contributor grants you a non-exclusive, worldwide, royalty-free license under its licensed patents to make, have made, use, sell, offer for sale, import, and/or otherwise dispose of its contribution in the software or derivative works of the contribution in the software. - -3. Conditions and Limitations - -(A) No Trademark License- This license does not grant you rights to use any contributors' name, logo, or trademarks. - -(B) If you bring a patent claim against any contributor over patents that you claim are infringed by the software, your patent license from such contributor to the software ends automatically. - -(C) If you distribute any portion of the software, you must retain all copyright, patent, trademark, and attribution notices that are present in the software. - -(D) If you distribute any portion of the software in source code form, you may do so only under this license by including a complete copy of this license with your distribution. If you distribute any portion of the software in compiled or object code form, you may only do so under a license that complies with this license. - +Copyright (c) 2008 Machine Project +Portions Copyright (c) 2008 Jacob Lewallen, Aaron Jensen + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN +THE SOFTWARE. + +***************************** +Some parts licensed under MS-PL +***************************** + +This license governs use of the accompanying software. If you use the software, you accept this license. If you do not accept the license, do not use the software. + +1. Definitions + +The terms "reproduce," "reproduction," "derivative works," and "distribution" have the same meaning here as under U.S. copyright law. + +A "contribution" is the original software, or any additions or changes to the software. + +A "contributor" is any person that distributes its contribution under this license. + +"Licensed patents" are a contributor's patent claims that read directly on its contribution. + +2. Grant of Rights + +(A) Copyright Grant- Subject to the terms of this license, including the license conditions and limitations in section 3, each contributor grants you a non-exclusive, worldwide, royalty-free copyright license to reproduce its contribution, prepare derivative works of its contribution, and distribute its contribution or any derivative works that you create. + +(B) Patent Grant- Subject to the terms of this license, including the license conditions and limitations in section 3, each contributor grants you a non-exclusive, worldwide, royalty-free license under its licensed patents to make, have made, use, sell, offer for sale, import, and/or otherwise dispose of its contribution in the software or derivative works of the contribution in the software. + +3. Conditions and Limitations + +(A) No Trademark License- This license does not grant you rights to use any contributors' name, logo, or trademarks. + +(B) If you bring a patent claim against any contributor over patents that you claim are infringed by the software, your patent license from such contributor to the software ends automatically. + +(C) If you distribute any portion of the software, you must retain all copyright, patent, trademark, and attribution notices that are present in the software. + +(D) If you distribute any portion of the software in source code form, you may do so only under this license by including a complete copy of this license with your distribution. If you distribute any portion of the software in compiled or object code form, you may only do so under a license that complies with this license. + (E) The software is licensed "as-is." You bear the risk of using it. The contributors give no express warranties, guarantees or conditions. You may have additional consumer rights under your local laws which this license cannot change. To the extent permitted under your local laws, the contributors exclude the implied warranties of merchantability, fitness for a particular purpose and non-infringement. \ No newline at end of file diff --git a/packages/Machine.Specifications.0.5.12/lib/net40/Machine.Specifications.Clr4.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.Clr4.dll similarity index 60% rename from packages/Machine.Specifications.0.5.12/lib/net40/Machine.Specifications.Clr4.dll rename to packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.Clr4.dll index ca4c0b9..70e5511 100644 Binary files a/packages/Machine.Specifications.0.5.12/lib/net40/Machine.Specifications.Clr4.dll and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.Clr4.dll differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.GallioAdapter.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.GallioAdapter.dll similarity index 93% rename from packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.GallioAdapter.dll rename to packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.GallioAdapter.dll index a6b926e..774e3ce 100644 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.GallioAdapter.dll and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.GallioAdapter.dll differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.GallioAdapter.plugin b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.GallioAdapter.plugin similarity index 86% rename from packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.GallioAdapter.plugin rename to packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.GallioAdapter.plugin index e43794c..951c02a 100644 --- a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.GallioAdapter.plugin +++ b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.GallioAdapter.plugin @@ -1,43 +1,43 @@ - - - - Machine Specifications Adapter Plugin - 0.5.12.0 - Provides support for running MSpec within Gallio. Requires the assemblies from MSpec. - - - - - - - - - - - - - - - - - - - - - - - Machine Specifications - Machine.Specifications - 0.5.12.0 - Assembly - - - + + + + Machine Specifications Adapter Plugin + 0.5.16.0 + Provides support for running MSpec within Gallio. Requires the assemblies from MSpec. + + + + + + + + + + + + + + + + + + + + + + + Machine Specifications + Machine.Specifications + 0.5.16.0 + Assembly + + + \ No newline at end of file diff --git a/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.ReSharperRunner.6.1.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.ReSharperRunner.6.1.dll new file mode 100644 index 0000000..cf059ef Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.ReSharperRunner.6.1.dll differ diff --git a/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.ReSharperRunner.7.0.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.ReSharperRunner.7.0.dll new file mode 100644 index 0000000..136f54a Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.ReSharperRunner.7.0.dll differ diff --git a/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.ReSharperRunner.7.1.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.ReSharperRunner.7.1.dll new file mode 100644 index 0000000..52bc74c Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.ReSharperRunner.7.1.dll differ diff --git a/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.ReSharperRunner.8.0.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.ReSharperRunner.8.0.dll new file mode 100644 index 0000000..3edbb57 Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.ReSharperRunner.8.0.dll differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.Reporting.Templates.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.Reporting.Templates.dll similarity index 70% rename from packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.Reporting.Templates.dll rename to packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.Reporting.Templates.dll index 17d5845..dd073c1 100644 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.Reporting.Templates.dll and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.Reporting.Templates.dll differ diff --git a/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.Reporting.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.Reporting.dll new file mode 100644 index 0000000..b48e06e Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.Reporting.dll differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.SeleniumSupport.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.SeleniumSupport.dll similarity index 61% rename from packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.SeleniumSupport.dll rename to packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.SeleniumSupport.dll index 02897fc..008ae8a 100644 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.SeleniumSupport.dll and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.SeleniumSupport.dll differ diff --git a/packages/Machine.Specifications.0.5.12/lib/net40/Machine.Specifications.TDNetRunner.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.TDNetRunner.dll similarity index 71% rename from packages/Machine.Specifications.0.5.12/lib/net40/Machine.Specifications.TDNetRunner.dll rename to packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.TDNetRunner.dll index c8fe85d..1ccaa0e 100644 Binary files a/packages/Machine.Specifications.0.5.12/lib/net40/Machine.Specifications.TDNetRunner.dll and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.TDNetRunner.dll differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.WatinSupport.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.WatinSupport.dll similarity index 65% rename from packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.WatinSupport.dll rename to packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.WatinSupport.dll index 2964f44..cb3789f 100644 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.WatinSupport.dll and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.WatinSupport.dll differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.WebDriverSupport.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.WebDriverSupport.dll similarity index 59% rename from packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.WebDriverSupport.dll rename to packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.WebDriverSupport.dll index 83114d5..d667625 100644 Binary files a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.WebDriverSupport.dll and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.WebDriverSupport.dll differ diff --git a/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dll new file mode 100644 index 0000000..b4a5133 Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dll differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dll.tdnet b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dll.tdnet similarity index 73% rename from packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dll.tdnet rename to packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dll.tdnet index 59cdf2f..7f9b22a 100644 --- a/packages/Machine.Specifications.0.5.12/tools/Machine.Specifications.dll.tdnet +++ b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dll.tdnet @@ -1,5 +1,5 @@ - - Machine.Specifications 0.5.12-e1d117a - Machine.Specifications.TDNetRunner.dll - Machine.Specifications.TDNetRunner.SpecificationRunner - + + Machine.Specifications 0.5.16-7062e80 + Machine.Specifications.TDNetRunner.dll + Machine.Specifications.TDNetRunner.SpecificationRunner + diff --git a/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dotCoverRunner.2.0.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dotCoverRunner.2.0.dll new file mode 100644 index 0000000..834f883 Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dotCoverRunner.2.0.dll differ diff --git a/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dotCoverRunner.2.1.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dotCoverRunner.2.1.dll new file mode 100644 index 0000000..c0bf66b Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dotCoverRunner.2.1.dll differ diff --git a/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dotCoverRunner.2.2.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dotCoverRunner.2.2.dll new file mode 100644 index 0000000..ed19dfc Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dotCoverRunner.2.2.dll differ diff --git a/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dotCoverRunner.2.5.dll b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dotCoverRunner.2.5.dll new file mode 100644 index 0000000..fd41ca2 Binary files /dev/null and b/packages/Machine.Specifications.0.5.16/tools/Machine.Specifications.dotCoverRunner.2.5.dll differ diff --git a/packages/Machine.Specifications.0.5.12/tools/Spark.dll b/packages/Machine.Specifications.0.5.16/tools/Spark.dll similarity index 100% rename from packages/Machine.Specifications.0.5.12/tools/Spark.dll rename to packages/Machine.Specifications.0.5.16/tools/Spark.dll diff --git a/packages/Machine.Specifications.0.5.12/tools/TestDriven.Framework.dll b/packages/Machine.Specifications.0.5.16/tools/TestDriven.Framework.dll similarity index 100% rename from packages/Machine.Specifications.0.5.12/tools/TestDriven.Framework.dll rename to packages/Machine.Specifications.0.5.16/tools/TestDriven.Framework.dll diff --git a/packages/Machine.Specifications.0.5.12/tools/install.ps1 b/packages/Machine.Specifications.0.5.16/tools/install.ps1 similarity index 97% rename from packages/Machine.Specifications.0.5.12/tools/install.ps1 rename to packages/Machine.Specifications.0.5.16/tools/install.ps1 index c40f409..66f52e2 100644 --- a/packages/Machine.Specifications.0.5.12/tools/install.ps1 +++ b/packages/Machine.Specifications.0.5.16/tools/install.ps1 @@ -1,6 +1,6 @@ -param($installPath, $toolsPath, $package, $project) - -if ($false -eq $false) -{ - Write-Warning "This is the unsigned version of Machine.Specifications. Use 'Install-Package Machine.Specifications-Signed' to install the signed version." +param($installPath, $toolsPath, $package, $project) + +if ($false -eq $false) +{ + Write-Warning "This is the unsigned version of Machine.Specifications. Use 'Install-Package Machine.Specifications-Signed' to install the signed version." } \ No newline at end of file diff --git a/packages/Machine.Specifications.0.5.12/tools/mspec-clr4.exe b/packages/Machine.Specifications.0.5.16/tools/mspec-clr4.exe similarity index 60% rename from packages/Machine.Specifications.0.5.12/tools/mspec-clr4.exe rename to packages/Machine.Specifications.0.5.16/tools/mspec-clr4.exe index 716d188..ae986a8 100644 Binary files a/packages/Machine.Specifications.0.5.12/tools/mspec-clr4.exe and b/packages/Machine.Specifications.0.5.16/tools/mspec-clr4.exe differ diff --git a/packages/Machine.Specifications.0.5.12/tools/mspec-clr4.exe.config b/packages/Machine.Specifications.0.5.16/tools/mspec-clr4.exe.config similarity index 100% rename from packages/Machine.Specifications.0.5.12/tools/mspec-clr4.exe.config rename to packages/Machine.Specifications.0.5.16/tools/mspec-clr4.exe.config diff --git a/packages/Machine.Specifications.0.5.12/tools/mspec-x86-clr4.exe b/packages/Machine.Specifications.0.5.16/tools/mspec-x86-clr4.exe similarity index 59% rename from packages/Machine.Specifications.0.5.12/tools/mspec-x86-clr4.exe rename to packages/Machine.Specifications.0.5.16/tools/mspec-x86-clr4.exe index a77854d..c59ee91 100644 Binary files a/packages/Machine.Specifications.0.5.12/tools/mspec-x86-clr4.exe and b/packages/Machine.Specifications.0.5.16/tools/mspec-x86-clr4.exe differ diff --git a/packages/Machine.Specifications.0.5.12/tools/mspec-x86-clr4.exe.config b/packages/Machine.Specifications.0.5.16/tools/mspec-x86-clr4.exe.config similarity index 100% rename from packages/Machine.Specifications.0.5.12/tools/mspec-x86-clr4.exe.config rename to packages/Machine.Specifications.0.5.16/tools/mspec-x86-clr4.exe.config diff --git a/packages/Machine.Specifications.0.5.12/tools/mspec-x86.exe b/packages/Machine.Specifications.0.5.16/tools/mspec-x86.exe similarity index 60% rename from packages/Machine.Specifications.0.5.12/tools/mspec-x86.exe rename to packages/Machine.Specifications.0.5.16/tools/mspec-x86.exe index 0d6a12b..fed2a61 100644 Binary files a/packages/Machine.Specifications.0.5.12/tools/mspec-x86.exe and b/packages/Machine.Specifications.0.5.16/tools/mspec-x86.exe differ diff --git a/packages/Machine.Specifications.0.5.12/tools/mspec.exe b/packages/Machine.Specifications.0.5.16/tools/mspec.exe similarity index 60% rename from packages/Machine.Specifications.0.5.12/tools/mspec.exe rename to packages/Machine.Specifications.0.5.16/tools/mspec.exe index 37dd649..9bcf8d2 100644 Binary files a/packages/Machine.Specifications.0.5.12/tools/mspec.exe and b/packages/Machine.Specifications.0.5.16/tools/mspec.exe differ diff --git a/packages/Moq.4.0.10827/License.txt b/packages/Moq.4.0.10827/License.txt deleted file mode 100755 index fb36f92..0000000 --- a/packages/Moq.4.0.10827/License.txt +++ /dev/null @@ -1,39 +0,0 @@ -Copyright (c) 2007. Clarius Consulting, Manas Technology Solutions, InSTEDD -http://code.google.com/p/moq/ -All rights reserved. - -Redistribution and use in source and binary forms, -with or without modification, are permitted provided -that the following conditions are met: - - * Redistributions of source code must retain the - above copyright notice, this list of conditions and - the following disclaimer. - - * Redistributions in binary form must reproduce - the above copyright notice, this list of conditions - and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the name of Clarius Consulting, Manas Technology Solutions or InSTEDD nor the - names of its contributors may be used to endorse - or promote products derived from this software - without specific prior written permission. - -THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND -CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, -INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF -MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE -DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR -CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, -SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, -BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR -SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS -INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, -WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING -NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE -OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF -SUCH DAMAGE. - -[This is the BSD license, see - http://www.opensource.org/licenses/bsd-license.php] \ No newline at end of file diff --git a/packages/Moq.4.0.10827/Moq.4.0.10827.nupkg b/packages/Moq.4.0.10827/Moq.4.0.10827.nupkg deleted file mode 100755 index 91e88a4..0000000 Binary files a/packages/Moq.4.0.10827/Moq.4.0.10827.nupkg and /dev/null differ diff --git a/packages/Moq.4.0.10827/lib/NET35/Moq.dll b/packages/Moq.4.0.10827/lib/NET35/Moq.dll deleted file mode 100755 index 3d3b8cc..0000000 Binary files a/packages/Moq.4.0.10827/lib/NET35/Moq.dll and /dev/null differ diff --git a/packages/Moq.4.0.10827/lib/NET35/Moq.pdb b/packages/Moq.4.0.10827/lib/NET35/Moq.pdb deleted file mode 100755 index b0eaa80..0000000 Binary files a/packages/Moq.4.0.10827/lib/NET35/Moq.pdb and /dev/null differ diff --git a/packages/Moq.4.0.10827/lib/NET40/Moq.dll b/packages/Moq.4.0.10827/lib/NET40/Moq.dll deleted file mode 100755 index 3a3e653..0000000 Binary files a/packages/Moq.4.0.10827/lib/NET40/Moq.dll and /dev/null differ diff --git a/packages/Moq.4.0.10827/lib/NET40/Moq.pdb b/packages/Moq.4.0.10827/lib/NET40/Moq.pdb deleted file mode 100755 index 03cca56..0000000 Binary files a/packages/Moq.4.0.10827/lib/NET40/Moq.pdb and /dev/null differ diff --git a/packages/Moq.4.0.10827/lib/Silverlight4/Castle.Core.dll b/packages/Moq.4.0.10827/lib/Silverlight4/Castle.Core.dll deleted file mode 100755 index a887ecd..0000000 Binary files a/packages/Moq.4.0.10827/lib/Silverlight4/Castle.Core.dll and /dev/null differ diff --git a/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.dll b/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.dll deleted file mode 100755 index fb516c1..0000000 Binary files a/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.dll and /dev/null differ diff --git a/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.pdb b/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.pdb deleted file mode 100755 index d33d394..0000000 Binary files a/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.pdb and /dev/null differ diff --git a/packages/Moq.4.1.1309.1617/Moq.4.1.1309.1617.nupkg b/packages/Moq.4.1.1309.1617/Moq.4.1.1309.1617.nupkg new file mode 100644 index 0000000..083c225 Binary files /dev/null and b/packages/Moq.4.1.1309.1617/Moq.4.1.1309.1617.nupkg differ diff --git a/packages/Moq.4.1.1309.1617/Moq.4.1.1309.1617.nuspec b/packages/Moq.4.1.1309.1617/Moq.4.1.1309.1617.nuspec new file mode 100644 index 0000000..9b6b8b2 --- /dev/null +++ b/packages/Moq.4.1.1309.1617/Moq.4.1.1309.1617.nuspec @@ -0,0 +1,163 @@ + + + + Moq + 4.1.1309.1617 + Moq: an enjoyable mocking library + Daniel Cazzulino + Daniel Cazzulino + http://www.opensource.org/licenses/bsd-license.php + http://www.moqthis.com/ + false + The most popular and friendly mocking framework for .NET + Version 4.1 +* Added covariant IMock<out T> interface to Mock<T> +* Added It.IsNotNull<T> +* Fix: 'NullReferenceException when subscribing to an event' +* Added overloads to Verify to accept Times as a Method Group +* Feature request: It.IsIn(..), It.IsNotIn(...) +* Corrected Verify method behavior for generic methods calls +* Differentiate verification error from mock crash +* Fix: Adding (and removing) handlers for events declared on interfaces works +when CallBase = true. +* Update to latest Castle +* Fix: Mock.Of (Functional Syntax) doesn't work on properties with non-public setters +* Fix: Allow to use CallBase instead of Returns +* Fix: Solved Multi-threading issue - IndexOutOfRangeException +* Capability of mocking delegates (event handlers) + +Version 4.0 +* Linq to Mocks: Mock.Of<T>(x => x.Id == 23 && x.Title == "Rocks!") +* Fixed issues: + * 87 BadImageFormatException when using a mock with a Visual Studio generated Accessor object + * 166 Unable to use a delegate to mock a function that takes 5 or more parameters. + * 168 Call count failure message never says which is the actual invocation count + * 175 theMock.Object failing on VS2010 Beta 1 + * 177 Generic constraint on interface method causes BadImageFormatException when getting Object. + * 183 Display what invocations were recieved when the expected one hasn't been met + * 186 Methods that are not virtual gives non-sense-exception message + * 188 More Callback Overloads + * 199 Simplify SetupAllProperties implementation to simply iterate and call SetupProperty + * 200 Fluent mock does not honor parent mock CallBase setting. + * 202 Mock.Protected().Expect() deprecated with no work-around + * 204 Allow default return values to be specified (per-mock) + * 205 Error calling SetupAllProperties for Mock<IDataErrorInfo> + * 206 Linq-to-Mocks Never Returns on Implicit Boolean Property + * 207 NullReferenceException thrown when using Mocks.CreateQuery with implicit boolean expression + * 208 Can't setup a mock for method that accept lambda expression as argument. + * 211 SetupAllProperties should return the Mock<T> instead of void. + * 223 When a method is defined to make the setup an asserts mock fails + * 226 Can't raise events on mocked Interop interfaces + * 229 CallBase is not working for virtual events + * 238 Moq fails to mock events defined in F# + * 239 Use Func instead of Predicate + * 250 4.0 Beta 2 regression - cannot mock MethodInfo when targetting .NET 4 + * 251 When a generic interface also implements a non-generic version, Verify does not work in some cases + * 254 Unable to create mock of EnvDTE.DTE + * 261 Can not use protected setter in public property + * 267 Generic argument as dependency for method Setup overrides all previous method setups for a given method + * 273 Attempting to create a mock thrown a Type Load exception. The message refers to an inaccessible interface. + * 276 .Net 3.5 no more supported + +Version 3.0 + +* Silverlight support! Finally integrated Jason's Silverlight contribution! Issue #73 +* Brand-new simplified event raising syntax (#130): mock.Raise(foo => foo.MyEvent += null, new MyArgs(...)); +* Support for custom event signatures (not compatible with EventHandler): mock.Raise(foo => foo.MyEvent += null, arg1, arg2, arg3); +* Substantially improved property setter behavior: mock.VerifySet(foo => foo.Value = "foo"); //(also available for SetupSet +* Renamed Expect* with Setup* +* Vastly simplified custom argument matchers: public int IsOdd() < return Match<int>.Create(v => i % 2 == 0); > +* Added support for verifying how many times a member was invoked: mock.Verify(foo => foo.Do(), Times.Never()); +* Added simple sample app named StoreSample +* Moved Stub functionality to the core API (SetupProperty and SetupAllProperties) +* Fixed sample ASP.NET MVC app to work with latest version +* Allow custom matchers to be created with a substantially simpler API +* Fixed issue #145 which prevented discrimination of setups by generic method argument types +* Fixed issue #141 which prevented ref arguments matching value types (i.e. a Guid) +* Implemented improvement #131: Add support for It.IsAny and custom argument matchers for SetupSet/VerifySet +* Implemented improvement #124 to render better error messages +* Applied patch from David Kirkland for improvement #125 to improve matching of enumerable parameters +* Implemented improvement #122 to provide custom errors for Verify +* Implemented improvement #121 to provide null as default value for Nullable<T> +* Fixed issue #112 which fixes passing a null argument to a mock constructor +* Implemented improvement #111 to better support params arguments +* Fixed bug #105 about improperly overwriting setups for property getter and setter +* Applied patch from Ihar.Bury for issue #99 related to protected expectations +* Fixed issue #97 on not being able to use SetupSet/VerifySet if property did not have a getter +* Better integration with Pex (http://research.microsoft.com/en-us/projects/Pex/) +* Various other minor fixes (#134, #135, #137, #138, #140, etc.) + + +Version 2.6 + +* Implemented Issue #55: We now provide a mock.DefaultValue = [DefaultValue.Empty | DefaultValue.Mock] which will provide the current behavior (default) or mocks for mockeable return types for loose mock invocations without expectations. +* Added support for stubbing properties from moq-contrib: now you can do mock.Stub(m => m.Value) and add stub behavior to the property. mock.StubAll() is also provided. This integrates with the DefaultValue behavior too, so you can stub entire hierarchies :). +* Added support for mocking methods with out and ref parameters (Issue #50) +* Applied patch contributed by slava for Issue #72: add support to limit numbor of calls on mocked method (we now have mock.Expect(...).AtMost(5)) +* Implemented Issue #94: Easier setter verification: Now we support ExpectSet(m = m.Value, "foo") and VerifySet(m = m.Value, 5) (Thanks ASP.NET MVC Team!) +* Implemented issue #96: Automatically chain mocks when setting expectations. It's now possible to specify expectations for an entire hierarchy of objects just starting from the root mock. THIS IS REALLY COOL!!! +* Fixed Issue #89: Expects() does not always return last expectation +* Implemented Issue 91: Expect a method/property to never be called (added Never() method to an expectation. Can be used on methods, property getters and setters) +* Fixed Issue 86: IsAny<T> should check if the value is actually of type T +* Fixed Issue 88: Cannot mock protected internal virtual methods using Moq.Protected +* Fixed Issue 90: Removing event handlers from mocked objects +* Updated demo and added one more test for the dynamic addition of interfaces + +Version 2.5 + +* Added support for mocking protected members +* Added new way of extending argument matchers which is now very straightforward +* Added support for mocking events +* Added support for firing events from expectations +* Removed usage of MBROs which caused inconsistencies in mocking features +* Added ExpectGet and ExpectSet to better support properties, and provide better intellisense. +* Added verification with expressions, which better supports Arrange-Act-Assert testing model (can do Verify(m => m.Do(...))) +* Added Throws<TException> +* Added mock.CallBase property to specify whether the virtual members base implementation should be called +* Added support for implementing and setting expectations and verifying additional interfaces in the mock, via the new mock.As<TInterface>() method (thanks Fernando Simonazzi!) +* Improved argument type matching for Is/IsAny (thanks Jeremy.Skinner!) + + +Version 2.0 + +* Refactored fluent API on mocks. This may cause some existing tests to fail, but the fix is trivial (just reorder the calls to Callback, Returns and Verifiable) +* Added support for retrieving a Mock<T> from a T instance created by a mock. +* Added support for retrieving the invocation arguments from a Callback or Returns. +* Implemented AtMostOnce() constraint +* Added support for creating MBROs with protected constructors +* Loose mocks now return default empty arrays and IEnumerables instead of nulls + + +Version 1.5.1 + +* Refactored MockFactory to make it simpler and more explicit to use with regards to verification. Thanks Garry Shutler for the feedback! + +Version 1.5 + +* Added MockFactory to allow easy construction of multiple mocks with the same behavior and verification + +Version 1.4 + +* Added support for passing constructor arguments for mocked classes. +* Improved code documentation + +Version 1.3 + + * Added support for overriding expectations set previously on a Mock. Now adding a second expectation for the same method/property call will override the existing one. This facilitates setting up default expectations in a fixture setup and overriding when necessary in a specific test. + * Added support for mock verification. Both Verify and VerifyAll are provided for more flexibility (the former only verifies methods marked Verifiable) + +Version 1.2 + +* Added support for MockBehavior mock constructor argument to affect the way the mocks expect or throw on calls. + +Version 1.1 + +* Merged branch for dynamic types. Now Moq is based on Castle DynamicProxy2 to support a wider range of mock targets. +* Added ILMerge so that Castle libraries are merged into Moq assembly (no need for external references and avoid conflicts) + +Version 1.0 + +* Initial release, initial documentation process in place, etc. + tdd mocking mocks unittesting agile + + \ No newline at end of file diff --git a/packages/Moq.4.1.1309.1617/lib/net35/Moq.dll b/packages/Moq.4.1.1309.1617/lib/net35/Moq.dll new file mode 100644 index 0000000..fd24d3c Binary files /dev/null and b/packages/Moq.4.1.1309.1617/lib/net35/Moq.dll differ diff --git a/packages/Moq.4.0.10827/lib/NET35/Moq.xml b/packages/Moq.4.1.1309.1617/lib/net35/Moq.xml old mode 100755 new mode 100644 similarity index 94% rename from packages/Moq.4.0.10827/lib/NET35/Moq.xml rename to packages/Moq.4.1.1309.1617/lib/net35/Moq.xml index a0be31c..aea1d52 --- a/packages/Moq.4.0.10827/lib/NET35/Moq.xml +++ b/packages/Moq.4.1.1309.1617/lib/net35/Moq.xml @@ -1,5768 +1,6034 @@ - - - - Moq - - - - - Implements the fluent API. - - - - - The expectation will be considered only in the former condition. - - - - - - - The expectation will be considered only in the former condition. - - - - - - - - Setups the get. - - The type of the property. - The expression. - - - - - Setups the set. - - The type of the property. - The setter expression. - - - - - Setups the set. - - The setter expression. - - - - - Defines the Callback verb and overloads. - - - - - Helper interface used to hide the base - members from the fluent API to make it much cleaner - in Visual Studio intellisense. - - - - - - - - - - - - - - - - - Specifies a callback to invoke when the method is called. - - The callback method to invoke. - - The following example specifies a callback to set a boolean - value that can be used later: - - var called = false; - mock.Setup(x => x.Execute()) - .Callback(() => called = true); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The argument type of the invoked method. - The callback method to invoke. - - Invokes the given callback with the concrete invocation argument value. - - Notice how the specific string argument is retrieved by simply declaring - it as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute(It.IsAny<string>())) - .Callback((string command) => Console.WriteLine(command)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2) => Console.WriteLine(arg1 + arg2)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3) => Console.WriteLine(arg1 + arg2 + arg3)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The type of the sixteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16)); - - - - - - Defines the Callback verb and overloads for callbacks on - setups that return a value. - - Mocked type. - Type of the return value of the setup. - - - - Specifies a callback to invoke when the method is called. - - The callback method to invoke. - - The following example specifies a callback to set a boolean value that can be used later: - - var called = false; - mock.Setup(x => x.Execute()) - .Callback(() => called = true) - .Returns(true); - - Note that in the case of value-returning methods, after the Callback - call you can still specify the return value. - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the argument of the invoked method. - Callback method to invoke. - - Invokes the given callback with the concrete invocation argument value. - - Notice how the specific string argument is retrieved by simply declaring - it as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute(It.IsAny<string>())) - .Callback(command => Console.WriteLine(command)) - .Returns(true); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2) => Console.WriteLine(arg1 + arg2)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3) => Console.WriteLine(arg1 + arg2 + arg3)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The type of the sixteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15, arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16)); - - - - - - Defines the Raises verb. - - - - - Specifies the event that will be raised - when the setup is met. - - An expression that represents an event attach or detach action. - The event arguments to pass for the raised event. - - The following example shows how to raise an event when - the setup is met: - - var mock = new Mock<IContainer>(); - - mock.Setup(add => add.Add(It.IsAny<string>(), It.IsAny<object>())) - .Raises(add => add.Added += null, EventArgs.Empty); - - - - - - Specifies the event that will be raised - when the setup is matched. - - An expression that represents an event attach or detach action. - A function that will build the - to pass when raising the event. - - - - - Specifies the custom event that will be raised - when the setup is matched. - - An expression that represents an event attach or detach action. - The arguments to pass to the custom delegate (non EventHandler-compatible). - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - The type of the thirteenth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - The type of the thirteenth argument received by the expected invocation. - The type of the fourteenth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - The type of the thirteenth argument received by the expected invocation. - The type of the fourteenth argument received by the expected invocation. - The type of the fifteenth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - The type of the thirteenth argument received by the expected invocation. - The type of the fourteenth argument received by the expected invocation. - The type of the fifteenth argument received by the expected invocation. - The type of the sixteenth argument received by the expected invocation. - - - - - Defines the Returns verb. - - Mocked type. - Type of the return value from the expression. - - - - Specifies the value to return. - - The value to return, or . - - Return a true value from the method call: - - mock.Setup(x => x.Execute("ping")) - .Returns(true); - - - - - - Specifies a function that will calculate the value to return from the method. - - The function that will calculate the return value. - - Return a calculated value when the method is called: - - mock.Setup(x => x.Execute("ping")) - .Returns(() => returnValues[0]); - - The lambda expression to retrieve the return value is lazy-executed, - meaning that its value may change depending on the moment the method - is executed and the value the returnValues array has at - that moment. - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the argument of the invoked method. - The function that will calculate the return value. - - Return a calculated value which is evaluated lazily at the time of the invocation. - - The lookup list can change between invocations and the setup - will return different values accordingly. Also, notice how the specific - string argument is retrieved by simply declaring it as part of the lambda - expression: - - - mock.Setup(x => x.Execute(It.IsAny<string>())) - .Returns((string command) => returnValues[command]); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2) => arg1 + arg2); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3) => arg1 + arg2 + arg3); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4) => arg1 + arg2 + arg3 + arg4); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5) => arg1 + arg2 + arg3 + arg4 + arg5); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The type of the sixteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16); - - - - - - Language for ReturnSequence - - - - - Returns value - - - - - Throws an exception - - - - - Throws an exception - - - - - The first method call or member access will be the - last segment of the expression (depth-first traversal), - which is the one we have to Setup rather than FluentMock. - And the last one is the one we have to Mock.Get rather - than FluentMock. - - - - - Base class for mocks and static helper class with methods that - apply to mocked objects, such as to - retrieve a from an object instance. - - - - - Creates an mock object of the indicated type. - - The type of the mocked object. - The mocked object created. - - - - Creates an mock object of the indicated type. - - The predicate with the specification of how the mocked object should behave. - The type of the mocked object. - The mocked object created. - - - - Initializes a new instance of the class. - - - - - Retrieves the mock object for the given object instance. - - Type of the mock to retrieve. Can be omitted as it's inferred - from the object instance passed in as the instance. - The instance of the mocked object.The mock associated with the mocked object. - The received instance - was not created by Moq. - - The following example shows how to add a new setup to an object - instance which is not the original but rather - the object associated with it: - - // Typed instance, not the mock, is retrieved from some test API. - HttpContextBase context = GetMockContext(); - - // context.Request is the typed object from the "real" API - // so in order to add a setup to it, we need to get - // the mock that "owns" it - Mock<HttpRequestBase> request = Mock.Get(context.Request); - mock.Setup(req => req.AppRelativeCurrentExecutionFilePath) - .Returns(tempUrl); - - - - - - Returns the mocked object value. - - - - - Verifies that all verifiable expectations have been met. - - This example sets up an expectation and marks it as verifiable. After - the mock is used, a Verify() call is issued on the mock - to ensure the method in the setup was invoked: - - var mock = new Mock<IWarehouse>(); - this.Setup(x => x.HasInventory(TALISKER, 50)).Verifiable().Returns(true); - ... - // other test code - ... - // Will throw if the test code has didn't call HasInventory. - this.Verify(); - - Not all verifiable expectations were met. - - - - Verifies all expectations regardless of whether they have - been flagged as verifiable. - - This example sets up an expectation without marking it as verifiable. After - the mock is used, a call is issued on the mock - to ensure that all expectations are met: - - var mock = new Mock<IWarehouse>(); - this.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true); - ... - // other test code - ... - // Will throw if the test code has didn't call HasInventory, even - // that expectation was not marked as verifiable. - this.VerifyAll(); - - At least one expectation was not met. - - - - Gets the interceptor target for the given expression and root mock, - building the intermediate hierarchy of mock objects if necessary. - - - - - Raises the associated event with the given - event argument data. - - - - - Raises the associated event with the given - event argument data. - - - - - Adds an interface implementation to the mock, - allowing setups to be specified for it. - - This method can only be called before the first use - of the mock property, at which - point the runtime type has already been generated - and no more interfaces can be added to it. - - Also, must be an - interface and not a class, which must be specified - when creating the mock instead. - - - The mock type - has already been generated by accessing the property. - - The specified - is not an interface. - - The following example creates a mock for the main interface - and later adds to it to verify - it's called by the consumer code: - - var mock = new Mock<IProcessor>(); - mock.Setup(x => x.Execute("ping")); - - // add IDisposable interface - var disposable = mock.As<IDisposable>(); - disposable.Setup(d => d.Dispose()).Verifiable(); - - Type of interface to cast the mock to. - - - - - - - Behavior of the mock, according to the value set in the constructor. - - - - - Whether the base member virtual implementation will be called - for mocked classes if no setup is matched. Defaults to . - - - - - Specifies the behavior to use when returning default values for - unexpected invocations on loose mocks. - - - - - Gets the mocked object instance. - - - - - Retrieves the type of the mocked object, its generic type argument. - This is used in the auto-mocking of hierarchy access. - - - - - Specifies the class that will determine the default - value to return when invocations are made that - have no setups and need to return a default - value (for loose mocks). - - - - - Exposes the list of extra interfaces implemented by the mock. - - - - - Utility repository class to use to construct multiple - mocks when consistent verification is - desired for all of them. - - - If multiple mocks will be created during a test, passing - the desired (if different than the - or the one - passed to the repository constructor) and later verifying each - mock can become repetitive and tedious. - - This repository class helps in that scenario by providing a - simplified creation of multiple mocks with a default - (unless overriden by calling - ) and posterior verification. - - - - The following is a straightforward example on how to - create and automatically verify strict mocks using a : - - var repository = new MockRepository(MockBehavior.Strict); - - var foo = repository.Create<IFoo>(); - var bar = repository.Create<IBar>(); - - // no need to call Verifiable() on the setup - // as we'll be validating all of them anyway. - foo.Setup(f => f.Do()); - bar.Setup(b => b.Redo()); - - // exercise the mocks here - - repository.VerifyAll(); - // At this point all setups are already checked - // and an optional MockException might be thrown. - // Note also that because the mocks are strict, any invocation - // that doesn't have a matching setup will also throw a MockException. - - The following examples shows how to setup the repository - to create loose mocks and later verify only verifiable setups: - - var repository = new MockRepository(MockBehavior.Loose); - - var foo = repository.Create<IFoo>(); - var bar = repository.Create<IBar>(); - - // this setup will be verified when we verify the repository - foo.Setup(f => f.Do()).Verifiable(); - - // this setup will NOT be verified - foo.Setup(f => f.Calculate()); - - // this setup will be verified when we verify the repository - bar.Setup(b => b.Redo()).Verifiable(); - - // exercise the mocks here - // note that because the mocks are Loose, members - // called in the interfaces for which no matching - // setups exist will NOT throw exceptions, - // and will rather return default values. - - repository.Verify(); - // At this point verifiable setups are already checked - // and an optional MockException might be thrown. - - The following examples shows how to setup the repository with a - default strict behavior, overriding that default for a - specific mock: - - var repository = new MockRepository(MockBehavior.Strict); - - // this particular one we want loose - var foo = repository.Create<IFoo>(MockBehavior.Loose); - var bar = repository.Create<IBar>(); - - // specify setups - - // exercise the mocks here - - repository.Verify(); - - - - - - - Utility factory class to use to construct multiple - mocks when consistent verification is - desired for all of them. - - - If multiple mocks will be created during a test, passing - the desired (if different than the - or the one - passed to the factory constructor) and later verifying each - mock can become repetitive and tedious. - - This factory class helps in that scenario by providing a - simplified creation of multiple mocks with a default - (unless overriden by calling - ) and posterior verification. - - - - The following is a straightforward example on how to - create and automatically verify strict mocks using a : - - var factory = new MockFactory(MockBehavior.Strict); - - var foo = factory.Create<IFoo>(); - var bar = factory.Create<IBar>(); - - // no need to call Verifiable() on the setup - // as we'll be validating all of them anyway. - foo.Setup(f => f.Do()); - bar.Setup(b => b.Redo()); - - // exercise the mocks here - - factory.VerifyAll(); - // At this point all setups are already checked - // and an optional MockException might be thrown. - // Note also that because the mocks are strict, any invocation - // that doesn't have a matching setup will also throw a MockException. - - The following examples shows how to setup the factory - to create loose mocks and later verify only verifiable setups: - - var factory = new MockFactory(MockBehavior.Loose); - - var foo = factory.Create<IFoo>(); - var bar = factory.Create<IBar>(); - - // this setup will be verified when we verify the factory - foo.Setup(f => f.Do()).Verifiable(); - - // this setup will NOT be verified - foo.Setup(f => f.Calculate()); - - // this setup will be verified when we verify the factory - bar.Setup(b => b.Redo()).Verifiable(); - - // exercise the mocks here - // note that because the mocks are Loose, members - // called in the interfaces for which no matching - // setups exist will NOT throw exceptions, - // and will rather return default values. - - factory.Verify(); - // At this point verifiable setups are already checked - // and an optional MockException might be thrown. - - The following examples shows how to setup the factory with a - default strict behavior, overriding that default for a - specific mock: - - var factory = new MockFactory(MockBehavior.Strict); - - // this particular one we want loose - var foo = factory.Create<IFoo>(MockBehavior.Loose); - var bar = factory.Create<IBar>(); - - // specify setups - - // exercise the mocks here - - factory.Verify(); - - - - - - - Initializes the factory with the given - for newly created mocks from the factory. - - The behavior to use for mocks created - using the factory method if not overriden - by using the overload. - - - - Creates a new mock with the default - specified at factory construction time. - - Type to mock. - A new . - - - var factory = new MockFactory(MockBehavior.Strict); - - var foo = factory.Create<IFoo>(); - // use mock on tests - - factory.VerifyAll(); - - - - - - Creates a new mock with the default - specified at factory construction time and with the - the given constructor arguments for the class. - - - The mock will try to find the best match constructor given the - constructor arguments, and invoke that to initialize the instance. - This applies only to classes, not interfaces. - - Type to mock. - Constructor arguments for mocked classes. - A new . - - - var factory = new MockFactory(MockBehavior.Default); - - var mock = factory.Create<MyBase>("Foo", 25, true); - // use mock on tests - - factory.Verify(); - - - - - - Creates a new mock with the given . - - Type to mock. - Behavior to use for the mock, which overrides - the default behavior specified at factory construction time. - A new . - - The following example shows how to create a mock with a different - behavior to that specified as the default for the factory: - - var factory = new MockFactory(MockBehavior.Strict); - - var foo = factory.Create<IFoo>(MockBehavior.Loose); - - - - - - Creates a new mock with the given - and with the the given constructor arguments for the class. - - - The mock will try to find the best match constructor given the - constructor arguments, and invoke that to initialize the instance. - This applies only to classes, not interfaces. - - Type to mock. - Behavior to use for the mock, which overrides - the default behavior specified at factory construction time. - Constructor arguments for mocked classes. - A new . - - The following example shows how to create a mock with a different - behavior to that specified as the default for the factory, passing - constructor arguments: - - var factory = new MockFactory(MockBehavior.Default); - - var mock = factory.Create<MyBase>(MockBehavior.Strict, "Foo", 25, true); - - - - - - Implements creation of a new mock within the factory. - - Type to mock. - The behavior for the new mock. - Optional arguments for the construction of the mock. - - - - Verifies all verifiable expectations on all mocks created - by this factory. - - - One or more mocks had expectations that were not satisfied. - - - - Verifies all verifiable expectations on all mocks created - by this factory. - - - One or more mocks had expectations that were not satisfied. - - - - Invokes for each mock - in , and accumulates the resulting - that might be - thrown from the action. - - The action to execute against - each mock. - - - - Whether the base member virtual implementation will be called - for mocked classes if no setup is matched. Defaults to . - - - - - Specifies the behavior to use when returning default values for - unexpected invocations on loose mocks. - - - - - Gets the mocks that have been created by this factory and - that will get verified together. - - - - - Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. - - The type of the mocked object to query. - - - - Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. - - The predicate with the setup expressions. - The type of the mocked object to query. - - - - Creates an mock object of the indicated type. - - The type of the mocked object. - The mocked object created. - - - - Creates an mock object of the indicated type. - - The predicate with the setup expressions. - The type of the mocked object. - The mocked object created. - - - - Creates the mock query with the underlying queriable implementation. - - - - - Wraps the enumerator inside a queryable. - - - - - Method that is turned into the actual call from .Query{T}, to - transform the queryable query into a normal enumerable query. - This method is never used directly by consumers. - - - - - Initializes the repository with the given - for newly created mocks from the repository. - - The behavior to use for mocks created - using the repository method if not overriden - by using the overload. - - - - A that returns an empty default value - for invocations that do not have setups or return values, with loose mocks. - This is the default behavior for a mock. - - - - - Interface to be implemented by classes that determine the - default value of non-expected invocations. - - - - - Defines the default value to return in all the methods returning . - The type of the return value.The value to set as default. - - - - Provides a value for the given member and arguments. - - The member to provide a default value for. - - - - - The intention of is to create a more readable - string representation for the failure message. - - - - - Implements the fluent API. - - - - - Defines the Throws verb. - - - - - Specifies the exception to throw when the method is invoked. - - Exception instance to throw. - - This example shows how to throw an exception when the method is - invoked with an empty string argument: - - mock.Setup(x => x.Execute("")) - .Throws(new ArgumentException()); - - - - - - Specifies the type of exception to throw when the method is invoked. - - Type of exception to instantiate and throw when the setup is matched. - - This example shows how to throw an exception when the method is - invoked with an empty string argument: - - mock.Setup(x => x.Execute("")) - .Throws<ArgumentException>(); - - - - - - Implements the fluent API. - - - - - Defines occurrence members to constraint setups. - - - - - The expected invocation can happen at most once. - - - - var mock = new Mock<ICommand>(); - mock.Setup(foo => foo.Execute("ping")) - .AtMostOnce(); - - - - - - The expected invocation can happen at most specified number of times. - - The number of times to accept calls. - - - var mock = new Mock<ICommand>(); - mock.Setup(foo => foo.Execute("ping")) - .AtMost( 5 ); - - - - - - Defines the Verifiable verb. - - - - - Marks the expectation as verifiable, meaning that a call - to will check if this particular - expectation was met. - - - The following example marks the expectation as verifiable: - - mock.Expect(x => x.Execute("ping")) - .Returns(true) - .Verifiable(); - - - - - - Marks the expectation as verifiable, meaning that a call - to will check if this particular - expectation was met, and specifies a message for failures. - - - The following example marks the expectation as verifiable: - - mock.Expect(x => x.Execute("ping")) - .Returns(true) - .Verifiable("Ping should be executed always!"); - - - - - - Implements the fluent API. - - - - - We need this non-generics base class so that - we can use from - generic code. - - - - - Implements the fluent API. - - - - - Implements the fluent API. - - - - - Implements the fluent API. - - - - - Defines the Callback verb for property getter setups. - - - Mocked type. - Type of the property. - - - - Specifies a callback to invoke when the property is retrieved. - - Callback method to invoke. - - Invokes the given callback with the property value being set. - - mock.SetupGet(x => x.Suspended) - .Callback(() => called = true) - .Returns(true); - - - - - - Implements the fluent API. - - - - - Defines the Returns verb for property get setups. - - Mocked type. - Type of the property. - - - - Specifies the value to return. - - The value to return, or . - - Return a true value from the property getter call: - - mock.SetupGet(x => x.Suspended) - .Returns(true); - - - - - - Specifies a function that will calculate the value to return for the property. - - The function that will calculate the return value. - - Return a calculated value when the property is retrieved: - - mock.SetupGet(x => x.Suspended) - .Returns(() => returnValues[0]); - - The lambda expression to retrieve the return value is lazy-executed, - meaning that its value may change depending on the moment the property - is retrieved and the value the returnValues array has at - that moment. - - - - - Implements the fluent API. - - - - - Encapsulates a method that has five parameters and does not return a value. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - - - - Encapsulates a method that has five parameters and returns a value of the type specified by the parameter. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the return value of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The return value of the method that this delegate encapsulates. - - - - Encapsulates a method that has six parameters and does not return a value. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - - - - Encapsulates a method that has six parameters and returns a value of the type specified by the parameter. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the return value of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The return value of the method that this delegate encapsulates. - - - - Encapsulates a method that has seven parameters and does not return a value. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - - - - Encapsulates a method that has seven parameters and returns a value of the type specified by the parameter. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the return value of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The return value of the method that this delegate encapsulates. - - - - Encapsulates a method that has eight parameters and does not return a value. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - - - - Encapsulates a method that has eight parameters and returns a value of the type specified by the parameter. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the return value of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The return value of the method that this delegate encapsulates. - - - - Encapsulates a method that has nine parameters and does not return a value. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - - - - Encapsulates a method that has nine parameters and returns a value of the type specified by the parameter. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the return value of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The return value of the method that this delegate encapsulates. - - - - Encapsulates a method that has ten parameters and does not return a value. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - - - - Encapsulates a method that has ten parameters and returns a value of the type specified by the parameter. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the return value of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The return value of the method that this delegate encapsulates. - - - - Encapsulates a method that has eleven parameters and does not return a value. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the eleventh parameter of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The eleventh parameter of the method that this delegate encapsulates. - - - - Encapsulates a method that has eleven parameters and returns a value of the type specified by the parameter. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the eleventh parameter of the method that this delegate encapsulates. - The type of the return value of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The eleventh parameter of the method that this delegate encapsulates. - The return value of the method that this delegate encapsulates. - - - - Encapsulates a method that has twelve parameters and does not return a value. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the eleventh parameter of the method that this delegate encapsulates. - The type of the twelfth parameter of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The eleventh parameter of the method that this delegate encapsulates. - The twelfth parameter of the method that this delegate encapsulates. - - - - Encapsulates a method that has twelve parameters and returns a value of the type specified by the parameter. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the eleventh parameter of the method that this delegate encapsulates. - The type of the twelfth parameter of the method that this delegate encapsulates. - The type of the return value of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The eleventh parameter of the method that this delegate encapsulates. - The twelfth parameter of the method that this delegate encapsulates. - The return value of the method that this delegate encapsulates. - - - - Encapsulates a method that has thirteen parameters and does not return a value. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the eleventh parameter of the method that this delegate encapsulates. - The type of the twelfth parameter of the method that this delegate encapsulates. - The type of the thirteenth parameter of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The eleventh parameter of the method that this delegate encapsulates. - The twelfth parameter of the method that this delegate encapsulates. - The thirteenth parameter of the method that this delegate encapsulates. - - - - Encapsulates a method that has thirteen parameters and returns a value of the type specified by the parameter. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the eleventh parameter of the method that this delegate encapsulates. - The type of the twelfth parameter of the method that this delegate encapsulates. - The type of the thirteenth parameter of the method that this delegate encapsulates. - The type of the return value of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The eleventh parameter of the method that this delegate encapsulates. - The twelfth parameter of the method that this delegate encapsulates. - The thirteenth parameter of the method that this delegate encapsulates. - The return value of the method that this delegate encapsulates. - - - - Encapsulates a method that has fourteen parameters and does not return a value. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the eleventh parameter of the method that this delegate encapsulates. - The type of the twelfth parameter of the method that this delegate encapsulates. - The type of the thirteenth parameter of the method that this delegate encapsulates. - The type of the fourteenth parameter of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The eleventh parameter of the method that this delegate encapsulates. - The twelfth parameter of the method that this delegate encapsulates. - The thirteenth parameter of the method that this delegate encapsulates. - The fourteenth parameter of the method that this delegate encapsulates. - - - - Encapsulates a method that has fourteen parameters and returns a value of the type specified by the parameter. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the eleventh parameter of the method that this delegate encapsulates. - The type of the twelfth parameter of the method that this delegate encapsulates. - The type of the thirteenth parameter of the method that this delegate encapsulates. - The type of the fourteenth parameter of the method that this delegate encapsulates. - The type of the return value of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The eleventh parameter of the method that this delegate encapsulates. - The twelfth parameter of the method that this delegate encapsulates. - The thirteenth parameter of the method that this delegate encapsulates. - The fourteenth parameter of the method that this delegate encapsulates. - The return value of the method that this delegate encapsulates. - - - - Encapsulates a method that has fifteen parameters and does not return a value. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the eleventh parameter of the method that this delegate encapsulates. - The type of the twelfth parameter of the method that this delegate encapsulates. - The type of the thirteenth parameter of the method that this delegate encapsulates. - The type of the fourteenth parameter of the method that this delegate encapsulates. - The type of the fifteenth parameter of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The eleventh parameter of the method that this delegate encapsulates. - The twelfth parameter of the method that this delegate encapsulates. - The thirteenth parameter of the method that this delegate encapsulates. - The fourteenth parameter of the method that this delegate encapsulates. - The fifteenth parameter of the method that this delegate encapsulates. - - - - Encapsulates a method that has fifteen parameters and returns a value of the type specified by the parameter. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the eleventh parameter of the method that this delegate encapsulates. - The type of the twelfth parameter of the method that this delegate encapsulates. - The type of the thirteenth parameter of the method that this delegate encapsulates. - The type of the fourteenth parameter of the method that this delegate encapsulates. - The type of the fifteenth parameter of the method that this delegate encapsulates. - The type of the return value of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The eleventh parameter of the method that this delegate encapsulates. - The twelfth parameter of the method that this delegate encapsulates. - The thirteenth parameter of the method that this delegate encapsulates. - The fourteenth parameter of the method that this delegate encapsulates. - The fifteenth parameter of the method that this delegate encapsulates. - The return value of the method that this delegate encapsulates. - - - - Encapsulates a method that has sixteen parameters and does not return a value. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the eleventh parameter of the method that this delegate encapsulates. - The type of the twelfth parameter of the method that this delegate encapsulates. - The type of the thirteenth parameter of the method that this delegate encapsulates. - The type of the fourteenth parameter of the method that this delegate encapsulates. - The type of the fifteenth parameter of the method that this delegate encapsulates. - The type of the sixteenth parameter of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The eleventh parameter of the method that this delegate encapsulates. - The twelfth parameter of the method that this delegate encapsulates. - The thirteenth parameter of the method that this delegate encapsulates. - The fourteenth parameter of the method that this delegate encapsulates. - The fifteenth parameter of the method that this delegate encapsulates. - The sixteenth parameter of the method that this delegate encapsulates. - - - - Encapsulates a method that has sixteen parameters and returns a value of the type specified by the parameter. - - The type of the first parameter of the method that this delegate encapsulates. - The type of the second parameter of the method that this delegate encapsulates. - The type of the third parameter of the method that this delegate encapsulates. - The type of the fourth parameter of the method that this delegate encapsulates. - The type of the fifth parameter of the method that this delegate encapsulates. - The type of the sixth parameter of the method that this delegate encapsulates. - The type of the seventh parameter of the method that this delegate encapsulates. - The type of the eighth parameter of the method that this delegate encapsulates. - The type of the nineth parameter of the method that this delegate encapsulates. - The type of the tenth parameter of the method that this delegate encapsulates. - The type of the eleventh parameter of the method that this delegate encapsulates. - The type of the twelfth parameter of the method that this delegate encapsulates. - The type of the thirteenth parameter of the method that this delegate encapsulates. - The type of the fourteenth parameter of the method that this delegate encapsulates. - The type of the fifteenth parameter of the method that this delegate encapsulates. - The type of the sixteenth parameter of the method that this delegate encapsulates. - The type of the return value of the method that this delegate encapsulates. - The first parameter of the method that this delegate encapsulates. - The second parameter of the method that this delegate encapsulates. - The third parameter of the method that this delegate encapsulates. - The fourth parameter of the method that this delegate encapsulates. - The fifth parameter of the method that this delegate encapsulates. - The sixth parameter of the method that this delegate encapsulates. - The seventh parameter of the method that this delegate encapsulates. - The eighth parameter of the method that this delegate encapsulates. - The nineth parameter of the method that this delegate encapsulates. - The tenth parameter of the method that this delegate encapsulates. - The eleventh parameter of the method that this delegate encapsulates. - The twelfth parameter of the method that this delegate encapsulates. - The thirteenth parameter of the method that this delegate encapsulates. - The fourteenth parameter of the method that this delegate encapsulates. - The fifteenth parameter of the method that this delegate encapsulates. - The sixteenth parameter of the method that this delegate encapsulates. - The return value of the method that this delegate encapsulates. - - - - Helper class to setup a full trace between many mocks - - - - - Initialize a trace setup - - - - - Allow sequence to be repeated - - - - - define nice api - - - - - Perform an expectation in the trace. - - - - - Marks a method as a matcher, which allows complete replacement - of the built-in class with your own argument - matching rules. - - - This feature has been deprecated in favor of the new - and simpler . - - - The argument matching is used to determine whether a concrete - invocation in the mock matches a given setup. This - matching mechanism is fully extensible. - - - There are two parts of a matcher: the compiler matcher - and the runtime matcher. - - - Compiler matcher - Used to satisfy the compiler requirements for the - argument. Needs to be a method optionally receiving any arguments - you might need for the matching, but with a return type that - matches that of the argument. - - Let's say I want to match a lists of orders that contains - a particular one. I might create a compiler matcher like the following: - - - public static class Orders - { - [Matcher] - public static IEnumerable<Order> Contains(Order order) - { - return null; - } - } - - Now we can invoke this static method instead of an argument in an - invocation: - - var order = new Order { ... }; - var mock = new Mock<IRepository<Order>>(); - - mock.Setup(x => x.Save(Orders.Contains(order))) - .Throws<ArgumentException>(); - - Note that the return value from the compiler matcher is irrelevant. - This method will never be called, and is just used to satisfy the - compiler and to signal Moq that this is not a method that we want - to be invoked at runtime. - - - - Runtime matcher - - The runtime matcher is the one that will actually perform evaluation - when the test is run, and is defined by convention to have the - same signature as the compiler matcher, but where the return - value is the first argument to the call, which contains the - object received by the actual invocation at runtime: - - public static bool Contains(IEnumerable<Order> orders, Order order) - { - return orders.Contains(order); - } - - At runtime, the mocked method will be invoked with a specific - list of orders. This value will be passed to this runtime - matcher as the first argument, while the second argument is the - one specified in the setup (x.Save(Orders.Contains(order))). - - The boolean returned determines whether the given argument has been - matched. If all arguments to the expected method are matched, then - the setup matches and is evaluated. - - - - - - Using this extensible infrastructure, you can easily replace the entire - set of matchers with your own. You can also avoid the - typical (and annoying) lengthy expressions that result when you have - multiple arguments that use generics. - - - The following is the complete example explained above: - - public static class Orders - { - [Matcher] - public static IEnumerable<Order> Contains(Order order) - { - return null; - } - - public static bool Contains(IEnumerable<Order> orders, Order order) - { - return orders.Contains(order); - } - } - - And the concrete test using this matcher: - - var order = new Order { ... }; - var mock = new Mock<IRepository<Order>>(); - - mock.Setup(x => x.Save(Orders.Contains(order))) - .Throws<ArgumentException>(); - - // use mock, invoke Save, and have the matcher filter. - - - - - - Provides a mock implementation of . - - Any interface type can be used for mocking, but for classes, only abstract and virtual members can be mocked. - - The behavior of the mock with regards to the setups and the actual calls is determined - by the optional that can be passed to the - constructor. - - Type to mock, which can be an interface or a class. - The following example shows establishing setups with specific values - for method invocations: - - // Arrange - var order = new Order(TALISKER, 50); - var mock = new Mock<IWarehouse>(); - - mock.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true); - - // Act - order.Fill(mock.Object); - - // Assert - Assert.True(order.IsFilled); - - The following example shows how to use the class - to specify conditions for arguments instead of specific values: - - // Arrange - var order = new Order(TALISKER, 50); - var mock = new Mock<IWarehouse>(); - - // shows how to expect a value within a range - mock.Setup(x => x.HasInventory( - It.IsAny<string>(), - It.IsInRange(0, 100, Range.Inclusive))) - .Returns(false); - - // shows how to throw for unexpected calls. - mock.Setup(x => x.Remove( - It.IsAny<string>(), - It.IsAny<int>())) - .Throws(new InvalidOperationException()); - - // Act - order.Fill(mock.Object); - - // Assert - Assert.False(order.IsFilled); - - - - - - Obsolete. - - - - - Obsolete. - - - - - Obsolete. - - - - - Obsolete. - - - - - Obsolete. - - - - - Ctor invoked by AsTInterface exclusively. - - - - - Initializes an instance of the mock with default behavior. - - var mock = new Mock<IFormatProvider>(); - - - - - Initializes an instance of the mock with default behavior and with - the given constructor arguments for the class. (Only valid when is a class) - - The mock will try to find the best match constructor given the constructor arguments, and invoke that - to initialize the instance. This applies only for classes, not interfaces. - - var mock = new Mock<MyProvider>(someArgument, 25); - Optional constructor arguments if the mocked type is a class. - - - - Initializes an instance of the mock with the specified behavior. - - var mock = new Mock<IFormatProvider>(MockBehavior.Relaxed); - Behavior of the mock. - - - - Initializes an instance of the mock with a specific behavior with - the given constructor arguments for the class. - - The mock will try to find the best match constructor given the constructor arguments, and invoke that - to initialize the instance. This applies only to classes, not interfaces. - - var mock = new Mock<MyProvider>(someArgument, 25); - Behavior of the mock.Optional constructor arguments if the mocked type is a class. - - - - Returns the mocked object value. - - - - - Specifies a setup on the mocked type for a call to - to a void method. - - If more than one setup is specified for the same method or property, - the latest one wins and is the one that will be executed. - Lambda expression that specifies the expected method invocation. - - var mock = new Mock<IProcessor>(); - mock.Setup(x => x.Execute("ping")); - - - - - - Specifies a setup on the mocked type for a call to - to a value returning method. - Type of the return value. Typically omitted as it can be inferred from the expression. - If more than one setup is specified for the same method or property, - the latest one wins and is the one that will be executed. - Lambda expression that specifies the method invocation. - - mock.Setup(x => x.HasInventory("Talisker", 50)).Returns(true); - - - - - - Specifies a setup on the mocked type for a call to - to a property getter. - - If more than one setup is set for the same property getter, - the latest one wins and is the one that will be executed. - Type of the property. Typically omitted as it can be inferred from the expression.Lambda expression that specifies the property getter. - - mock.SetupGet(x => x.Suspended) - .Returns(true); - - - - - - Specifies a setup on the mocked type for a call to - to a property setter. - - If more than one setup is set for the same property setter, - the latest one wins and is the one that will be executed. - - This overloads allows the use of a callback already - typed for the property type. - - Type of the property. Typically omitted as it can be inferred from the expression.The Lambda expression that sets a property to a value. - - mock.SetupSet(x => x.Suspended = true); - - - - - - Specifies a setup on the mocked type for a call to - to a property setter. - - If more than one setup is set for the same property setter, - the latest one wins and is the one that will be executed. - Lambda expression that sets a property to a value. - - mock.SetupSet(x => x.Suspended = true); - - - - - - Specifies that the given property should have "property behavior", - meaning that setting its value will cause it to be saved and - later returned when the property is requested. (this is also - known as "stubbing"). - - Type of the property, inferred from the property - expression (does not need to be specified). - Property expression to stub. - If you have an interface with an int property Value, you might - stub it using the following straightforward call: - - var mock = new Mock<IHaveValue>(); - mock.Stub(v => v.Value); - - After the Stub call has been issued, setting and - retrieving the object value will behave as expected: - - IHaveValue v = mock.Object; - - v.Value = 5; - Assert.Equal(5, v.Value); - - - - - - Specifies that the given property should have "property behavior", - meaning that setting its value will cause it to be saved and - later returned when the property is requested. This overload - allows setting the initial value for the property. (this is also - known as "stubbing"). - - Type of the property, inferred from the property - expression (does not need to be specified). - Property expression to stub.Initial value for the property. - If you have an interface with an int property Value, you might - stub it using the following straightforward call: - - var mock = new Mock<IHaveValue>(); - mock.SetupProperty(v => v.Value, 5); - - After the SetupProperty call has been issued, setting and - retrieving the object value will behave as expected: - - IHaveValue v = mock.Object; - // Initial value was stored - Assert.Equal(5, v.Value); - - // New value set which changes the initial value - v.Value = 6; - Assert.Equal(6, v.Value); - - - - - - Specifies that the all properties on the mock should have "property behavior", - meaning that setting its value will cause it to be saved and - later returned when the property is requested. (this is also - known as "stubbing"). The default value for each property will be the - one generated as specified by the property for the mock. - - If the mock is set to , - the mocked default values will also get all properties setup recursively. - - - - - - - - Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . - - This example assumes that the mock has been used, and later we want to verify that a given - invocation with specific parameters was performed: - - var mock = new Mock<IProcessor>(); - // exercise mock - //... - // Will throw if the test code didn't call Execute with a "ping" string argument. - mock.Verify(proc => proc.Execute("ping")); - - The invocation was not performed on the mock.Expression to verify. - - - - Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . - - The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called. - - - - Verifies that a specific invocation matching the given expression was performed on the mock, - specifying a failure error message. Use in conjuntion with the default - . - - This example assumes that the mock has been used, and later we want to verify that a given - invocation with specific parameters was performed: - - var mock = new Mock<IProcessor>(); - // exercise mock - //... - // Will throw if the test code didn't call Execute with a "ping" string argument. - mock.Verify(proc => proc.Execute("ping")); - - The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. - - - - Verifies that a specific invocation matching the given expression was performed on the mock, - specifying a failure error message. Use in conjuntion with the default - . - - The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails. - - - - Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . - - This example assumes that the mock has been used, and later we want to verify that a given - invocation with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't call HasInventory. - mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50)); - - The invocation was not performed on the mock.Expression to verify.Type of return value from the expression. - - - - Verifies that a specific invocation matching the given - expression was performed on the mock. Use in conjuntion - with the default . - - The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Type of return value from the expression. - - - - Verifies that a specific invocation matching the given - expression was performed on the mock, specifying a failure - error message. - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't call HasInventory. - mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50), "When filling orders, inventory has to be checked"); - - The invocation was not performed on the mock.Expression to verify.Message to show if verification fails.Type of return value from the expression. - - - - Verifies that a specific invocation matching the given - expression was performed on the mock, specifying a failure - error message. - - The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails.Type of return value from the expression. - - - - Verifies that a property was read on the mock. - - This example assumes that the mock has been used, - and later we want to verify that a given property - was retrieved from it: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't retrieve the IsClosed property. - mock.VerifyGet(warehouse => warehouse.IsClosed); - - The invocation was not performed on the mock.Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - - Verifies that a property was read on the mock. - - The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - - Verifies that a property was read on the mock, specifying a failure - error message. - - This example assumes that the mock has been used, - and later we want to verify that a given property - was retrieved from it: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't retrieve the IsClosed property. - mock.VerifyGet(warehouse => warehouse.IsClosed); - - The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - - Verifies that a property was read on the mock, specifying a failure - error message. - - The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - - Verifies that a property was set on the mock. - - This example assumes that the mock has been used, - and later we want to verify that a given property - was set on it: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed = true); - - The invocation was not performed on the mock.Expression to verify. - - - - Verifies that a property was set on the mock. - - The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify. - - - - Verifies that a property was set on the mock, specifying - a failure message. - - This example assumes that the mock has been used, - and later we want to verify that a given property - was set on it: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed = true, "Warehouse should always be closed after the action"); - - The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. - - - - Verifies that a property was set on the mock, specifying - a failure message. - - The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. - - - - Raises the event referenced in using - the given argument. - - The argument is - invalid for the target event invocation, or the is - not an event attach or detach expression. - - The following example shows how to raise a event: - - var mock = new Mock<IViewModel>(); - - mock.Raise(x => x.PropertyChanged -= null, new PropertyChangedEventArgs("Name")); - - - This example shows how to invoke an event with a custom event arguments - class in a view that will cause its corresponding presenter to - react by changing its state: - - var mockView = new Mock<IOrdersView>(); - var presenter = new OrdersPresenter(mockView.Object); - - // Check that the presenter has no selection by default - Assert.Null(presenter.SelectedOrder); - - // Raise the event with a specific arguments data - mockView.Raise(v => v.SelectionChanged += null, new OrderEventArgs { Order = new Order("moq", 500) }); - - // Now the presenter reacted to the event, and we have a selected order - Assert.NotNull(presenter.SelectedOrder); - Assert.Equal("moq", presenter.SelectedOrder.ProductName); - - - - - - Raises the event referenced in using - the given argument for a non-EventHandler typed event. - - The arguments are - invalid for the target event invocation, or the is - not an event attach or detach expression. - - The following example shows how to raise a custom event that does not adhere to - the standard EventHandler: - - var mock = new Mock<IViewModel>(); - - mock.Raise(x => x.MyEvent -= null, "Name", bool, 25); - - - - - - Exposes the mocked object instance. - - - - - Provides legacy API members as extensions so that - existing code continues to compile, but new code - doesn't see then. - - - - - Obsolete. - - - - - Obsolete. - - - - - Obsolete. - - - - - Provides additional methods on mocks. - - - Provided as extension methods as they confuse the compiler - with the overloads taking Action. - - - - - Specifies a setup on the mocked type for a call to - to a property setter, regardless of its value. - - - If more than one setup is set for the same property setter, - the latest one wins and is the one that will be executed. - - Type of the property. Typically omitted as it can be inferred from the expression. - Type of the mock. - The target mock for the setup. - Lambda expression that specifies the property setter. - - - mock.SetupSet(x => x.Suspended); - - - - This method is not legacy, but must be on an extension method to avoid - confusing the compiler with the new Action syntax. - - - - - Verifies that a property has been set on the mock, regarless of its value. - - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed); - - - The invocation was not performed on the mock. - Expression to verify. - The mock instance. - Mocked type. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - Verifies that a property has been set on the mock, specifying a failure - error message. - - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed); - - - The invocation was not performed on the mock. - Expression to verify. - Message to show if verification fails. - The mock instance. - Mocked type. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - Verifies that a property has been set on the mock, regardless - of the value but only the specified number of times. - - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed); - - - The invocation was not performed on the mock. - The invocation was not call the times specified by - . - The mock instance. - Mocked type. - The number of times a method is allowed to be called. - Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - Verifies that a property has been set on the mock, regardless - of the value but only the specified number of times, and specifying a failure - error message. - - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed); - - - The invocation was not performed on the mock. - The invocation was not call the times specified by - . - The mock instance. - Mocked type. - The number of times a method is allowed to be called. - Message to show if verification fails. - Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - Helper for sequencing return values in the same method. - - - - - Return a sequence of values, once per call. - - - - - Casts the expression to a lambda expression, removing - a cast if there's any. - - - - - Casts the body of the lambda expression to a . - - If the body is not a method call. - - - - Converts the body of the lambda expression into the referenced by it. - - - - - Checks whether the body of the lambda expression is a property access. - - - - - Checks whether the expression is a property access. - - - - - Checks whether the body of the lambda expression is a property indexer, which is true - when the expression is an whose - has - equal to . - - - - - Checks whether the expression is a property indexer, which is true - when the expression is an whose - has - equal to . - - - - - Creates an expression that casts the given expression to the - type. - - - - - TODO: remove this code when https://connect.microsoft.com/VisualStudio/feedback/ViewFeedback.aspx?FeedbackID=331583 - is fixed. - - - - - Provides partial evaluation of subtrees, whenever they can be evaluated locally. - - Matt Warren: http://blogs.msdn.com/mattwar - Documented by InSTEDD: http://www.instedd.org - - - - Performs evaluation and replacement of independent sub-trees - - The root of the expression tree. - A function that decides whether a given expression - node can be part of the local function. - A new tree with sub-trees evaluated and replaced. - - - - Performs evaluation and replacement of independent sub-trees - - The root of the expression tree. - A new tree with sub-trees evaluated and replaced. - - - - Evaluates and replaces sub-trees when first candidate is reached (top-down) - - - - - Performs bottom-up analysis to determine which nodes can possibly - be part of an evaluated sub-tree. - - - - - Ensures the given is not null. - Throws otherwise. - - - - - Ensures the given string is not null or empty. - Throws in the first case, or - in the latter. - - - - - Checks an argument to ensure it is in the specified range including the edges. - - Type of the argument to check, it must be an type. - - The expression containing the name of the argument. - The argument value to check. - The minimun allowed value for the argument. - The maximun allowed value for the argument. - - - - Checks an argument to ensure it is in the specified range excluding the edges. - - Type of the argument to check, it must be an type. - - The expression containing the name of the argument. - The argument value to check. - The minimun allowed value for the argument. - The maximun allowed value for the argument. - - - - Implemented by all generated mock object instances. - - - - - Implemented by all generated mock object instances. - - - - - Reference the Mock that contains this as the mock.Object value. - - - - - Reference the Mock that contains this as the mock.Object value. - - - - - Implements the actual interception and method invocation for - all mocks. - - - - - Get an eventInfo for a given event name. Search type ancestors depth first if necessary. - - Name of the event, with the set_ or get_ prefix already removed - - - - Given a type return all of its ancestors, both types and interfaces. - - The type to find immediate ancestors of - - - - Implements the fluent API. - - - - - Defines the Callback verb for property setter setups. - - Type of the property. - - - - Specifies a callback to invoke when the property is set that receives the - property value being set. - - Callback method to invoke. - - Invokes the given callback with the property value being set. - - mock.SetupSet(x => x.Suspended) - .Callback((bool state) => Console.WriteLine(state)); - - - - - - Allows the specification of a matching condition for an - argument in a method invocation, rather than a specific - argument value. "It" refers to the argument being matched. - - This class allows the setup to match a method invocation - with an arbitrary value, with a value in a specified range, or - even one that matches a given predicate. - - - - - Matches any value of the given type. - - Typically used when the actual argument value for a method - call is not relevant. - - - // Throws an exception for a call to Remove with any string value. - mock.Setup(x => x.Remove(It.IsAny<string>())).Throws(new InvalidOperationException()); - - Type of the value. - - - - Matches any value that satisfies the given predicate. - Type of the argument to check.The predicate used to match the method argument. - Allows the specification of a predicate to perform matching - of method call arguments. - - This example shows how to return the value 1 whenever the argument to the - Do method is an even number. - - mock.Setup(x => x.Do(It.Is<int>(i => i % 2 == 0))) - .Returns(1); - - This example shows how to throw an exception if the argument to the - method is a negative number: - - mock.Setup(x => x.GetUser(It.Is<int>(i => i < 0))) - .Throws(new ArgumentException()); - - - - - - Matches any value that is in the range specified. - Type of the argument to check.The lower bound of the range.The upper bound of the range. - The kind of range. See . - - The following example shows how to expect a method call - with an integer argument within the 0..100 range. - - mock.Setup(x => x.HasInventory( - It.IsAny<string>(), - It.IsInRange(0, 100, Range.Inclusive))) - .Returns(false); - - - - - - Matches a string argument if it matches the given regular expression pattern. - The pattern to use to match the string argument value. - The following example shows how to expect a call to a method where the - string argument matches the given regular expression: - - mock.Setup(x => x.Check(It.IsRegex("[a-z]+"))).Returns(1); - - - - - - Matches a string argument if it matches the given regular expression pattern. - The pattern to use to match the string argument value.The options used to interpret the pattern. - The following example shows how to expect a call to a method where the - string argument matches the given regular expression, in a case insensitive way: - - mock.Setup(x => x.Check(It.IsRegex("[a-z]+", RegexOptions.IgnoreCase))).Returns(1); - - - - - - Matcher to treat static functions as matchers. - - mock.Setup(x => x.StringMethod(A.MagicString())); - - public static class A - { - [Matcher] - public static string MagicString() { return null; } - public static bool MagicString(string arg) - { - return arg == "magic"; - } - } - - Will succeed if: mock.Object.StringMethod("magic"); - and fail with any other call. - - - - - Options to customize the behavior of the mock. - - - - - Causes the mock to always throw - an exception for invocations that don't have a - corresponding setup. - - - - - Will never throw exceptions, returning default - values when necessary (null for reference types, - zero for value types or empty enumerables and arrays). - - - - - Default mock behavior, which equals . - - - - - Exception thrown by mocks when setups are not matched, - the mock is not properly setup, etc. - - - A distinct exception type is provided so that exceptions - thrown by the mock can be differentiated in tests that - expect other exceptions to be thrown (i.e. ArgumentException). - - Richer exception hierarchy/types are not provided as - tests typically should not catch or expect exceptions - from the mocks. These are typically the result of changes - in the tested class or its collaborators implementation, and - result in fixes in the mock setup so that they dissapear and - allow the test to pass. - - - - - - Supports the serialization infrastructure. - - Serialization information. - Streaming context. - - - - Supports the serialization infrastructure. - - Serialization information. - Streaming context. - - - - Made internal as it's of no use for - consumers, but it's important for - our own tests. - - - - - Used by the mock factory to accumulate verification - failures. - - - - - Supports the serialization infrastructure. - - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to Mock type has already been initialized by accessing its Object property. Adding interfaces must be done before that.. - - - - - Looks up a localized string similar to Value cannot be an empty string.. - - - - - Looks up a localized string similar to Can only add interfaces to the mock.. - - - - - Looks up a localized string similar to Can't set return value for void method {0}.. - - - - - Looks up a localized string similar to Constructor arguments cannot be passed for interface mocks.. - - - - - Looks up a localized string similar to A matching constructor for the given arguments was not found on the mocked type.. - - - - - Looks up a localized string similar to Could not locate event for attach or detach method {0}.. - - - - - Looks up a localized string similar to Expression {0} involves a field access, which is not supported. Use properties instead.. - - - - - Looks up a localized string similar to Type to mock must be an interface or an abstract or non-sealed class. . - - - - - Looks up a localized string similar to Cannot retrieve a mock with the given object type {0} as it's not the main type of the mock or any of its additional interfaces. - Please cast the argument to one of the supported types: {1}. - Remember that there's no generics covariance in the CLR, so your object must be one of these types in order for the call to succeed.. - - - - - Looks up a localized string similar to The equals ("==" or "=" in VB) and the conditional 'and' ("&&" or "AndAlso" in VB) operators are the only ones supported in the query specification expression. Unsupported expression: {0}. - - - - - Looks up a localized string similar to LINQ method '{0}' not supported.. - - - - - Looks up a localized string similar to Expression contains a call to a method which is not virtual (overridable in VB) or abstract. Unsupported expression: {0}. - - - - - Looks up a localized string similar to Member {0}.{1} does not exist.. - - - - - Looks up a localized string similar to Method {0}.{1} is public. Use strong-typed Expect overload instead: - mock.Setup(x => x.{1}()); - . - - - - - Looks up a localized string similar to {0} invocation failed with mock behavior {1}. - {2}. - - - - - Looks up a localized string similar to Expected only {0} calls to {1}.. - - - - - Looks up a localized string similar to Expected only one call to {0}.. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock at least {2} times, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock at least once, but was never performed: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock at most {3} times, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock at most once, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock between {2} and {3} times (Exclusive), but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock between {2} and {3} times (Inclusive), but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock exactly {2} times, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock should never have been performed, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock once, but was {4} times: {1}. - - - - - Looks up a localized string similar to All invocations on the mock must have a corresponding setup.. - - - - - Looks up a localized string similar to Object instance was not created by Moq.. - - - - - Looks up a localized string similar to Out expression must evaluate to a constant value.. - - - - - Looks up a localized string similar to Property {0}.{1} does not have a getter.. - - - - - Looks up a localized string similar to Property {0}.{1} does not exist.. - - - - - Looks up a localized string similar to Property {0}.{1} is write-only.. - - - - - Looks up a localized string similar to Property {0}.{1} is read-only.. - - - - - Looks up a localized string similar to Property {0}.{1} does not have a setter.. - - - - - Looks up a localized string similar to Cannot raise a mocked event unless it has been associated (attached) to a concrete event in a mocked object.. - - - - - Looks up a localized string similar to Ref expression must evaluate to a constant value.. - - - - - Looks up a localized string similar to Invocation needs to return a value and therefore must have a corresponding setup that provides it.. - - - - - Looks up a localized string similar to A lambda expression is expected as the argument to It.Is<T>.. - - - - - Looks up a localized string similar to Invocation {0} should not have been made.. - - - - - Looks up a localized string similar to Expression is not a method invocation: {0}. - - - - - Looks up a localized string similar to Expression is not a property access: {0}. - - - - - Looks up a localized string similar to Expression is not a property setter invocation.. - - - - - Looks up a localized string similar to Expression references a method that does not belong to the mocked object: {0}. - - - - - Looks up a localized string similar to Invalid setup on a non-virtual (overridable in VB) member: {0}. - - - - - Looks up a localized string similar to Type {0} does not implement required interface {1}. - - - - - Looks up a localized string similar to Type {0} does not from required type {1}. - - - - - Looks up a localized string similar to To specify a setup for public property {0}.{1}, use the typed overloads, such as: - mock.Setup(x => x.{1}).Returns(value); - mock.SetupGet(x => x.{1}).Returns(value); //equivalent to previous one - mock.SetupSet(x => x.{1}).Callback(callbackDelegate); - . - - - - - Looks up a localized string similar to Unsupported expression: {0}. - - - - - Looks up a localized string similar to Only property accesses are supported in intermediate invocations on a setup. Unsupported expression {0}.. - - - - - Looks up a localized string similar to Expression contains intermediate property access {0}.{1} which is of type {2} and cannot be mocked. Unsupported expression {3}.. - - - - - Looks up a localized string similar to Setter expression cannot use argument matchers that receive parameters.. - - - - - Looks up a localized string similar to Member {0} is not supported for protected mocking.. - - - - - Looks up a localized string similar to Setter expression can only use static custom matchers.. - - - - - Looks up a localized string similar to The following setups were not matched: - {0}. - - - - - Looks up a localized string similar to Invalid verify on a non-virtual (overridable in VB) member: {0}. - - - - - Allows setups to be specified for protected members by using their - name as a string, rather than strong-typing them which is not possible - due to their visibility. - - - - - Specifies a setup for a void method invocation with the given - , optionally specifying arguments for the method call. - - The name of the void method to be invoked. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - - - - Specifies a setup for an invocation on a property or a non void method with the given - , optionally specifying arguments for the method call. - - The name of the method or property to be invoked. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - The return type of the method or property. - - - - Specifies a setup for an invocation on a property getter with the given - . - - The name of the property. - The type of the property. - - - - Specifies a setup for an invocation on a property setter with the given - . - - The name of the property. - The property value. If argument matchers are used, - remember to use rather than . - The type of the property. - - - - Specifies a verify for a void method with the given , - optionally specifying arguments for the method call. Use in conjuntion with the default - . - - The invocation was not call the times specified by - . - The name of the void method to be verified. - The number of times a method is allowed to be called. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - - - - Specifies a verify for an invocation on a property or a non void method with the given - , optionally specifying arguments for the method call. - - The invocation was not call the times specified by - . - The name of the method or property to be invoked. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - The number of times a method is allowed to be called. - The type of return value from the expression. - - - - Specifies a verify for an invocation on a property getter with the given - . - The invocation was not call the times specified by - . - - The name of the property. - The number of times a method is allowed to be called. - The type of the property. - - - - Specifies a setup for an invocation on a property setter with the given - . - - The invocation was not call the times specified by - . - The name of the property. - The number of times a method is allowed to be called. - The property value. - The type of the property. If argument matchers are used, - remember to use rather than . - - - - Allows the specification of a matching condition for an - argument in a protected member setup, rather than a specific - argument value. "ItExpr" refers to the argument being matched. - - - Use this variant of argument matching instead of - for protected setups. - This class allows the setup to match a method invocation - with an arbitrary value, with a value in a specified range, or - even one that matches a given predicate, or null. - - - - - Matches a null value of the given type. - - - Required for protected mocks as the null value cannot be used - directly as it prevents proper method overload selection. - - - - // Throws an exception for a call to Remove with a null string value. - mock.Protected() - .Setup("Remove", ItExpr.IsNull<string>()) - .Throws(new InvalidOperationException()); - - - Type of the value. - - - - Matches any value of the given type. - - - Typically used when the actual argument value for a method - call is not relevant. - - - - // Throws an exception for a call to Remove with any string value. - mock.Protected() - .Setup("Remove", ItExpr.IsAny<string>()) - .Throws(new InvalidOperationException()); - - - Type of the value. - - - - Matches any value that satisfies the given predicate. - - Type of the argument to check. - The predicate used to match the method argument. - - Allows the specification of a predicate to perform matching - of method call arguments. - - - This example shows how to return the value 1 whenever the argument to the - Do method is an even number. - - mock.Protected() - .Setup("Do", ItExpr.Is<int>(i => i % 2 == 0)) - .Returns(1); - - This example shows how to throw an exception if the argument to the - method is a negative number: - - mock.Protected() - .Setup("GetUser", ItExpr.Is<int>(i => i < 0)) - .Throws(new ArgumentException()); - - - - - - Matches any value that is in the range specified. - - Type of the argument to check. - The lower bound of the range. - The upper bound of the range. - The kind of range. See . - - The following example shows how to expect a method call - with an integer argument within the 0..100 range. - - mock.Protected() - .Setup("HasInventory", - ItExpr.IsAny<string>(), - ItExpr.IsInRange(0, 100, Range.Inclusive)) - .Returns(false); - - - - - - Matches a string argument if it matches the given regular expression pattern. - - The pattern to use to match the string argument value. - - The following example shows how to expect a call to a method where the - string argument matches the given regular expression: - - mock.Protected() - .Setup("Check", ItExpr.IsRegex("[a-z]+")) - .Returns(1); - - - - - - Matches a string argument if it matches the given regular expression pattern. - - The pattern to use to match the string argument value. - The options used to interpret the pattern. - - The following example shows how to expect a call to a method where the - string argument matches the given regular expression, in a case insensitive way: - - mock.Protected() - .Setup("Check", ItExpr.IsRegex("[a-z]+", RegexOptions.IgnoreCase)) - .Returns(1); - - - - - - Enables the Protected() method on , - allowing setups to be set for protected members by using their - name as a string, rather than strong-typing them which is not possible - due to their visibility. - - - - - Enable protected setups for the mock. - - Mocked object type. Typically omitted as it can be inferred from the mock instance. - The mock to set the protected setups on. - - - - - - - - - - - - Kind of range to use in a filter specified through - . - - - - - The range includes the to and - from values. - - - - - The range does not include the to and - from values. - - - - - Determines the way default values are generated - calculated for loose mocks. - - - - - Default behavior, which generates empty values for - value types (i.e. default(int)), empty array and - enumerables, and nulls for all other reference types. - - - - - Whenever the default value generated by - is null, replaces this value with a mock (if the type - can be mocked). - - - For sealed classes, a null value will be generated. - - - - - A default implementation of IQueryable for use with QueryProvider - - - - - The is a - static method that returns an IQueryable of Mocks of T which is used to - apply the linq specification to. - - - - - Allows creation custom value matchers that can be used on setups and verification, - completely replacing the built-in class with your own argument - matching rules. - - See also . - - - - - Provided for the sole purpose of rendering the delegate passed to the - matcher constructor if no friendly render lambda is provided. - - - - - Initializes the match with the condition that - will be checked in order to match invocation - values. - The condition to match against actual values. - - - - - - - - - This method is used to set an expression as the last matcher invoked, - which is used in the SetupSet to allow matchers in the prop = value - delegate expression. This delegate is executed in "fluent" mode in - order to capture the value being set, and construct the corresponding - methodcall. - This is also used in the MatcherFactory for each argument expression. - This method ensures that when we execute the delegate, we - also track the matcher that was invoked, so that when we create the - methodcall we build the expression using it, rather than the null/default - value returned from the actual invocation. - - - - - Allows creation custom value matchers that can be used on setups and verification, - completely replacing the built-in class with your own argument - matching rules. - Type of the value to match. - The argument matching is used to determine whether a concrete - invocation in the mock matches a given setup. This - matching mechanism is fully extensible. - - Creating a custom matcher is straightforward. You just need to create a method - that returns a value from a call to with - your matching condition and optional friendly render expression: - - [Matcher] - public Order IsBigOrder() - { - return Match<Order>.Create( - o => o.GrandTotal >= 5000, - /* a friendly expression to render on failures */ - () => IsBigOrder()); - } - - This method can be used in any mock setup invocation: - - mock.Setup(m => m.Submit(IsBigOrder()).Throws<UnauthorizedAccessException>(); - - At runtime, Moq knows that the return value was a matcher (note that the method MUST be - annotated with the [Matcher] attribute in order to determine this) and - evaluates your predicate with the actual value passed into your predicate. - - Another example might be a case where you want to match a lists of orders - that contains a particular one. You might create matcher like the following: - - - public static class Orders - { - [Matcher] - public static IEnumerable<Order> Contains(Order order) - { - return Match<IEnumerable<Order>>.Create(orders => orders.Contains(order)); - } - } - - Now we can invoke this static method instead of an argument in an - invocation: - - var order = new Order { ... }; - var mock = new Mock<IRepository<Order>>(); - - mock.Setup(x => x.Save(Orders.Contains(order))) - .Throws<ArgumentException>(); - - - - - - Tracks the current mock and interception context. - - - - - Having an active fluent mock context means that the invocation - is being performed in "trial" mode, just to gather the - target method and arguments that need to be matched later - when the actual invocation is made. - - - - - A that returns an empty default value - for non-mockeable types, and mocks for all other types (interfaces and - non-sealed classes) that can be mocked. - - - - - Allows querying the universe of mocks for those that behave - according to the LINQ query specification. - - - This entry-point into Linq to Mocks is the only one in the root Moq - namespace to ease discovery. But to get all the mocking extension - methods on Object, a using of Moq.Linq must be done, so that the - polluting of the intellisense for all objects is an explicit opt-in. - - - - - Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. - - The type of the mocked object to query. - - - - Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. - - The predicate with the setup expressions. - The type of the mocked object to query. - - - - Creates an mock object of the indicated type. - - The type of the mocked object. - The mocked object created. - - - - Creates an mock object of the indicated type. - - The predicate with the setup expressions. - The type of the mocked object. - The mocked object created. - - - - Creates the mock query with the underlying queriable implementation. - - - - - Wraps the enumerator inside a queryable. - - - - - Method that is turned into the actual call from .Query{T}, to - transform the queryable query into a normal enumerable query. - This method is never used directly by consumers. - - - - - Extension method used to support Linq-like setup properties that are not virtual but do have - a getter and a setter, thereby allowing the use of Linq to Mocks to quickly initialize Dtos too :) - - - - - Helper extensions that are used by the query translator. - - - - - Retrieves a fluent mock from the given setup expression. - - - - - Defines the number of invocations allowed by a mocked method. - - - - - Specifies that a mocked method should be invoked times as minimum. - The minimun number of times.An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked one time as minimum. - An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked time as maximun. - The maximun number of times.An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked one time as maximun. - An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked between and - times. - The minimun number of times.The maximun number of times. - The kind of range. See . - An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked exactly times. - The times that a method or property can be called.An object defining the allowed number of invocations. - - - - Specifies that a mocked method should not be invoked. - An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked exactly one time. - An object defining the allowed number of invocations. - - - - Determines whether the specified is equal to this instance. - - The to compare with this instance. - - true if the specified is equal to this instance; otherwise, false. - - - - - Returns a hash code for this instance. - - A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. - - - - - Determines whether two specified objects have the same value. - - The first . - - The second . - - true if the value of left is the same as the value of right; otherwise, false. - - - - - Determines whether two specified objects have different values. - - The first . - - The second . - - true if the value of left is different from the value of right; otherwise, false. - - - - + + + + Moq + + + + + Implements the fluent API. + + + + + The expectation will be considered only in the former condition. + + + + + + + The expectation will be considered only in the former condition. + + + + + + + + Setups the get. + + The type of the property. + The expression. + + + + + Setups the set. + + The type of the property. + The setter expression. + + + + + Setups the set. + + The setter expression. + + + + + Handle interception + + the current invocation context + shared data among the strategies during an interception + true if further interception has to be processed, otherwise false + + + + Covarient interface for Mock<T> such that casts between IMock<Employee> to IMock<Person> + are possible. Only covers the covariant members of Mock<T>. + + + + + Exposes the mocked object instance. + + + + + Behavior of the mock, according to the value set in the constructor. + + + + + Whether the base member virtual implementation will be called + for mocked classes if no setup is matched. Defaults to . + + + + + Specifies the behavior to use when returning default values for + unexpected invocations on loose mocks. + + + + + Get an eventInfo for a given event name. Search type ancestors depth first if necessary. + + Name of the event, with the set_ or get_ prefix already removed + + + + Get an eventInfo for a given event name. Search type ancestors depth first if necessary. + Searches also in non public events. + + Name of the event, with the set_ or get_ prefix already removed + + + + Given a type return all of its ancestors, both types and interfaces. + + The type to find immediate ancestors of + + + + Defines the Callback verb and overloads. + + + + + Helper interface used to hide the base + members from the fluent API to make it much cleaner + in Visual Studio intellisense. + + + + + + + + + + + + + + + + + Specifies a callback to invoke when the method is called. + + The callback method to invoke. + + The following example specifies a callback to set a boolean + value that can be used later: + + var called = false; + mock.Setup(x => x.Execute()) + .Callback(() => called = true); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The argument type of the invoked method. + The callback method to invoke. + + Invokes the given callback with the concrete invocation argument value. + + Notice how the specific string argument is retrieved by simply declaring + it as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute(It.IsAny<string>())) + .Callback((string command) => Console.WriteLine(command)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2) => Console.WriteLine(arg1 + arg2)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3) => Console.WriteLine(arg1 + arg2 + arg3)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The type of the sixteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16)); + + + + + + Defines the Callback verb and overloads for callbacks on + setups that return a value. + + Mocked type. + Type of the return value of the setup. + + + + Specifies a callback to invoke when the method is called. + + The callback method to invoke. + + The following example specifies a callback to set a boolean value that can be used later: + + var called = false; + mock.Setup(x => x.Execute()) + .Callback(() => called = true) + .Returns(true); + + Note that in the case of value-returning methods, after the Callback + call you can still specify the return value. + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the argument of the invoked method. + Callback method to invoke. + + Invokes the given callback with the concrete invocation argument value. + + Notice how the specific string argument is retrieved by simply declaring + it as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute(It.IsAny<string>())) + .Callback(command => Console.WriteLine(command)) + .Returns(true); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2) => Console.WriteLine(arg1 + arg2)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3) => Console.WriteLine(arg1 + arg2 + arg3)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The type of the sixteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15, arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16)); + + + + + + Defines the Raises verb. + + + + + Specifies the event that will be raised + when the setup is met. + + An expression that represents an event attach or detach action. + The event arguments to pass for the raised event. + + The following example shows how to raise an event when + the setup is met: + + var mock = new Mock<IContainer>(); + + mock.Setup(add => add.Add(It.IsAny<string>(), It.IsAny<object>())) + .Raises(add => add.Added += null, EventArgs.Empty); + + + + + + Specifies the event that will be raised + when the setup is matched. + + An expression that represents an event attach or detach action. + A function that will build the + to pass when raising the event. + + + + + Specifies the custom event that will be raised + when the setup is matched. + + An expression that represents an event attach or detach action. + The arguments to pass to the custom delegate (non EventHandler-compatible). + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + The type of the thirteenth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + The type of the thirteenth argument received by the expected invocation. + The type of the fourteenth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + The type of the thirteenth argument received by the expected invocation. + The type of the fourteenth argument received by the expected invocation. + The type of the fifteenth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + The type of the thirteenth argument received by the expected invocation. + The type of the fourteenth argument received by the expected invocation. + The type of the fifteenth argument received by the expected invocation. + The type of the sixteenth argument received by the expected invocation. + + + + + Defines the Returns verb. + + Mocked type. + Type of the return value from the expression. + + + + Specifies the value to return. + + The value to return, or . + + Return a true value from the method call: + + mock.Setup(x => x.Execute("ping")) + .Returns(true); + + + + + + Specifies a function that will calculate the value to return from the method. + + The function that will calculate the return value. + + Return a calculated value when the method is called: + + mock.Setup(x => x.Execute("ping")) + .Returns(() => returnValues[0]); + + The lambda expression to retrieve the return value is lazy-executed, + meaning that its value may change depending on the moment the method + is executed and the value the returnValues array has at + that moment. + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the argument of the invoked method. + The function that will calculate the return value. + + Return a calculated value which is evaluated lazily at the time of the invocation. + + The lookup list can change between invocations and the setup + will return different values accordingly. Also, notice how the specific + string argument is retrieved by simply declaring it as part of the lambda + expression: + + + mock.Setup(x => x.Execute(It.IsAny<string>())) + .Returns((string command) => returnValues[command]); + + + + + + Calls the real method of the object and returns its return value. + + The value calculated by the real method of the object. + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2) => arg1 + arg2); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3) => arg1 + arg2 + arg3); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4) => arg1 + arg2 + arg3 + arg4); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5) => arg1 + arg2 + arg3 + arg4 + arg5); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The type of the sixteenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16); + + + + + + Language for ReturnSequence + + + + + Returns value + + + + + Throws an exception + + + + + Throws an exception + + + + + Calls original method + + + + + The first method call or member access will be the + last segment of the expression (depth-first traversal), + which is the one we have to Setup rather than FluentMock. + And the last one is the one we have to Mock.Get rather + than FluentMock. + + + + + Base class for mocks and static helper class with methods that + apply to mocked objects, such as to + retrieve a from an object instance. + + + + + Creates an mock object of the indicated type. + + The type of the mocked object. + The mocked object created. + + + + Creates an mock object of the indicated type. + + The predicate with the specification of how the mocked object should behave. + The type of the mocked object. + The mocked object created. + + + + Initializes a new instance of the class. + + + + + Retrieves the mock object for the given object instance. + + Type of the mock to retrieve. Can be omitted as it's inferred + from the object instance passed in as the instance. + The instance of the mocked object.The mock associated with the mocked object. + The received instance + was not created by Moq. + + The following example shows how to add a new setup to an object + instance which is not the original but rather + the object associated with it: + + // Typed instance, not the mock, is retrieved from some test API. + HttpContextBase context = GetMockContext(); + + // context.Request is the typed object from the "real" API + // so in order to add a setup to it, we need to get + // the mock that "owns" it + Mock<HttpRequestBase> request = Mock.Get(context.Request); + mock.Setup(req => req.AppRelativeCurrentExecutionFilePath) + .Returns(tempUrl); + + + + + + Returns the mocked object value. + + + + + Verifies that all verifiable expectations have been met. + + This example sets up an expectation and marks it as verifiable. After + the mock is used, a Verify() call is issued on the mock + to ensure the method in the setup was invoked: + + var mock = new Mock<IWarehouse>(); + this.Setup(x => x.HasInventory(TALISKER, 50)).Verifiable().Returns(true); + ... + // other test code + ... + // Will throw if the test code has didn't call HasInventory. + this.Verify(); + + Not all verifiable expectations were met. + + + + Verifies all expectations regardless of whether they have + been flagged as verifiable. + + This example sets up an expectation without marking it as verifiable. After + the mock is used, a call is issued on the mock + to ensure that all expectations are met: + + var mock = new Mock<IWarehouse>(); + this.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true); + ... + // other test code + ... + // Will throw if the test code has didn't call HasInventory, even + // that expectation was not marked as verifiable. + this.VerifyAll(); + + At least one expectation was not met. + + + + Gets the interceptor target for the given expression and root mock, + building the intermediate hierarchy of mock objects if necessary. + + + + + Raises the associated event with the given + event argument data. + + + + + Raises the associated event with the given + event argument data. + + + + + Adds an interface implementation to the mock, + allowing setups to be specified for it. + + This method can only be called before the first use + of the mock property, at which + point the runtime type has already been generated + and no more interfaces can be added to it. + + Also, must be an + interface and not a class, which must be specified + when creating the mock instead. + + + The mock type + has already been generated by accessing the property. + + The specified + is not an interface. + + The following example creates a mock for the main interface + and later adds to it to verify + it's called by the consumer code: + + var mock = new Mock<IProcessor>(); + mock.Setup(x => x.Execute("ping")); + + // add IDisposable interface + var disposable = mock.As<IDisposable>(); + disposable.Setup(d => d.Dispose()).Verifiable(); + + Type of interface to cast the mock to. + + + + + + + Behavior of the mock, according to the value set in the constructor. + + + + + Whether the base member virtual implementation will be called + for mocked classes if no setup is matched. Defaults to . + + + + + Specifies the behavior to use when returning default values for + unexpected invocations on loose mocks. + + + + + Gets the mocked object instance. + + + + + Retrieves the type of the mocked object, its generic type argument. + This is used in the auto-mocking of hierarchy access. + + + + + If this is a mock of a delegate, this property contains the method + on the autogenerated interface so that we can convert setup + verify + expressions on the delegate into expressions on the interface proxy. + + + + + Allows to check whether expression conversion to the + must be performed on the mock, without causing unnecessarily early initialization of + the mock instance, which breaks As{T}. + + + + + Specifies the class that will determine the default + value to return when invocations are made that + have no setups and need to return a default + value (for loose mocks). + + + + + Exposes the list of extra interfaces implemented by the mock. + + + + + Utility repository class to use to construct multiple + mocks when consistent verification is + desired for all of them. + + + If multiple mocks will be created during a test, passing + the desired (if different than the + or the one + passed to the repository constructor) and later verifying each + mock can become repetitive and tedious. + + This repository class helps in that scenario by providing a + simplified creation of multiple mocks with a default + (unless overriden by calling + ) and posterior verification. + + + + The following is a straightforward example on how to + create and automatically verify strict mocks using a : + + var repository = new MockRepository(MockBehavior.Strict); + + var foo = repository.Create<IFoo>(); + var bar = repository.Create<IBar>(); + + // no need to call Verifiable() on the setup + // as we'll be validating all of them anyway. + foo.Setup(f => f.Do()); + bar.Setup(b => b.Redo()); + + // exercise the mocks here + + repository.VerifyAll(); + // At this point all setups are already checked + // and an optional MockException might be thrown. + // Note also that because the mocks are strict, any invocation + // that doesn't have a matching setup will also throw a MockException. + + The following examples shows how to setup the repository + to create loose mocks and later verify only verifiable setups: + + var repository = new MockRepository(MockBehavior.Loose); + + var foo = repository.Create<IFoo>(); + var bar = repository.Create<IBar>(); + + // this setup will be verified when we verify the repository + foo.Setup(f => f.Do()).Verifiable(); + + // this setup will NOT be verified + foo.Setup(f => f.Calculate()); + + // this setup will be verified when we verify the repository + bar.Setup(b => b.Redo()).Verifiable(); + + // exercise the mocks here + // note that because the mocks are Loose, members + // called in the interfaces for which no matching + // setups exist will NOT throw exceptions, + // and will rather return default values. + + repository.Verify(); + // At this point verifiable setups are already checked + // and an optional MockException might be thrown. + + The following examples shows how to setup the repository with a + default strict behavior, overriding that default for a + specific mock: + + var repository = new MockRepository(MockBehavior.Strict); + + // this particular one we want loose + var foo = repository.Create<IFoo>(MockBehavior.Loose); + var bar = repository.Create<IBar>(); + + // specify setups + + // exercise the mocks here + + repository.Verify(); + + + + + + + Utility factory class to use to construct multiple + mocks when consistent verification is + desired for all of them. + + + If multiple mocks will be created during a test, passing + the desired (if different than the + or the one + passed to the factory constructor) and later verifying each + mock can become repetitive and tedious. + + This factory class helps in that scenario by providing a + simplified creation of multiple mocks with a default + (unless overriden by calling + ) and posterior verification. + + + + The following is a straightforward example on how to + create and automatically verify strict mocks using a : + + var factory = new MockFactory(MockBehavior.Strict); + + var foo = factory.Create<IFoo>(); + var bar = factory.Create<IBar>(); + + // no need to call Verifiable() on the setup + // as we'll be validating all of them anyway. + foo.Setup(f => f.Do()); + bar.Setup(b => b.Redo()); + + // exercise the mocks here + + factory.VerifyAll(); + // At this point all setups are already checked + // and an optional MockException might be thrown. + // Note also that because the mocks are strict, any invocation + // that doesn't have a matching setup will also throw a MockException. + + The following examples shows how to setup the factory + to create loose mocks and later verify only verifiable setups: + + var factory = new MockFactory(MockBehavior.Loose); + + var foo = factory.Create<IFoo>(); + var bar = factory.Create<IBar>(); + + // this setup will be verified when we verify the factory + foo.Setup(f => f.Do()).Verifiable(); + + // this setup will NOT be verified + foo.Setup(f => f.Calculate()); + + // this setup will be verified when we verify the factory + bar.Setup(b => b.Redo()).Verifiable(); + + // exercise the mocks here + // note that because the mocks are Loose, members + // called in the interfaces for which no matching + // setups exist will NOT throw exceptions, + // and will rather return default values. + + factory.Verify(); + // At this point verifiable setups are already checked + // and an optional MockException might be thrown. + + The following examples shows how to setup the factory with a + default strict behavior, overriding that default for a + specific mock: + + var factory = new MockFactory(MockBehavior.Strict); + + // this particular one we want loose + var foo = factory.Create<IFoo>(MockBehavior.Loose); + var bar = factory.Create<IBar>(); + + // specify setups + + // exercise the mocks here + + factory.Verify(); + + + + + + + Initializes the factory with the given + for newly created mocks from the factory. + + The behavior to use for mocks created + using the factory method if not overriden + by using the overload. + + + + Creates a new mock with the default + specified at factory construction time. + + Type to mock. + A new . + + + var factory = new MockFactory(MockBehavior.Strict); + + var foo = factory.Create<IFoo>(); + // use mock on tests + + factory.VerifyAll(); + + + + + + Creates a new mock with the default + specified at factory construction time and with the + the given constructor arguments for the class. + + + The mock will try to find the best match constructor given the + constructor arguments, and invoke that to initialize the instance. + This applies only to classes, not interfaces. + + Type to mock. + Constructor arguments for mocked classes. + A new . + + + var factory = new MockFactory(MockBehavior.Default); + + var mock = factory.Create<MyBase>("Foo", 25, true); + // use mock on tests + + factory.Verify(); + + + + + + Creates a new mock with the given . + + Type to mock. + Behavior to use for the mock, which overrides + the default behavior specified at factory construction time. + A new . + + The following example shows how to create a mock with a different + behavior to that specified as the default for the factory: + + var factory = new MockFactory(MockBehavior.Strict); + + var foo = factory.Create<IFoo>(MockBehavior.Loose); + + + + + + Creates a new mock with the given + and with the the given constructor arguments for the class. + + + The mock will try to find the best match constructor given the + constructor arguments, and invoke that to initialize the instance. + This applies only to classes, not interfaces. + + Type to mock. + Behavior to use for the mock, which overrides + the default behavior specified at factory construction time. + Constructor arguments for mocked classes. + A new . + + The following example shows how to create a mock with a different + behavior to that specified as the default for the factory, passing + constructor arguments: + + var factory = new MockFactory(MockBehavior.Default); + + var mock = factory.Create<MyBase>(MockBehavior.Strict, "Foo", 25, true); + + + + + + Implements creation of a new mock within the factory. + + Type to mock. + The behavior for the new mock. + Optional arguments for the construction of the mock. + + + + Verifies all verifiable expectations on all mocks created + by this factory. + + + One or more mocks had expectations that were not satisfied. + + + + Verifies all verifiable expectations on all mocks created + by this factory. + + + One or more mocks had expectations that were not satisfied. + + + + Invokes for each mock + in , and accumulates the resulting + that might be + thrown from the action. + + The action to execute against + each mock. + + + + Whether the base member virtual implementation will be called + for mocked classes if no setup is matched. Defaults to . + + + + + Specifies the behavior to use when returning default values for + unexpected invocations on loose mocks. + + + + + Gets the mocks that have been created by this factory and + that will get verified together. + + + + + Access the universe of mocks of the given type, to retrieve those + that behave according to the LINQ query specification. + + The type of the mocked object to query. + + + + Access the universe of mocks of the given type, to retrieve those + that behave according to the LINQ query specification. + + The predicate with the setup expressions. + The type of the mocked object to query. + + + + Creates an mock object of the indicated type. + + The type of the mocked object. + The mocked object created. + + + + Creates an mock object of the indicated type. + + The predicate with the setup expressions. + The type of the mocked object. + The mocked object created. + + + + Creates the mock query with the underlying queriable implementation. + + + + + Wraps the enumerator inside a queryable. + + + + + Method that is turned into the actual call from .Query{T}, to + transform the queryable query into a normal enumerable query. + This method is never used directly by consumers. + + + + + Initializes the repository with the given + for newly created mocks from the repository. + + The behavior to use for mocks created + using the repository method if not overriden + by using the overload. + + + + A that returns an empty default value + for invocations that do not have setups or return values, with loose mocks. + This is the default behavior for a mock. + + + + + Interface to be implemented by classes that determine the + default value of non-expected invocations. + + + + + Defines the default value to return in all the methods returning . + The type of the return value.The value to set as default. + + + + Provides a value for the given member and arguments. + + The member to provide a default value for. + + + + + The intention of is to create a more readable + string representation for the failure message. + + + + + Implements the fluent API. + + + + + Defines the Throws verb. + + + + + Specifies the exception to throw when the method is invoked. + + Exception instance to throw. + + This example shows how to throw an exception when the method is + invoked with an empty string argument: + + mock.Setup(x => x.Execute("")) + .Throws(new ArgumentException()); + + + + + + Specifies the type of exception to throw when the method is invoked. + + Type of exception to instantiate and throw when the setup is matched. + + This example shows how to throw an exception when the method is + invoked with an empty string argument: + + mock.Setup(x => x.Execute("")) + .Throws<ArgumentException>(); + + + + + + Implements the fluent API. + + + + + Defines occurrence members to constraint setups. + + + + + The expected invocation can happen at most once. + + + + var mock = new Mock<ICommand>(); + mock.Setup(foo => foo.Execute("ping")) + .AtMostOnce(); + + + + + + The expected invocation can happen at most specified number of times. + + The number of times to accept calls. + + + var mock = new Mock<ICommand>(); + mock.Setup(foo => foo.Execute("ping")) + .AtMost( 5 ); + + + + + + Defines the Verifiable verb. + + + + + Marks the expectation as verifiable, meaning that a call + to will check if this particular + expectation was met. + + + The following example marks the expectation as verifiable: + + mock.Expect(x => x.Execute("ping")) + .Returns(true) + .Verifiable(); + + + + + + Marks the expectation as verifiable, meaning that a call + to will check if this particular + expectation was met, and specifies a message for failures. + + + The following example marks the expectation as verifiable: + + mock.Expect(x => x.Execute("ping")) + .Returns(true) + .Verifiable("Ping should be executed always!"); + + + + + + Implements the fluent API. + + + + + We need this non-generics base class so that + we can use from + generic code. + + + + + Implements the fluent API. + + + + + Implements the fluent API. + + + + + Implements the fluent API. + + + + + Defines the Callback verb for property getter setups. + + + Mocked type. + Type of the property. + + + + Specifies a callback to invoke when the property is retrieved. + + Callback method to invoke. + + Invokes the given callback with the property value being set. + + mock.SetupGet(x => x.Suspended) + .Callback(() => called = true) + .Returns(true); + + + + + + Implements the fluent API. + + + + + Defines the Returns verb for property get setups. + + Mocked type. + Type of the property. + + + + Specifies the value to return. + + The value to return, or . + + Return a true value from the property getter call: + + mock.SetupGet(x => x.Suspended) + .Returns(true); + + + + + + Specifies a function that will calculate the value to return for the property. + + The function that will calculate the return value. + + Return a calculated value when the property is retrieved: + + mock.SetupGet(x => x.Suspended) + .Returns(() => returnValues[0]); + + The lambda expression to retrieve the return value is lazy-executed, + meaning that its value may change depending on the moment the property + is retrieved and the value the returnValues array has at + that moment. + + + + + Calls the real property of the object and returns its return value. + + The value calculated by the real property of the object. + + + + Implements the fluent API. + + + + + Encapsulates a method that has five parameters and does not return a value. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + + + + Encapsulates a method that has five parameters and returns a value of the type specified by the parameter. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the return value of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The return value of the method that this delegate encapsulates. + + + + Encapsulates a method that has six parameters and does not return a value. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + + + + Encapsulates a method that has six parameters and returns a value of the type specified by the parameter. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the return value of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The return value of the method that this delegate encapsulates. + + + + Encapsulates a method that has seven parameters and does not return a value. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + + + + Encapsulates a method that has seven parameters and returns a value of the type specified by the parameter. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the return value of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The return value of the method that this delegate encapsulates. + + + + Encapsulates a method that has eight parameters and does not return a value. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + + + + Encapsulates a method that has eight parameters and returns a value of the type specified by the parameter. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the return value of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The return value of the method that this delegate encapsulates. + + + + Encapsulates a method that has nine parameters and does not return a value. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + + + + Encapsulates a method that has nine parameters and returns a value of the type specified by the parameter. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the return value of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The return value of the method that this delegate encapsulates. + + + + Encapsulates a method that has ten parameters and does not return a value. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + + + + Encapsulates a method that has ten parameters and returns a value of the type specified by the parameter. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the return value of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The return value of the method that this delegate encapsulates. + + + + Encapsulates a method that has eleven parameters and does not return a value. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the eleventh parameter of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The eleventh parameter of the method that this delegate encapsulates. + + + + Encapsulates a method that has eleven parameters and returns a value of the type specified by the parameter. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the eleventh parameter of the method that this delegate encapsulates. + The type of the return value of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The eleventh parameter of the method that this delegate encapsulates. + The return value of the method that this delegate encapsulates. + + + + Encapsulates a method that has twelve parameters and does not return a value. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the eleventh parameter of the method that this delegate encapsulates. + The type of the twelfth parameter of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The eleventh parameter of the method that this delegate encapsulates. + The twelfth parameter of the method that this delegate encapsulates. + + + + Encapsulates a method that has twelve parameters and returns a value of the type specified by the parameter. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the eleventh parameter of the method that this delegate encapsulates. + The type of the twelfth parameter of the method that this delegate encapsulates. + The type of the return value of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The eleventh parameter of the method that this delegate encapsulates. + The twelfth parameter of the method that this delegate encapsulates. + The return value of the method that this delegate encapsulates. + + + + Encapsulates a method that has thirteen parameters and does not return a value. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the eleventh parameter of the method that this delegate encapsulates. + The type of the twelfth parameter of the method that this delegate encapsulates. + The type of the thirteenth parameter of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The eleventh parameter of the method that this delegate encapsulates. + The twelfth parameter of the method that this delegate encapsulates. + The thirteenth parameter of the method that this delegate encapsulates. + + + + Encapsulates a method that has thirteen parameters and returns a value of the type specified by the parameter. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the eleventh parameter of the method that this delegate encapsulates. + The type of the twelfth parameter of the method that this delegate encapsulates. + The type of the thirteenth parameter of the method that this delegate encapsulates. + The type of the return value of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The eleventh parameter of the method that this delegate encapsulates. + The twelfth parameter of the method that this delegate encapsulates. + The thirteenth parameter of the method that this delegate encapsulates. + The return value of the method that this delegate encapsulates. + + + + Encapsulates a method that has fourteen parameters and does not return a value. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the eleventh parameter of the method that this delegate encapsulates. + The type of the twelfth parameter of the method that this delegate encapsulates. + The type of the thirteenth parameter of the method that this delegate encapsulates. + The type of the fourteenth parameter of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The eleventh parameter of the method that this delegate encapsulates. + The twelfth parameter of the method that this delegate encapsulates. + The thirteenth parameter of the method that this delegate encapsulates. + The fourteenth parameter of the method that this delegate encapsulates. + + + + Encapsulates a method that has fourteen parameters and returns a value of the type specified by the parameter. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the eleventh parameter of the method that this delegate encapsulates. + The type of the twelfth parameter of the method that this delegate encapsulates. + The type of the thirteenth parameter of the method that this delegate encapsulates. + The type of the fourteenth parameter of the method that this delegate encapsulates. + The type of the return value of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The eleventh parameter of the method that this delegate encapsulates. + The twelfth parameter of the method that this delegate encapsulates. + The thirteenth parameter of the method that this delegate encapsulates. + The fourteenth parameter of the method that this delegate encapsulates. + The return value of the method that this delegate encapsulates. + + + + Encapsulates a method that has fifteen parameters and does not return a value. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the eleventh parameter of the method that this delegate encapsulates. + The type of the twelfth parameter of the method that this delegate encapsulates. + The type of the thirteenth parameter of the method that this delegate encapsulates. + The type of the fourteenth parameter of the method that this delegate encapsulates. + The type of the fifteenth parameter of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The eleventh parameter of the method that this delegate encapsulates. + The twelfth parameter of the method that this delegate encapsulates. + The thirteenth parameter of the method that this delegate encapsulates. + The fourteenth parameter of the method that this delegate encapsulates. + The fifteenth parameter of the method that this delegate encapsulates. + + + + Encapsulates a method that has fifteen parameters and returns a value of the type specified by the parameter. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the eleventh parameter of the method that this delegate encapsulates. + The type of the twelfth parameter of the method that this delegate encapsulates. + The type of the thirteenth parameter of the method that this delegate encapsulates. + The type of the fourteenth parameter of the method that this delegate encapsulates. + The type of the fifteenth parameter of the method that this delegate encapsulates. + The type of the return value of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The eleventh parameter of the method that this delegate encapsulates. + The twelfth parameter of the method that this delegate encapsulates. + The thirteenth parameter of the method that this delegate encapsulates. + The fourteenth parameter of the method that this delegate encapsulates. + The fifteenth parameter of the method that this delegate encapsulates. + The return value of the method that this delegate encapsulates. + + + + Encapsulates a method that has sixteen parameters and does not return a value. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the eleventh parameter of the method that this delegate encapsulates. + The type of the twelfth parameter of the method that this delegate encapsulates. + The type of the thirteenth parameter of the method that this delegate encapsulates. + The type of the fourteenth parameter of the method that this delegate encapsulates. + The type of the fifteenth parameter of the method that this delegate encapsulates. + The type of the sixteenth parameter of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The eleventh parameter of the method that this delegate encapsulates. + The twelfth parameter of the method that this delegate encapsulates. + The thirteenth parameter of the method that this delegate encapsulates. + The fourteenth parameter of the method that this delegate encapsulates. + The fifteenth parameter of the method that this delegate encapsulates. + The sixteenth parameter of the method that this delegate encapsulates. + + + + Encapsulates a method that has sixteen parameters and returns a value of the type specified by the parameter. + + The type of the first parameter of the method that this delegate encapsulates. + The type of the second parameter of the method that this delegate encapsulates. + The type of the third parameter of the method that this delegate encapsulates. + The type of the fourth parameter of the method that this delegate encapsulates. + The type of the fifth parameter of the method that this delegate encapsulates. + The type of the sixth parameter of the method that this delegate encapsulates. + The type of the seventh parameter of the method that this delegate encapsulates. + The type of the eighth parameter of the method that this delegate encapsulates. + The type of the nineth parameter of the method that this delegate encapsulates. + The type of the tenth parameter of the method that this delegate encapsulates. + The type of the eleventh parameter of the method that this delegate encapsulates. + The type of the twelfth parameter of the method that this delegate encapsulates. + The type of the thirteenth parameter of the method that this delegate encapsulates. + The type of the fourteenth parameter of the method that this delegate encapsulates. + The type of the fifteenth parameter of the method that this delegate encapsulates. + The type of the sixteenth parameter of the method that this delegate encapsulates. + The type of the return value of the method that this delegate encapsulates. + The first parameter of the method that this delegate encapsulates. + The second parameter of the method that this delegate encapsulates. + The third parameter of the method that this delegate encapsulates. + The fourth parameter of the method that this delegate encapsulates. + The fifth parameter of the method that this delegate encapsulates. + The sixth parameter of the method that this delegate encapsulates. + The seventh parameter of the method that this delegate encapsulates. + The eighth parameter of the method that this delegate encapsulates. + The nineth parameter of the method that this delegate encapsulates. + The tenth parameter of the method that this delegate encapsulates. + The eleventh parameter of the method that this delegate encapsulates. + The twelfth parameter of the method that this delegate encapsulates. + The thirteenth parameter of the method that this delegate encapsulates. + The fourteenth parameter of the method that this delegate encapsulates. + The fifteenth parameter of the method that this delegate encapsulates. + The sixteenth parameter of the method that this delegate encapsulates. + The return value of the method that this delegate encapsulates. + + + + Provides additional methods on mocks. + + + Those methods are useful for Testeroids support. + + + + + Resets the calls previously made on the specified mock. + + The mock whose calls need to be reset. + + + + Helper class to setup a full trace between many mocks + + + + + Initialize a trace setup + + + + + Allow sequence to be repeated + + + + + define nice api + + + + + Perform an expectation in the trace. + + + + + Marks a method as a matcher, which allows complete replacement + of the built-in class with your own argument + matching rules. + + + This feature has been deprecated in favor of the new + and simpler . + + + The argument matching is used to determine whether a concrete + invocation in the mock matches a given setup. This + matching mechanism is fully extensible. + + + There are two parts of a matcher: the compiler matcher + and the runtime matcher. + + + Compiler matcher + Used to satisfy the compiler requirements for the + argument. Needs to be a method optionally receiving any arguments + you might need for the matching, but with a return type that + matches that of the argument. + + Let's say I want to match a lists of orders that contains + a particular one. I might create a compiler matcher like the following: + + + public static class Orders + { + [Matcher] + public static IEnumerable<Order> Contains(Order order) + { + return null; + } + } + + Now we can invoke this static method instead of an argument in an + invocation: + + var order = new Order { ... }; + var mock = new Mock<IRepository<Order>>(); + + mock.Setup(x => x.Save(Orders.Contains(order))) + .Throws<ArgumentException>(); + + Note that the return value from the compiler matcher is irrelevant. + This method will never be called, and is just used to satisfy the + compiler and to signal Moq that this is not a method that we want + to be invoked at runtime. + + + + Runtime matcher + + The runtime matcher is the one that will actually perform evaluation + when the test is run, and is defined by convention to have the + same signature as the compiler matcher, but where the return + value is the first argument to the call, which contains the + object received by the actual invocation at runtime: + + public static bool Contains(IEnumerable<Order> orders, Order order) + { + return orders.Contains(order); + } + + At runtime, the mocked method will be invoked with a specific + list of orders. This value will be passed to this runtime + matcher as the first argument, while the second argument is the + one specified in the setup (x.Save(Orders.Contains(order))). + + The boolean returned determines whether the given argument has been + matched. If all arguments to the expected method are matched, then + the setup matches and is evaluated. + + + + + + Using this extensible infrastructure, you can easily replace the entire + set of matchers with your own. You can also avoid the + typical (and annoying) lengthy expressions that result when you have + multiple arguments that use generics. + + + The following is the complete example explained above: + + public static class Orders + { + [Matcher] + public static IEnumerable<Order> Contains(Order order) + { + return null; + } + + public static bool Contains(IEnumerable<Order> orders, Order order) + { + return orders.Contains(order); + } + } + + And the concrete test using this matcher: + + var order = new Order { ... }; + var mock = new Mock<IRepository<Order>>(); + + mock.Setup(x => x.Save(Orders.Contains(order))) + .Throws<ArgumentException>(); + + // use mock, invoke Save, and have the matcher filter. + + + + + + Provides a mock implementation of . + + Any interface type can be used for mocking, but for classes, only abstract and virtual members can be mocked. + + The behavior of the mock with regards to the setups and the actual calls is determined + by the optional that can be passed to the + constructor. + + Type to mock, which can be an interface or a class. + The following example shows establishing setups with specific values + for method invocations: + + // Arrange + var order = new Order(TALISKER, 50); + var mock = new Mock<IWarehouse>(); + + mock.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true); + + // Act + order.Fill(mock.Object); + + // Assert + Assert.True(order.IsFilled); + + The following example shows how to use the class + to specify conditions for arguments instead of specific values: + + // Arrange + var order = new Order(TALISKER, 50); + var mock = new Mock<IWarehouse>(); + + // shows how to expect a value within a range + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsInRange(0, 100, Range.Inclusive))) + .Returns(false); + + // shows how to throw for unexpected calls. + mock.Setup(x => x.Remove( + It.IsAny<string>(), + It.IsAny<int>())) + .Throws(new InvalidOperationException()); + + // Act + order.Fill(mock.Object); + + // Assert + Assert.False(order.IsFilled); + + + + + + Obsolete. + + + + + Obsolete. + + + + + Obsolete. + + + + + Obsolete. + + + + + Obsolete. + + + + + Ctor invoked by AsTInterface exclusively. + + + + + Initializes an instance of the mock with default behavior. + + var mock = new Mock<IFormatProvider>(); + + + + + Initializes an instance of the mock with default behavior and with + the given constructor arguments for the class. (Only valid when is a class) + + The mock will try to find the best match constructor given the constructor arguments, and invoke that + to initialize the instance. This applies only for classes, not interfaces. + + var mock = new Mock<MyProvider>(someArgument, 25); + Optional constructor arguments if the mocked type is a class. + + + + Initializes an instance of the mock with the specified behavior. + + var mock = new Mock<IFormatProvider>(MockBehavior.Relaxed); + Behavior of the mock. + + + + Initializes an instance of the mock with a specific behavior with + the given constructor arguments for the class. + + The mock will try to find the best match constructor given the constructor arguments, and invoke that + to initialize the instance. This applies only to classes, not interfaces. + + var mock = new Mock<MyProvider>(someArgument, 25); + Behavior of the mock.Optional constructor arguments if the mocked type is a class. + + + + Returns the mocked object value. + + + + + Specifies a setup on the mocked type for a call to + to a void method. + + If more than one setup is specified for the same method or property, + the latest one wins and is the one that will be executed. + Lambda expression that specifies the expected method invocation. + + var mock = new Mock<IProcessor>(); + mock.Setup(x => x.Execute("ping")); + + + + + + Specifies a setup on the mocked type for a call to + to a value returning method. + Type of the return value. Typically omitted as it can be inferred from the expression. + If more than one setup is specified for the same method or property, + the latest one wins and is the one that will be executed. + Lambda expression that specifies the method invocation. + + mock.Setup(x => x.HasInventory("Talisker", 50)).Returns(true); + + + + + + Specifies a setup on the mocked type for a call to + to a property getter. + + If more than one setup is set for the same property getter, + the latest one wins and is the one that will be executed. + Type of the property. Typically omitted as it can be inferred from the expression.Lambda expression that specifies the property getter. + + mock.SetupGet(x => x.Suspended) + .Returns(true); + + + + + + Specifies a setup on the mocked type for a call to + to a property setter. + + If more than one setup is set for the same property setter, + the latest one wins and is the one that will be executed. + + This overloads allows the use of a callback already + typed for the property type. + + Type of the property. Typically omitted as it can be inferred from the expression.The Lambda expression that sets a property to a value. + + mock.SetupSet(x => x.Suspended = true); + + + + + + Specifies a setup on the mocked type for a call to + to a property setter. + + If more than one setup is set for the same property setter, + the latest one wins and is the one that will be executed. + Lambda expression that sets a property to a value. + + mock.SetupSet(x => x.Suspended = true); + + + + + + Specifies that the given property should have "property behavior", + meaning that setting its value will cause it to be saved and + later returned when the property is requested. (this is also + known as "stubbing"). + + Type of the property, inferred from the property + expression (does not need to be specified). + Property expression to stub. + If you have an interface with an int property Value, you might + stub it using the following straightforward call: + + var mock = new Mock<IHaveValue>(); + mock.Stub(v => v.Value); + + After the Stub call has been issued, setting and + retrieving the object value will behave as expected: + + IHaveValue v = mock.Object; + + v.Value = 5; + Assert.Equal(5, v.Value); + + + + + + Specifies that the given property should have "property behavior", + meaning that setting its value will cause it to be saved and + later returned when the property is requested. This overload + allows setting the initial value for the property. (this is also + known as "stubbing"). + + Type of the property, inferred from the property + expression (does not need to be specified). + Property expression to stub.Initial value for the property. + If you have an interface with an int property Value, you might + stub it using the following straightforward call: + + var mock = new Mock<IHaveValue>(); + mock.SetupProperty(v => v.Value, 5); + + After the SetupProperty call has been issued, setting and + retrieving the object value will behave as expected: + + IHaveValue v = mock.Object; + // Initial value was stored + Assert.Equal(5, v.Value); + + // New value set which changes the initial value + v.Value = 6; + Assert.Equal(6, v.Value); + + + + + + Specifies that the all properties on the mock should have "property behavior", + meaning that setting its value will cause it to be saved and + later returned when the property is requested. (this is also + known as "stubbing"). The default value for each property will be the + one generated as specified by the property for the mock. + + If the mock is set to , + the mocked default values will also get all properties setup recursively. + + + + + + + + Verifies that a specific invocation matching the given expression was performed on the mock. Use + in conjuntion with the default . + + This example assumes that the mock has been used, and later we want to verify that a given + invocation with specific parameters was performed: + + var mock = new Mock<IProcessor>(); + // exercise mock + //... + // Will throw if the test code didn't call Execute with a "ping" string argument. + mock.Verify(proc => proc.Execute("ping")); + + The invocation was not performed on the mock.Expression to verify. + + + + Verifies that a specific invocation matching the given expression was performed on the mock. Use + in conjuntion with the default . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called. + + + + Verifies that a specific invocation matching the given expression was performed on the mock. Use + in conjuntion with the default . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called. + + + + Verifies that a specific invocation matching the given expression was performed on the mock, + specifying a failure error message. Use in conjuntion with the default + . + + This example assumes that the mock has been used, and later we want to verify that a given + invocation with specific parameters was performed: + + var mock = new Mock<IProcessor>(); + // exercise mock + //... + // Will throw if the test code didn't call Execute with a "ping" string argument. + mock.Verify(proc => proc.Execute("ping")); + + The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. + + + + Verifies that a specific invocation matching the given expression was performed on the mock, + specifying a failure error message. Use in conjuntion with the default + . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails. + + + + Verifies that a specific invocation matching the given expression was performed on the mock, + specifying a failure error message. Use in conjuntion with the default + . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails. + + + + Verifies that a specific invocation matching the given expression was performed on the mock. Use + in conjuntion with the default . + + This example assumes that the mock has been used, and later we want to verify that a given + invocation with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't call HasInventory. + mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50)); + + The invocation was not performed on the mock.Expression to verify.Type of return value from the expression. + + + + Verifies that a specific invocation matching the given + expression was performed on the mock. Use in conjuntion + with the default . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Type of return value from the expression. + + + + Verifies that a specific invocation matching the given + expression was performed on the mock. Use in conjuntion + with the default . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Type of return value from the expression. + + + + Verifies that a specific invocation matching the given + expression was performed on the mock, specifying a failure + error message. + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't call HasInventory. + mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50), "When filling orders, inventory has to be checked"); + + The invocation was not performed on the mock.Expression to verify.Message to show if verification fails.Type of return value from the expression. + + + + Verifies that a specific invocation matching the given + expression was performed on the mock, specifying a failure + error message. + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails.Type of return value from the expression. + + + + Verifies that a property was read on the mock. + + This example assumes that the mock has been used, + and later we want to verify that a given property + was retrieved from it: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't retrieve the IsClosed property. + mock.VerifyGet(warehouse => warehouse.IsClosed); + + The invocation was not performed on the mock.Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock, specifying a failure + error message. + + This example assumes that the mock has been used, + and later we want to verify that a given property + was retrieved from it: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't retrieve the IsClosed property. + mock.VerifyGet(warehouse => warehouse.IsClosed); + + The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock, specifying a failure + error message. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock, specifying a failure + error message. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was set on the mock. + + This example assumes that the mock has been used, + and later we want to verify that a given property + was set on it: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed = true); + + The invocation was not performed on the mock.Expression to verify. + + + + Verifies that a property was set on the mock. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify. + + + + Verifies that a property was set on the mock. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify. + + + + Verifies that a property was set on the mock, specifying + a failure message. + + This example assumes that the mock has been used, + and later we want to verify that a given property + was set on it: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed = true, "Warehouse should always be closed after the action"); + + The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. + + + + Verifies that a property was set on the mock, specifying + a failure message. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. + + + + Verifies that a property was set on the mock, specifying + a failure message. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. + + + + Raises the event referenced in using + the given argument. + + The argument is + invalid for the target event invocation, or the is + not an event attach or detach expression. + + The following example shows how to raise a event: + + var mock = new Mock<IViewModel>(); + + mock.Raise(x => x.PropertyChanged -= null, new PropertyChangedEventArgs("Name")); + + + This example shows how to invoke an event with a custom event arguments + class in a view that will cause its corresponding presenter to + react by changing its state: + + var mockView = new Mock<IOrdersView>(); + var presenter = new OrdersPresenter(mockView.Object); + + // Check that the presenter has no selection by default + Assert.Null(presenter.SelectedOrder); + + // Raise the event with a specific arguments data + mockView.Raise(v => v.SelectionChanged += null, new OrderEventArgs { Order = new Order("moq", 500) }); + + // Now the presenter reacted to the event, and we have a selected order + Assert.NotNull(presenter.SelectedOrder); + Assert.Equal("moq", presenter.SelectedOrder.ProductName); + + + + + + Raises the event referenced in using + the given argument for a non-EventHandler typed event. + + The arguments are + invalid for the target event invocation, or the is + not an event attach or detach expression. + + The following example shows how to raise a custom event that does not adhere to + the standard EventHandler: + + var mock = new Mock<IViewModel>(); + + mock.Raise(x => x.MyEvent -= null, "Name", bool, 25); + + + + + + Exposes the mocked object instance. + + + + + + + + Provides legacy API members as extensions so that + existing code continues to compile, but new code + doesn't see then. + + + + + Obsolete. + + + + + Obsolete. + + + + + Obsolete. + + + + + Provides additional methods on mocks. + + + Provided as extension methods as they confuse the compiler + with the overloads taking Action. + + + + + Specifies a setup on the mocked type for a call to + to a property setter, regardless of its value. + + + If more than one setup is set for the same property setter, + the latest one wins and is the one that will be executed. + + Type of the property. Typically omitted as it can be inferred from the expression. + Type of the mock. + The target mock for the setup. + Lambda expression that specifies the property setter. + + + mock.SetupSet(x => x.Suspended); + + + + This method is not legacy, but must be on an extension method to avoid + confusing the compiler with the new Action syntax. + + + + + Verifies that a property has been set on the mock, regarless of its value. + + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed); + + + The invocation was not performed on the mock. + Expression to verify. + The mock instance. + Mocked type. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + Verifies that a property has been set on the mock, specifying a failure + error message. + + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed); + + + The invocation was not performed on the mock. + Expression to verify. + Message to show if verification fails. + The mock instance. + Mocked type. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + Verifies that a property has been set on the mock, regardless + of the value but only the specified number of times. + + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed); + + + The invocation was not performed on the mock. + The invocation was not call the times specified by + . + The mock instance. + Mocked type. + The number of times a method is allowed to be called. + Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + Verifies that a property has been set on the mock, regardless + of the value but only the specified number of times, and specifying a failure + error message. + + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed); + + + The invocation was not performed on the mock. + The invocation was not call the times specified by + . + The mock instance. + Mocked type. + The number of times a method is allowed to be called. + Message to show if verification fails. + Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + Helper for sequencing return values in the same method. + + + + + Return a sequence of values, once per call. + + + + + Casts the expression to a lambda expression, removing + a cast if there's any. + + + + + Casts the body of the lambda expression to a . + + If the body is not a method call. + + + + Converts the body of the lambda expression into the referenced by it. + + + + + Checks whether the body of the lambda expression is a property access. + + + + + Checks whether the expression is a property access. + + + + + Checks whether the body of the lambda expression is a property indexer, which is true + when the expression is an whose + has + equal to . + + + + + Checks whether the expression is a property indexer, which is true + when the expression is an whose + has + equal to . + + + + + Creates an expression that casts the given expression to the + type. + + + + + TODO: remove this code when https://connect.microsoft.com/VisualStudio/feedback/ViewFeedback.aspx?FeedbackID=331583 + is fixed. + + + + + Extracts, into a common form, information from a + around either a (for a normal method call) + or a (for a delegate invocation). + + + + + Tests if a type is a delegate type (subclasses ). + + + + + Provides partial evaluation of subtrees, whenever they can be evaluated locally. + + Matt Warren: http://blogs.msdn.com/mattwar + Documented by InSTEDD: http://www.instedd.org + + + + Performs evaluation and replacement of independent sub-trees + + The root of the expression tree. + A function that decides whether a given expression + node can be part of the local function. + A new tree with sub-trees evaluated and replaced. + + + + Performs evaluation and replacement of independent sub-trees + + The root of the expression tree. + A new tree with sub-trees evaluated and replaced. + + + + Evaluates and replaces sub-trees when first candidate is reached (top-down) + + + + + Performs bottom-up analysis to determine which nodes can possibly + be part of an evaluated sub-tree. + + + + + Ensures the given is not null. + Throws otherwise. + + + + + Ensures the given string is not null or empty. + Throws in the first case, or + in the latter. + + + + + Checks an argument to ensure it is in the specified range including the edges. + + Type of the argument to check, it must be an type. + + The expression containing the name of the argument. + The argument value to check. + The minimun allowed value for the argument. + The maximun allowed value for the argument. + + + + Checks an argument to ensure it is in the specified range excluding the edges. + + Type of the argument to check, it must be an type. + + The expression containing the name of the argument. + The argument value to check. + The minimun allowed value for the argument. + The maximun allowed value for the argument. + + + + Implemented by all generated mock object instances. + + + + + Implemented by all generated mock object instances. + + + + + Reference the Mock that contains this as the mock.Object value. + + + + + Reference the Mock that contains this as the mock.Object value. + + + + + Implements the actual interception and method invocation for + all mocks. + + + + + Implements the fluent API. + + + + + Defines the Callback verb for property setter setups. + + Type of the property. + + + + Specifies a callback to invoke when the property is set that receives the + property value being set. + + Callback method to invoke. + + Invokes the given callback with the property value being set. + + mock.SetupSet(x => x.Suspended) + .Callback((bool state) => Console.WriteLine(state)); + + + + + + Allows the specification of a matching condition for an + argument in a method invocation, rather than a specific + argument value. "It" refers to the argument being matched. + + This class allows the setup to match a method invocation + with an arbitrary value, with a value in a specified range, or + even one that matches a given predicate. + + + + + Matches any value of the given type. + + Typically used when the actual argument value for a method + call is not relevant. + + + // Throws an exception for a call to Remove with any string value. + mock.Setup(x => x.Remove(It.IsAny<string>())).Throws(new InvalidOperationException()); + + Type of the value. + + + + Matches any value of the given type, except null. + Type of the value. + + + + Matches any value that satisfies the given predicate. + Type of the argument to check.The predicate used to match the method argument. + Allows the specification of a predicate to perform matching + of method call arguments. + + This example shows how to return the value 1 whenever the argument to the + Do method is an even number. + + mock.Setup(x => x.Do(It.Is<int>(i => i % 2 == 0))) + .Returns(1); + + This example shows how to throw an exception if the argument to the + method is a negative number: + + mock.Setup(x => x.GetUser(It.Is<int>(i => i < 0))) + .Throws(new ArgumentException()); + + + + + + Matches any value that is in the range specified. + Type of the argument to check.The lower bound of the range.The upper bound of the range. + The kind of range. See . + + The following example shows how to expect a method call + with an integer argument within the 0..100 range. + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsInRange(0, 100, Range.Inclusive))) + .Returns(false); + + + + + + Matches any value that is present in the sequence specified. + Type of the argument to check.The sequence of possible values. + The following example shows how to expect a method call + with an integer argument with value from a list. + + var values = new List<int> { 1, 2, 3 }; + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsIn(values))) + .Returns(false); + + + + + + Matches any value that is present in the sequence specified. + Type of the argument to check.The sequence of possible values. + The following example shows how to expect a method call + with an integer argument with a value of 1, 2, or 3. + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsIn(1, 2, 3))) + .Returns(false); + + + + + + Matches any value that is not found in the sequence specified. + Type of the argument to check.The sequence of disallowed values. + The following example shows how to expect a method call + with an integer argument with value not found from a list. + + var values = new List<int> { 1, 2, 3 }; + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsNotIn(values))) + .Returns(false); + + + + + + Matches any value that is not found in the sequence specified. + Type of the argument to check.The sequence of disallowed values. + The following example shows how to expect a method call + with an integer argument of any value except 1, 2, or 3. + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsNotIn(1, 2, 3))) + .Returns(false); + + + + + + Matches a string argument if it matches the given regular expression pattern. + The pattern to use to match the string argument value. + The following example shows how to expect a call to a method where the + string argument matches the given regular expression: + + mock.Setup(x => x.Check(It.IsRegex("[a-z]+"))).Returns(1); + + + + + + Matches a string argument if it matches the given regular expression pattern. + The pattern to use to match the string argument value.The options used to interpret the pattern. + The following example shows how to expect a call to a method where the + string argument matches the given regular expression, in a case insensitive way: + + mock.Setup(x => x.Check(It.IsRegex("[a-z]+", RegexOptions.IgnoreCase))).Returns(1); + + + + + + Matcher to treat static functions as matchers. + + mock.Setup(x => x.StringMethod(A.MagicString())); + + public static class A + { + [Matcher] + public static string MagicString() { return null; } + public static bool MagicString(string arg) + { + return arg == "magic"; + } + } + + Will succeed if: mock.Object.StringMethod("magic"); + and fail with any other call. + + + + + Options to customize the behavior of the mock. + + + + + Causes the mock to always throw + an exception for invocations that don't have a + corresponding setup. + + + + + Will never throw exceptions, returning default + values when necessary (null for reference types, + zero for value types or empty enumerables and arrays). + + + + + Default mock behavior, which equals . + + + + + Exception thrown by mocks when setups are not matched, + the mock is not properly setup, etc. + + + A distinct exception type is provided so that exceptions + thrown by the mock can be differentiated in tests that + expect other exceptions to be thrown (i.e. ArgumentException). + + Richer exception hierarchy/types are not provided as + tests typically should not catch or expect exceptions + from the mocks. These are typically the result of changes + in the tested class or its collaborators implementation, and + result in fixes in the mock setup so that they dissapear and + allow the test to pass. + + + + + + Supports the serialization infrastructure. + + Serialization information. + Streaming context. + + + + Supports the serialization infrastructure. + + Serialization information. + Streaming context. + + + + Indicates whether this exception is a verification fault raised by Verify() + + + + + Made internal as it's of no use for + consumers, but it's important for + our own tests. + + + + + Used by the mock factory to accumulate verification + failures. + + + + + Supports the serialization infrastructure. + + + + + A strongly-typed resource class, for looking up localized strings, etc. + + + + + Returns the cached ResourceManager instance used by this class. + + + + + Overrides the current thread's CurrentUICulture property for all + resource lookups using this strongly typed resource class. + + + + + Looks up a localized string similar to Mock type has already been initialized by accessing its Object property. Adding interfaces must be done before that.. + + + + + Looks up a localized string similar to Value cannot be an empty string.. + + + + + Looks up a localized string similar to Can only add interfaces to the mock.. + + + + + Looks up a localized string similar to Can't set return value for void method {0}.. + + + + + Looks up a localized string similar to Constructor arguments cannot be passed for delegate mocks.. + + + + + Looks up a localized string similar to Constructor arguments cannot be passed for interface mocks.. + + + + + Looks up a localized string similar to A matching constructor for the given arguments was not found on the mocked type.. + + + + + Looks up a localized string similar to Could not locate event for attach or detach method {0}.. + + + + + Looks up a localized string similar to Expression {0} involves a field access, which is not supported. Use properties instead.. + + + + + Looks up a localized string similar to Type to mock must be an interface or an abstract or non-sealed class. . + + + + + Looks up a localized string similar to Cannot retrieve a mock with the given object type {0} as it's not the main type of the mock or any of its additional interfaces. + Please cast the argument to one of the supported types: {1}. + Remember that there's no generics covariance in the CLR, so your object must be one of these types in order for the call to succeed.. + + + + + Looks up a localized string similar to The equals ("==" or "=" in VB) and the conditional 'and' ("&&" or "AndAlso" in VB) operators are the only ones supported in the query specification expression. Unsupported expression: {0}. + + + + + Looks up a localized string similar to LINQ method '{0}' not supported.. + + + + + Looks up a localized string similar to Expression contains a call to a method which is not virtual (overridable in VB) or abstract. Unsupported expression: {0}. + + + + + Looks up a localized string similar to Member {0}.{1} does not exist.. + + + + + Looks up a localized string similar to Method {0}.{1} is public. Use strong-typed Expect overload instead: + mock.Setup(x => x.{1}()); + . + + + + + Looks up a localized string similar to {0} invocation failed with mock behavior {1}. + {2}. + + + + + Looks up a localized string similar to Expected only {0} calls to {1}.. + + + + + Looks up a localized string similar to Expected only one call to {0}.. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock at least {2} times, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock at least once, but was never performed: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock at most {3} times, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock at most once, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock between {2} and {3} times (Exclusive), but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock between {2} and {3} times (Inclusive), but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock exactly {2} times, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock should never have been performed, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock once, but was {4} times: {1}. + + + + + Looks up a localized string similar to All invocations on the mock must have a corresponding setup.. + + + + + Looks up a localized string similar to Object instance was not created by Moq.. + + + + + Looks up a localized string similar to Out expression must evaluate to a constant value.. + + + + + Looks up a localized string similar to Property {0}.{1} does not have a getter.. + + + + + Looks up a localized string similar to Property {0}.{1} does not exist.. + + + + + Looks up a localized string similar to Property {0}.{1} is write-only.. + + + + + Looks up a localized string similar to Property {0}.{1} is read-only.. + + + + + Looks up a localized string similar to Property {0}.{1} does not have a setter.. + + + + + Looks up a localized string similar to Cannot raise a mocked event unless it has been associated (attached) to a concrete event in a mocked object.. + + + + + Looks up a localized string similar to Ref expression must evaluate to a constant value.. + + + + + Looks up a localized string similar to Invocation needs to return a value and therefore must have a corresponding setup that provides it.. + + + + + Looks up a localized string similar to A lambda expression is expected as the argument to It.Is<T>.. + + + + + Looks up a localized string similar to Invocation {0} should not have been made.. + + + + + Looks up a localized string similar to Expression is not a method invocation: {0}. + + + + + Looks up a localized string similar to Expression is not a property access: {0}. + + + + + Looks up a localized string similar to Expression is not a property setter invocation.. + + + + + Looks up a localized string similar to Expression references a method that does not belong to the mocked object: {0}. + + + + + Looks up a localized string similar to Invalid setup on a non-virtual (overridable in VB) member: {0}. + + + + + Looks up a localized string similar to Type {0} does not implement required interface {1}. + + + + + Looks up a localized string similar to Type {0} does not from required type {1}. + + + + + Looks up a localized string similar to To specify a setup for public property {0}.{1}, use the typed overloads, such as: + mock.Setup(x => x.{1}).Returns(value); + mock.SetupGet(x => x.{1}).Returns(value); //equivalent to previous one + mock.SetupSet(x => x.{1}).Callback(callbackDelegate); + . + + + + + Looks up a localized string similar to Unsupported expression: {0}. + + + + + Looks up a localized string similar to Only property accesses are supported in intermediate invocations on a setup. Unsupported expression {0}.. + + + + + Looks up a localized string similar to Expression contains intermediate property access {0}.{1} which is of type {2} and cannot be mocked. Unsupported expression {3}.. + + + + + Looks up a localized string similar to Setter expression cannot use argument matchers that receive parameters.. + + + + + Looks up a localized string similar to Member {0} is not supported for protected mocking.. + + + + + Looks up a localized string similar to Setter expression can only use static custom matchers.. + + + + + Looks up a localized string similar to The following setups were not matched: + {0}. + + + + + Looks up a localized string similar to Invalid verify on a non-virtual (overridable in VB) member: {0}. + + + + + Allows setups to be specified for protected members by using their + name as a string, rather than strong-typing them which is not possible + due to their visibility. + + + + + Specifies a setup for a void method invocation with the given + , optionally specifying arguments for the method call. + + The name of the void method to be invoked. + The optional arguments for the invocation. If argument matchers are used, + remember to use rather than . + + + + Specifies a setup for an invocation on a property or a non void method with the given + , optionally specifying arguments for the method call. + + The name of the method or property to be invoked. + The optional arguments for the invocation. If argument matchers are used, + remember to use rather than . + The return type of the method or property. + + + + Specifies a setup for an invocation on a property getter with the given + . + + The name of the property. + The type of the property. + + + + Specifies a setup for an invocation on a property setter with the given + . + + The name of the property. + The property value. If argument matchers are used, + remember to use rather than . + The type of the property. + + + + Specifies a verify for a void method with the given , + optionally specifying arguments for the method call. Use in conjuntion with the default + . + + The invocation was not call the times specified by + . + The name of the void method to be verified. + The number of times a method is allowed to be called. + The optional arguments for the invocation. If argument matchers are used, + remember to use rather than . + + + + Specifies a verify for an invocation on a property or a non void method with the given + , optionally specifying arguments for the method call. + + The invocation was not call the times specified by + . + The name of the method or property to be invoked. + The optional arguments for the invocation. If argument matchers are used, + remember to use rather than . + The number of times a method is allowed to be called. + The type of return value from the expression. + + + + Specifies a verify for an invocation on a property getter with the given + . + The invocation was not call the times specified by + . + + The name of the property. + The number of times a method is allowed to be called. + The type of the property. + + + + Specifies a setup for an invocation on a property setter with the given + . + + The invocation was not call the times specified by + . + The name of the property. + The number of times a method is allowed to be called. + The property value. + The type of the property. If argument matchers are used, + remember to use rather than . + + + + Allows the specification of a matching condition for an + argument in a protected member setup, rather than a specific + argument value. "ItExpr" refers to the argument being matched. + + + Use this variant of argument matching instead of + for protected setups. + This class allows the setup to match a method invocation + with an arbitrary value, with a value in a specified range, or + even one that matches a given predicate, or null. + + + + + Matches a null value of the given type. + + + Required for protected mocks as the null value cannot be used + directly as it prevents proper method overload selection. + + + + // Throws an exception for a call to Remove with a null string value. + mock.Protected() + .Setup("Remove", ItExpr.IsNull<string>()) + .Throws(new InvalidOperationException()); + + + Type of the value. + + + + Matches any value of the given type. + + + Typically used when the actual argument value for a method + call is not relevant. + + + + // Throws an exception for a call to Remove with any string value. + mock.Protected() + .Setup("Remove", ItExpr.IsAny<string>()) + .Throws(new InvalidOperationException()); + + + Type of the value. + + + + Matches any value that satisfies the given predicate. + + Type of the argument to check. + The predicate used to match the method argument. + + Allows the specification of a predicate to perform matching + of method call arguments. + + + This example shows how to return the value 1 whenever the argument to the + Do method is an even number. + + mock.Protected() + .Setup("Do", ItExpr.Is<int>(i => i % 2 == 0)) + .Returns(1); + + This example shows how to throw an exception if the argument to the + method is a negative number: + + mock.Protected() + .Setup("GetUser", ItExpr.Is<int>(i => i < 0)) + .Throws(new ArgumentException()); + + + + + + Matches any value that is in the range specified. + + Type of the argument to check. + The lower bound of the range. + The upper bound of the range. + The kind of range. See . + + The following example shows how to expect a method call + with an integer argument within the 0..100 range. + + mock.Protected() + .Setup("HasInventory", + ItExpr.IsAny<string>(), + ItExpr.IsInRange(0, 100, Range.Inclusive)) + .Returns(false); + + + + + + Matches a string argument if it matches the given regular expression pattern. + + The pattern to use to match the string argument value. + + The following example shows how to expect a call to a method where the + string argument matches the given regular expression: + + mock.Protected() + .Setup("Check", ItExpr.IsRegex("[a-z]+")) + .Returns(1); + + + + + + Matches a string argument if it matches the given regular expression pattern. + + The pattern to use to match the string argument value. + The options used to interpret the pattern. + + The following example shows how to expect a call to a method where the + string argument matches the given regular expression, in a case insensitive way: + + mock.Protected() + .Setup("Check", ItExpr.IsRegex("[a-z]+", RegexOptions.IgnoreCase)) + .Returns(1); + + + + + + Enables the Protected() method on , + allowing setups to be set for protected members by using their + name as a string, rather than strong-typing them which is not possible + due to their visibility. + + + + + Enable protected setups for the mock. + + Mocked object type. Typically omitted as it can be inferred from the mock instance. + The mock to set the protected setups on. + + + + + + + + + + + + Kind of range to use in a filter specified through + . + + + + + The range includes the to and + from values. + + + + + The range does not include the to and + from values. + + + + + Determines the way default values are generated + calculated for loose mocks. + + + + + Default behavior, which generates empty values for + value types (i.e. default(int)), empty array and + enumerables, and nulls for all other reference types. + + + + + Whenever the default value generated by + is null, replaces this value with a mock (if the type + can be mocked). + + + For sealed classes, a null value will be generated. + + + + + A default implementation of IQueryable for use with QueryProvider + + + + + The is a + static method that returns an IQueryable of Mocks of T which is used to + apply the linq specification to. + + + + + Allows creation custom value matchers that can be used on setups and verification, + completely replacing the built-in class with your own argument + matching rules. + + See also . + + + + + Provided for the sole purpose of rendering the delegate passed to the + matcher constructor if no friendly render lambda is provided. + + + + + Initializes the match with the condition that + will be checked in order to match invocation + values. + The condition to match against actual values. + + + + + + + + + This method is used to set an expression as the last matcher invoked, + which is used in the SetupSet to allow matchers in the prop = value + delegate expression. This delegate is executed in "fluent" mode in + order to capture the value being set, and construct the corresponding + methodcall. + This is also used in the MatcherFactory for each argument expression. + This method ensures that when we execute the delegate, we + also track the matcher that was invoked, so that when we create the + methodcall we build the expression using it, rather than the null/default + value returned from the actual invocation. + + + + + Allows creation custom value matchers that can be used on setups and verification, + completely replacing the built-in class with your own argument + matching rules. + Type of the value to match. + The argument matching is used to determine whether a concrete + invocation in the mock matches a given setup. This + matching mechanism is fully extensible. + + Creating a custom matcher is straightforward. You just need to create a method + that returns a value from a call to with + your matching condition and optional friendly render expression: + + [Matcher] + public Order IsBigOrder() + { + return Match<Order>.Create( + o => o.GrandTotal >= 5000, + /* a friendly expression to render on failures */ + () => IsBigOrder()); + } + + This method can be used in any mock setup invocation: + + mock.Setup(m => m.Submit(IsBigOrder()).Throws<UnauthorizedAccessException>(); + + At runtime, Moq knows that the return value was a matcher (note that the method MUST be + annotated with the [Matcher] attribute in order to determine this) and + evaluates your predicate with the actual value passed into your predicate. + + Another example might be a case where you want to match a lists of orders + that contains a particular one. You might create matcher like the following: + + + public static class Orders + { + [Matcher] + public static IEnumerable<Order> Contains(Order order) + { + return Match<IEnumerable<Order>>.Create(orders => orders.Contains(order)); + } + } + + Now we can invoke this static method instead of an argument in an + invocation: + + var order = new Order { ... }; + var mock = new Mock<IRepository<Order>>(); + + mock.Setup(x => x.Save(Orders.Contains(order))) + .Throws<ArgumentException>(); + + + + + + Tracks the current mock and interception context. + + + + + Having an active fluent mock context means that the invocation + is being performed in "trial" mode, just to gather the + target method and arguments that need to be matched later + when the actual invocation is made. + + + + + A that returns an empty default value + for non-mockeable types, and mocks for all other types (interfaces and + non-sealed classes) that can be mocked. + + + + + Allows querying the universe of mocks for those that behave + according to the LINQ query specification. + + + This entry-point into Linq to Mocks is the only one in the root Moq + namespace to ease discovery. But to get all the mocking extension + methods on Object, a using of Moq.Linq must be done, so that the + polluting of the intellisense for all objects is an explicit opt-in. + + + + + Access the universe of mocks of the given type, to retrieve those + that behave according to the LINQ query specification. + + The type of the mocked object to query. + + + + Access the universe of mocks of the given type, to retrieve those + that behave according to the LINQ query specification. + + The predicate with the setup expressions. + The type of the mocked object to query. + + + + Creates an mock object of the indicated type. + + The type of the mocked object. + The mocked object created. + + + + Creates an mock object of the indicated type. + + The predicate with the setup expressions. + The type of the mocked object. + The mocked object created. + + + + Creates the mock query with the underlying queriable implementation. + + + + + Wraps the enumerator inside a queryable. + + + + + Method that is turned into the actual call from .Query{T}, to + transform the queryable query into a normal enumerable query. + This method is never used directly by consumers. + + + + + Extension method used to support Linq-like setup properties that are not virtual but do have + a getter and a setter, thereby allowing the use of Linq to Mocks to quickly initialize Dtos too :) + + + + + Helper extensions that are used by the query translator. + + + + + Retrieves a fluent mock from the given setup expression. + + + + + Gets an autogenerated interface with a method on it that matches the signature of the specified + . + + + Such an interface can then be mocked, and a delegate pointed at the method on the mocked instance. + This is how we support delegate mocking. The factory caches such interfaces and reuses them + for repeated requests for the same delegate type. + + The delegate type for which an interface is required. + The method on the autogenerated interface. + + + + + + + + + + Defines the number of invocations allowed by a mocked method. + + + + + Specifies that a mocked method should be invoked times as minimum. + The minimun number of times.An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked one time as minimum. + An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked time as maximun. + The maximun number of times.An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked one time as maximun. + An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked between and + times. + The minimun number of times.The maximun number of times. + The kind of range. See . + An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked exactly times. + The times that a method or property can be called.An object defining the allowed number of invocations. + + + + Specifies that a mocked method should not be invoked. + An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked exactly one time. + An object defining the allowed number of invocations. + + + + Determines whether the specified is equal to this instance. + + The to compare with this instance. + + true if the specified is equal to this instance; otherwise, false. + + + + + Returns a hash code for this instance. + + A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. + + + + + Determines whether two specified objects have the same value. + + The first . + + The second . + + true if the value of left is the same as the value of right; otherwise, false. + + + + + Determines whether two specified objects have different values. + + The first . + + The second . + + true if the value of left is different from the value of right; otherwise, false. + + + + diff --git a/packages/Moq.4.1.1309.1617/lib/net40/Moq.dll b/packages/Moq.4.1.1309.1617/lib/net40/Moq.dll new file mode 100644 index 0000000..8fb0eb8 Binary files /dev/null and b/packages/Moq.4.1.1309.1617/lib/net40/Moq.dll differ diff --git a/packages/Moq.4.0.10827/lib/NET40/Moq.xml b/packages/Moq.4.1.1309.1617/lib/net40/Moq.xml old mode 100755 new mode 100644 similarity index 93% rename from packages/Moq.4.0.10827/lib/NET40/Moq.xml rename to packages/Moq.4.1.1309.1617/lib/net40/Moq.xml index 13b8804..0f86883 --- a/packages/Moq.4.0.10827/lib/NET40/Moq.xml +++ b/packages/Moq.4.1.1309.1617/lib/net40/Moq.xml @@ -1,5120 +1,5386 @@ - - - - Moq - - - - - Implements the fluent API. - - - - - The expectation will be considered only in the former condition. - - - - - - - The expectation will be considered only in the former condition. - - - - - - - - Setups the get. - - The type of the property. - The expression. - - - - - Setups the set. - - The type of the property. - The setter expression. - - - - - Setups the set. - - The setter expression. - - - - - Defines the Callback verb and overloads. - - - - - Helper interface used to hide the base - members from the fluent API to make it much cleaner - in Visual Studio intellisense. - - - - - - - - - - - - - - - - - Specifies a callback to invoke when the method is called. - - The callback method to invoke. - - The following example specifies a callback to set a boolean - value that can be used later: - - var called = false; - mock.Setup(x => x.Execute()) - .Callback(() => called = true); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The argument type of the invoked method. - The callback method to invoke. - - Invokes the given callback with the concrete invocation argument value. - - Notice how the specific string argument is retrieved by simply declaring - it as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute(It.IsAny<string>())) - .Callback((string command) => Console.WriteLine(command)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2) => Console.WriteLine(arg1 + arg2)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3) => Console.WriteLine(arg1 + arg2 + arg3)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The type of the sixteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16)); - - - - - - Defines the Callback verb and overloads for callbacks on - setups that return a value. - - Mocked type. - Type of the return value of the setup. - - - - Specifies a callback to invoke when the method is called. - - The callback method to invoke. - - The following example specifies a callback to set a boolean value that can be used later: - - var called = false; - mock.Setup(x => x.Execute()) - .Callback(() => called = true) - .Returns(true); - - Note that in the case of value-returning methods, after the Callback - call you can still specify the return value. - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the argument of the invoked method. - Callback method to invoke. - - Invokes the given callback with the concrete invocation argument value. - - Notice how the specific string argument is retrieved by simply declaring - it as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute(It.IsAny<string>())) - .Callback(command => Console.WriteLine(command)) - .Returns(true); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2) => Console.WriteLine(arg1 + arg2)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3) => Console.WriteLine(arg1 + arg2 + arg3)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The type of the sixteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15, arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16)); - - - - - - Defines the Raises verb. - - - - - Specifies the event that will be raised - when the setup is met. - - An expression that represents an event attach or detach action. - The event arguments to pass for the raised event. - - The following example shows how to raise an event when - the setup is met: - - var mock = new Mock<IContainer>(); - - mock.Setup(add => add.Add(It.IsAny<string>(), It.IsAny<object>())) - .Raises(add => add.Added += null, EventArgs.Empty); - - - - - - Specifies the event that will be raised - when the setup is matched. - - An expression that represents an event attach or detach action. - A function that will build the - to pass when raising the event. - - - - - Specifies the custom event that will be raised - when the setup is matched. - - An expression that represents an event attach or detach action. - The arguments to pass to the custom delegate (non EventHandler-compatible). - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - The type of the thirteenth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - The type of the thirteenth argument received by the expected invocation. - The type of the fourteenth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - The type of the thirteenth argument received by the expected invocation. - The type of the fourteenth argument received by the expected invocation. - The type of the fifteenth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - The type of the thirteenth argument received by the expected invocation. - The type of the fourteenth argument received by the expected invocation. - The type of the fifteenth argument received by the expected invocation. - The type of the sixteenth argument received by the expected invocation. - - - - - Defines the Returns verb. - - Mocked type. - Type of the return value from the expression. - - - - Specifies the value to return. - - The value to return, or . - - Return a true value from the method call: - - mock.Setup(x => x.Execute("ping")) - .Returns(true); - - - - - - Specifies a function that will calculate the value to return from the method. - - The function that will calculate the return value. - - Return a calculated value when the method is called: - - mock.Setup(x => x.Execute("ping")) - .Returns(() => returnValues[0]); - - The lambda expression to retrieve the return value is lazy-executed, - meaning that its value may change depending on the moment the method - is executed and the value the returnValues array has at - that moment. - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the argument of the invoked method. - The function that will calculate the return value. - - Return a calculated value which is evaluated lazily at the time of the invocation. - - The lookup list can change between invocations and the setup - will return different values accordingly. Also, notice how the specific - string argument is retrieved by simply declaring it as part of the lambda - expression: - - - mock.Setup(x => x.Execute(It.IsAny<string>())) - .Returns((string command) => returnValues[command]); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2) => arg1 + arg2); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3) => arg1 + arg2 + arg3); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4) => arg1 + arg2 + arg3 + arg4); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5) => arg1 + arg2 + arg3 + arg4 + arg5); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The type of the sixteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16); - - - - - - Language for ReturnSequence - - - - - Returns value - - - - - Throws an exception - - - - - Throws an exception - - - - - The first method call or member access will be the - last segment of the expression (depth-first traversal), - which is the one we have to Setup rather than FluentMock. - And the last one is the one we have to Mock.Get rather - than FluentMock. - - - - - Base class for mocks and static helper class with methods that - apply to mocked objects, such as to - retrieve a from an object instance. - - - - - Creates an mock object of the indicated type. - - The type of the mocked object. - The mocked object created. - - - - Creates an mock object of the indicated type. - - The predicate with the specification of how the mocked object should behave. - The type of the mocked object. - The mocked object created. - - - - Initializes a new instance of the class. - - - - - Retrieves the mock object for the given object instance. - - Type of the mock to retrieve. Can be omitted as it's inferred - from the object instance passed in as the instance. - The instance of the mocked object.The mock associated with the mocked object. - The received instance - was not created by Moq. - - The following example shows how to add a new setup to an object - instance which is not the original but rather - the object associated with it: - - // Typed instance, not the mock, is retrieved from some test API. - HttpContextBase context = GetMockContext(); - - // context.Request is the typed object from the "real" API - // so in order to add a setup to it, we need to get - // the mock that "owns" it - Mock<HttpRequestBase> request = Mock.Get(context.Request); - mock.Setup(req => req.AppRelativeCurrentExecutionFilePath) - .Returns(tempUrl); - - - - - - Returns the mocked object value. - - - - - Verifies that all verifiable expectations have been met. - - This example sets up an expectation and marks it as verifiable. After - the mock is used, a Verify() call is issued on the mock - to ensure the method in the setup was invoked: - - var mock = new Mock<IWarehouse>(); - this.Setup(x => x.HasInventory(TALISKER, 50)).Verifiable().Returns(true); - ... - // other test code - ... - // Will throw if the test code has didn't call HasInventory. - this.Verify(); - - Not all verifiable expectations were met. - - - - Verifies all expectations regardless of whether they have - been flagged as verifiable. - - This example sets up an expectation without marking it as verifiable. After - the mock is used, a call is issued on the mock - to ensure that all expectations are met: - - var mock = new Mock<IWarehouse>(); - this.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true); - ... - // other test code - ... - // Will throw if the test code has didn't call HasInventory, even - // that expectation was not marked as verifiable. - this.VerifyAll(); - - At least one expectation was not met. - - - - Gets the interceptor target for the given expression and root mock, - building the intermediate hierarchy of mock objects if necessary. - - - - - Raises the associated event with the given - event argument data. - - - - - Raises the associated event with the given - event argument data. - - - - - Adds an interface implementation to the mock, - allowing setups to be specified for it. - - This method can only be called before the first use - of the mock property, at which - point the runtime type has already been generated - and no more interfaces can be added to it. - - Also, must be an - interface and not a class, which must be specified - when creating the mock instead. - - - The mock type - has already been generated by accessing the property. - - The specified - is not an interface. - - The following example creates a mock for the main interface - and later adds to it to verify - it's called by the consumer code: - - var mock = new Mock<IProcessor>(); - mock.Setup(x => x.Execute("ping")); - - // add IDisposable interface - var disposable = mock.As<IDisposable>(); - disposable.Setup(d => d.Dispose()).Verifiable(); - - Type of interface to cast the mock to. - - - - - - - Behavior of the mock, according to the value set in the constructor. - - - - - Whether the base member virtual implementation will be called - for mocked classes if no setup is matched. Defaults to . - - - - - Specifies the behavior to use when returning default values for - unexpected invocations on loose mocks. - - - - - Gets the mocked object instance. - - - - - Retrieves the type of the mocked object, its generic type argument. - This is used in the auto-mocking of hierarchy access. - - - - - Specifies the class that will determine the default - value to return when invocations are made that - have no setups and need to return a default - value (for loose mocks). - - - - - Exposes the list of extra interfaces implemented by the mock. - - - - - Utility repository class to use to construct multiple - mocks when consistent verification is - desired for all of them. - - - If multiple mocks will be created during a test, passing - the desired (if different than the - or the one - passed to the repository constructor) and later verifying each - mock can become repetitive and tedious. - - This repository class helps in that scenario by providing a - simplified creation of multiple mocks with a default - (unless overriden by calling - ) and posterior verification. - - - - The following is a straightforward example on how to - create and automatically verify strict mocks using a : - - var repository = new MockRepository(MockBehavior.Strict); - - var foo = repository.Create<IFoo>(); - var bar = repository.Create<IBar>(); - - // no need to call Verifiable() on the setup - // as we'll be validating all of them anyway. - foo.Setup(f => f.Do()); - bar.Setup(b => b.Redo()); - - // exercise the mocks here - - repository.VerifyAll(); - // At this point all setups are already checked - // and an optional MockException might be thrown. - // Note also that because the mocks are strict, any invocation - // that doesn't have a matching setup will also throw a MockException. - - The following examples shows how to setup the repository - to create loose mocks and later verify only verifiable setups: - - var repository = new MockRepository(MockBehavior.Loose); - - var foo = repository.Create<IFoo>(); - var bar = repository.Create<IBar>(); - - // this setup will be verified when we verify the repository - foo.Setup(f => f.Do()).Verifiable(); - - // this setup will NOT be verified - foo.Setup(f => f.Calculate()); - - // this setup will be verified when we verify the repository - bar.Setup(b => b.Redo()).Verifiable(); - - // exercise the mocks here - // note that because the mocks are Loose, members - // called in the interfaces for which no matching - // setups exist will NOT throw exceptions, - // and will rather return default values. - - repository.Verify(); - // At this point verifiable setups are already checked - // and an optional MockException might be thrown. - - The following examples shows how to setup the repository with a - default strict behavior, overriding that default for a - specific mock: - - var repository = new MockRepository(MockBehavior.Strict); - - // this particular one we want loose - var foo = repository.Create<IFoo>(MockBehavior.Loose); - var bar = repository.Create<IBar>(); - - // specify setups - - // exercise the mocks here - - repository.Verify(); - - - - - - - Utility factory class to use to construct multiple - mocks when consistent verification is - desired for all of them. - - - If multiple mocks will be created during a test, passing - the desired (if different than the - or the one - passed to the factory constructor) and later verifying each - mock can become repetitive and tedious. - - This factory class helps in that scenario by providing a - simplified creation of multiple mocks with a default - (unless overriden by calling - ) and posterior verification. - - - - The following is a straightforward example on how to - create and automatically verify strict mocks using a : - - var factory = new MockFactory(MockBehavior.Strict); - - var foo = factory.Create<IFoo>(); - var bar = factory.Create<IBar>(); - - // no need to call Verifiable() on the setup - // as we'll be validating all of them anyway. - foo.Setup(f => f.Do()); - bar.Setup(b => b.Redo()); - - // exercise the mocks here - - factory.VerifyAll(); - // At this point all setups are already checked - // and an optional MockException might be thrown. - // Note also that because the mocks are strict, any invocation - // that doesn't have a matching setup will also throw a MockException. - - The following examples shows how to setup the factory - to create loose mocks and later verify only verifiable setups: - - var factory = new MockFactory(MockBehavior.Loose); - - var foo = factory.Create<IFoo>(); - var bar = factory.Create<IBar>(); - - // this setup will be verified when we verify the factory - foo.Setup(f => f.Do()).Verifiable(); - - // this setup will NOT be verified - foo.Setup(f => f.Calculate()); - - // this setup will be verified when we verify the factory - bar.Setup(b => b.Redo()).Verifiable(); - - // exercise the mocks here - // note that because the mocks are Loose, members - // called in the interfaces for which no matching - // setups exist will NOT throw exceptions, - // and will rather return default values. - - factory.Verify(); - // At this point verifiable setups are already checked - // and an optional MockException might be thrown. - - The following examples shows how to setup the factory with a - default strict behavior, overriding that default for a - specific mock: - - var factory = new MockFactory(MockBehavior.Strict); - - // this particular one we want loose - var foo = factory.Create<IFoo>(MockBehavior.Loose); - var bar = factory.Create<IBar>(); - - // specify setups - - // exercise the mocks here - - factory.Verify(); - - - - - - - Initializes the factory with the given - for newly created mocks from the factory. - - The behavior to use for mocks created - using the factory method if not overriden - by using the overload. - - - - Creates a new mock with the default - specified at factory construction time. - - Type to mock. - A new . - - - var factory = new MockFactory(MockBehavior.Strict); - - var foo = factory.Create<IFoo>(); - // use mock on tests - - factory.VerifyAll(); - - - - - - Creates a new mock with the default - specified at factory construction time and with the - the given constructor arguments for the class. - - - The mock will try to find the best match constructor given the - constructor arguments, and invoke that to initialize the instance. - This applies only to classes, not interfaces. - - Type to mock. - Constructor arguments for mocked classes. - A new . - - - var factory = new MockFactory(MockBehavior.Default); - - var mock = factory.Create<MyBase>("Foo", 25, true); - // use mock on tests - - factory.Verify(); - - - - - - Creates a new mock with the given . - - Type to mock. - Behavior to use for the mock, which overrides - the default behavior specified at factory construction time. - A new . - - The following example shows how to create a mock with a different - behavior to that specified as the default for the factory: - - var factory = new MockFactory(MockBehavior.Strict); - - var foo = factory.Create<IFoo>(MockBehavior.Loose); - - - - - - Creates a new mock with the given - and with the the given constructor arguments for the class. - - - The mock will try to find the best match constructor given the - constructor arguments, and invoke that to initialize the instance. - This applies only to classes, not interfaces. - - Type to mock. - Behavior to use for the mock, which overrides - the default behavior specified at factory construction time. - Constructor arguments for mocked classes. - A new . - - The following example shows how to create a mock with a different - behavior to that specified as the default for the factory, passing - constructor arguments: - - var factory = new MockFactory(MockBehavior.Default); - - var mock = factory.Create<MyBase>(MockBehavior.Strict, "Foo", 25, true); - - - - - - Implements creation of a new mock within the factory. - - Type to mock. - The behavior for the new mock. - Optional arguments for the construction of the mock. - - - - Verifies all verifiable expectations on all mocks created - by this factory. - - - One or more mocks had expectations that were not satisfied. - - - - Verifies all verifiable expectations on all mocks created - by this factory. - - - One or more mocks had expectations that were not satisfied. - - - - Invokes for each mock - in , and accumulates the resulting - that might be - thrown from the action. - - The action to execute against - each mock. - - - - Whether the base member virtual implementation will be called - for mocked classes if no setup is matched. Defaults to . - - - - - Specifies the behavior to use when returning default values for - unexpected invocations on loose mocks. - - - - - Gets the mocks that have been created by this factory and - that will get verified together. - - - - - Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. - - The type of the mocked object to query. - - - - Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. - - The predicate with the setup expressions. - The type of the mocked object to query. - - - - Creates an mock object of the indicated type. - - The type of the mocked object. - The mocked object created. - - - - Creates an mock object of the indicated type. - - The predicate with the setup expressions. - The type of the mocked object. - The mocked object created. - - - - Creates the mock query with the underlying queriable implementation. - - - - - Wraps the enumerator inside a queryable. - - - - - Method that is turned into the actual call from .Query{T}, to - transform the queryable query into a normal enumerable query. - This method is never used directly by consumers. - - - - - Initializes the repository with the given - for newly created mocks from the repository. - - The behavior to use for mocks created - using the repository method if not overriden - by using the overload. - - - - A that returns an empty default value - for invocations that do not have setups or return values, with loose mocks. - This is the default behavior for a mock. - - - - - Interface to be implemented by classes that determine the - default value of non-expected invocations. - - - - - Defines the default value to return in all the methods returning . - The type of the return value.The value to set as default. - - - - Provides a value for the given member and arguments. - - The member to provide a default value for. - - - - - The intention of is to create a more readable - string representation for the failure message. - - - - - Implements the fluent API. - - - - - Defines the Throws verb. - - - - - Specifies the exception to throw when the method is invoked. - - Exception instance to throw. - - This example shows how to throw an exception when the method is - invoked with an empty string argument: - - mock.Setup(x => x.Execute("")) - .Throws(new ArgumentException()); - - - - - - Specifies the type of exception to throw when the method is invoked. - - Type of exception to instantiate and throw when the setup is matched. - - This example shows how to throw an exception when the method is - invoked with an empty string argument: - - mock.Setup(x => x.Execute("")) - .Throws<ArgumentException>(); - - - - - - Implements the fluent API. - - - - - Defines occurrence members to constraint setups. - - - - - The expected invocation can happen at most once. - - - - var mock = new Mock<ICommand>(); - mock.Setup(foo => foo.Execute("ping")) - .AtMostOnce(); - - - - - - The expected invocation can happen at most specified number of times. - - The number of times to accept calls. - - - var mock = new Mock<ICommand>(); - mock.Setup(foo => foo.Execute("ping")) - .AtMost( 5 ); - - - - - - Defines the Verifiable verb. - - - - - Marks the expectation as verifiable, meaning that a call - to will check if this particular - expectation was met. - - - The following example marks the expectation as verifiable: - - mock.Expect(x => x.Execute("ping")) - .Returns(true) - .Verifiable(); - - - - - - Marks the expectation as verifiable, meaning that a call - to will check if this particular - expectation was met, and specifies a message for failures. - - - The following example marks the expectation as verifiable: - - mock.Expect(x => x.Execute("ping")) - .Returns(true) - .Verifiable("Ping should be executed always!"); - - - - - - Implements the fluent API. - - - - - We need this non-generics base class so that - we can use from - generic code. - - - - - Implements the fluent API. - - - - - Implements the fluent API. - - - - - Implements the fluent API. - - - - - Defines the Callback verb for property getter setups. - - - Mocked type. - Type of the property. - - - - Specifies a callback to invoke when the property is retrieved. - - Callback method to invoke. - - Invokes the given callback with the property value being set. - - mock.SetupGet(x => x.Suspended) - .Callback(() => called = true) - .Returns(true); - - - - - - Implements the fluent API. - - - - - Defines the Returns verb for property get setups. - - Mocked type. - Type of the property. - - - - Specifies the value to return. - - The value to return, or . - - Return a true value from the property getter call: - - mock.SetupGet(x => x.Suspended) - .Returns(true); - - - - - - Specifies a function that will calculate the value to return for the property. - - The function that will calculate the return value. - - Return a calculated value when the property is retrieved: - - mock.SetupGet(x => x.Suspended) - .Returns(() => returnValues[0]); - - The lambda expression to retrieve the return value is lazy-executed, - meaning that its value may change depending on the moment the property - is retrieved and the value the returnValues array has at - that moment. - - - - - Implements the fluent API. - - - - - Helper class to setup a full trace between many mocks - - - - - Initialize a trace setup - - - - - Allow sequence to be repeated - - - - - define nice api - - - - - Perform an expectation in the trace. - - - - - Marks a method as a matcher, which allows complete replacement - of the built-in class with your own argument - matching rules. - - - This feature has been deprecated in favor of the new - and simpler . - - - The argument matching is used to determine whether a concrete - invocation in the mock matches a given setup. This - matching mechanism is fully extensible. - - - There are two parts of a matcher: the compiler matcher - and the runtime matcher. - - - Compiler matcher - Used to satisfy the compiler requirements for the - argument. Needs to be a method optionally receiving any arguments - you might need for the matching, but with a return type that - matches that of the argument. - - Let's say I want to match a lists of orders that contains - a particular one. I might create a compiler matcher like the following: - - - public static class Orders - { - [Matcher] - public static IEnumerable<Order> Contains(Order order) - { - return null; - } - } - - Now we can invoke this static method instead of an argument in an - invocation: - - var order = new Order { ... }; - var mock = new Mock<IRepository<Order>>(); - - mock.Setup(x => x.Save(Orders.Contains(order))) - .Throws<ArgumentException>(); - - Note that the return value from the compiler matcher is irrelevant. - This method will never be called, and is just used to satisfy the - compiler and to signal Moq that this is not a method that we want - to be invoked at runtime. - - - - Runtime matcher - - The runtime matcher is the one that will actually perform evaluation - when the test is run, and is defined by convention to have the - same signature as the compiler matcher, but where the return - value is the first argument to the call, which contains the - object received by the actual invocation at runtime: - - public static bool Contains(IEnumerable<Order> orders, Order order) - { - return orders.Contains(order); - } - - At runtime, the mocked method will be invoked with a specific - list of orders. This value will be passed to this runtime - matcher as the first argument, while the second argument is the - one specified in the setup (x.Save(Orders.Contains(order))). - - The boolean returned determines whether the given argument has been - matched. If all arguments to the expected method are matched, then - the setup matches and is evaluated. - - - - - - Using this extensible infrastructure, you can easily replace the entire - set of matchers with your own. You can also avoid the - typical (and annoying) lengthy expressions that result when you have - multiple arguments that use generics. - - - The following is the complete example explained above: - - public static class Orders - { - [Matcher] - public static IEnumerable<Order> Contains(Order order) - { - return null; - } - - public static bool Contains(IEnumerable<Order> orders, Order order) - { - return orders.Contains(order); - } - } - - And the concrete test using this matcher: - - var order = new Order { ... }; - var mock = new Mock<IRepository<Order>>(); - - mock.Setup(x => x.Save(Orders.Contains(order))) - .Throws<ArgumentException>(); - - // use mock, invoke Save, and have the matcher filter. - - - - - - Provides a mock implementation of . - - Any interface type can be used for mocking, but for classes, only abstract and virtual members can be mocked. - - The behavior of the mock with regards to the setups and the actual calls is determined - by the optional that can be passed to the - constructor. - - Type to mock, which can be an interface or a class. - The following example shows establishing setups with specific values - for method invocations: - - // Arrange - var order = new Order(TALISKER, 50); - var mock = new Mock<IWarehouse>(); - - mock.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true); - - // Act - order.Fill(mock.Object); - - // Assert - Assert.True(order.IsFilled); - - The following example shows how to use the class - to specify conditions for arguments instead of specific values: - - // Arrange - var order = new Order(TALISKER, 50); - var mock = new Mock<IWarehouse>(); - - // shows how to expect a value within a range - mock.Setup(x => x.HasInventory( - It.IsAny<string>(), - It.IsInRange(0, 100, Range.Inclusive))) - .Returns(false); - - // shows how to throw for unexpected calls. - mock.Setup(x => x.Remove( - It.IsAny<string>(), - It.IsAny<int>())) - .Throws(new InvalidOperationException()); - - // Act - order.Fill(mock.Object); - - // Assert - Assert.False(order.IsFilled); - - - - - - Obsolete. - - - - - Obsolete. - - - - - Obsolete. - - - - - Obsolete. - - - - - Obsolete. - - - - - Ctor invoked by AsTInterface exclusively. - - - - - Initializes an instance of the mock with default behavior. - - var mock = new Mock<IFormatProvider>(); - - - - - Initializes an instance of the mock with default behavior and with - the given constructor arguments for the class. (Only valid when is a class) - - The mock will try to find the best match constructor given the constructor arguments, and invoke that - to initialize the instance. This applies only for classes, not interfaces. - - var mock = new Mock<MyProvider>(someArgument, 25); - Optional constructor arguments if the mocked type is a class. - - - - Initializes an instance of the mock with the specified behavior. - - var mock = new Mock<IFormatProvider>(MockBehavior.Relaxed); - Behavior of the mock. - - - - Initializes an instance of the mock with a specific behavior with - the given constructor arguments for the class. - - The mock will try to find the best match constructor given the constructor arguments, and invoke that - to initialize the instance. This applies only to classes, not interfaces. - - var mock = new Mock<MyProvider>(someArgument, 25); - Behavior of the mock.Optional constructor arguments if the mocked type is a class. - - - - Returns the mocked object value. - - - - - Specifies a setup on the mocked type for a call to - to a void method. - - If more than one setup is specified for the same method or property, - the latest one wins and is the one that will be executed. - Lambda expression that specifies the expected method invocation. - - var mock = new Mock<IProcessor>(); - mock.Setup(x => x.Execute("ping")); - - - - - - Specifies a setup on the mocked type for a call to - to a value returning method. - Type of the return value. Typically omitted as it can be inferred from the expression. - If more than one setup is specified for the same method or property, - the latest one wins and is the one that will be executed. - Lambda expression that specifies the method invocation. - - mock.Setup(x => x.HasInventory("Talisker", 50)).Returns(true); - - - - - - Specifies a setup on the mocked type for a call to - to a property getter. - - If more than one setup is set for the same property getter, - the latest one wins and is the one that will be executed. - Type of the property. Typically omitted as it can be inferred from the expression.Lambda expression that specifies the property getter. - - mock.SetupGet(x => x.Suspended) - .Returns(true); - - - - - - Specifies a setup on the mocked type for a call to - to a property setter. - - If more than one setup is set for the same property setter, - the latest one wins and is the one that will be executed. - - This overloads allows the use of a callback already - typed for the property type. - - Type of the property. Typically omitted as it can be inferred from the expression.The Lambda expression that sets a property to a value. - - mock.SetupSet(x => x.Suspended = true); - - - - - - Specifies a setup on the mocked type for a call to - to a property setter. - - If more than one setup is set for the same property setter, - the latest one wins and is the one that will be executed. - Lambda expression that sets a property to a value. - - mock.SetupSet(x => x.Suspended = true); - - - - - - Specifies that the given property should have "property behavior", - meaning that setting its value will cause it to be saved and - later returned when the property is requested. (this is also - known as "stubbing"). - - Type of the property, inferred from the property - expression (does not need to be specified). - Property expression to stub. - If you have an interface with an int property Value, you might - stub it using the following straightforward call: - - var mock = new Mock<IHaveValue>(); - mock.Stub(v => v.Value); - - After the Stub call has been issued, setting and - retrieving the object value will behave as expected: - - IHaveValue v = mock.Object; - - v.Value = 5; - Assert.Equal(5, v.Value); - - - - - - Specifies that the given property should have "property behavior", - meaning that setting its value will cause it to be saved and - later returned when the property is requested. This overload - allows setting the initial value for the property. (this is also - known as "stubbing"). - - Type of the property, inferred from the property - expression (does not need to be specified). - Property expression to stub.Initial value for the property. - If you have an interface with an int property Value, you might - stub it using the following straightforward call: - - var mock = new Mock<IHaveValue>(); - mock.SetupProperty(v => v.Value, 5); - - After the SetupProperty call has been issued, setting and - retrieving the object value will behave as expected: - - IHaveValue v = mock.Object; - // Initial value was stored - Assert.Equal(5, v.Value); - - // New value set which changes the initial value - v.Value = 6; - Assert.Equal(6, v.Value); - - - - - - Specifies that the all properties on the mock should have "property behavior", - meaning that setting its value will cause it to be saved and - later returned when the property is requested. (this is also - known as "stubbing"). The default value for each property will be the - one generated as specified by the property for the mock. - - If the mock is set to , - the mocked default values will also get all properties setup recursively. - - - - - - - - Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . - - This example assumes that the mock has been used, and later we want to verify that a given - invocation with specific parameters was performed: - - var mock = new Mock<IProcessor>(); - // exercise mock - //... - // Will throw if the test code didn't call Execute with a "ping" string argument. - mock.Verify(proc => proc.Execute("ping")); - - The invocation was not performed on the mock.Expression to verify. - - - - Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . - - The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called. - - - - Verifies that a specific invocation matching the given expression was performed on the mock, - specifying a failure error message. Use in conjuntion with the default - . - - This example assumes that the mock has been used, and later we want to verify that a given - invocation with specific parameters was performed: - - var mock = new Mock<IProcessor>(); - // exercise mock - //... - // Will throw if the test code didn't call Execute with a "ping" string argument. - mock.Verify(proc => proc.Execute("ping")); - - The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. - - - - Verifies that a specific invocation matching the given expression was performed on the mock, - specifying a failure error message. Use in conjuntion with the default - . - - The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails. - - - - Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . - - This example assumes that the mock has been used, and later we want to verify that a given - invocation with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't call HasInventory. - mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50)); - - The invocation was not performed on the mock.Expression to verify.Type of return value from the expression. - - - - Verifies that a specific invocation matching the given - expression was performed on the mock. Use in conjuntion - with the default . - - The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Type of return value from the expression. - - - - Verifies that a specific invocation matching the given - expression was performed on the mock, specifying a failure - error message. - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't call HasInventory. - mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50), "When filling orders, inventory has to be checked"); - - The invocation was not performed on the mock.Expression to verify.Message to show if verification fails.Type of return value from the expression. - - - - Verifies that a specific invocation matching the given - expression was performed on the mock, specifying a failure - error message. - - The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails.Type of return value from the expression. - - - - Verifies that a property was read on the mock. - - This example assumes that the mock has been used, - and later we want to verify that a given property - was retrieved from it: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't retrieve the IsClosed property. - mock.VerifyGet(warehouse => warehouse.IsClosed); - - The invocation was not performed on the mock.Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - - Verifies that a property was read on the mock. - - The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - - Verifies that a property was read on the mock, specifying a failure - error message. - - This example assumes that the mock has been used, - and later we want to verify that a given property - was retrieved from it: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't retrieve the IsClosed property. - mock.VerifyGet(warehouse => warehouse.IsClosed); - - The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - - Verifies that a property was read on the mock, specifying a failure - error message. - - The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - - Verifies that a property was set on the mock. - - This example assumes that the mock has been used, - and later we want to verify that a given property - was set on it: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed = true); - - The invocation was not performed on the mock.Expression to verify. - - - - Verifies that a property was set on the mock. - - The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify. - - - - Verifies that a property was set on the mock, specifying - a failure message. - - This example assumes that the mock has been used, - and later we want to verify that a given property - was set on it: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed = true, "Warehouse should always be closed after the action"); - - The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. - - - - Verifies that a property was set on the mock, specifying - a failure message. - - The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. - - - - Raises the event referenced in using - the given argument. - - The argument is - invalid for the target event invocation, or the is - not an event attach or detach expression. - - The following example shows how to raise a event: - - var mock = new Mock<IViewModel>(); - - mock.Raise(x => x.PropertyChanged -= null, new PropertyChangedEventArgs("Name")); - - - This example shows how to invoke an event with a custom event arguments - class in a view that will cause its corresponding presenter to - react by changing its state: - - var mockView = new Mock<IOrdersView>(); - var presenter = new OrdersPresenter(mockView.Object); - - // Check that the presenter has no selection by default - Assert.Null(presenter.SelectedOrder); - - // Raise the event with a specific arguments data - mockView.Raise(v => v.SelectionChanged += null, new OrderEventArgs { Order = new Order("moq", 500) }); - - // Now the presenter reacted to the event, and we have a selected order - Assert.NotNull(presenter.SelectedOrder); - Assert.Equal("moq", presenter.SelectedOrder.ProductName); - - - - - - Raises the event referenced in using - the given argument for a non-EventHandler typed event. - - The arguments are - invalid for the target event invocation, or the is - not an event attach or detach expression. - - The following example shows how to raise a custom event that does not adhere to - the standard EventHandler: - - var mock = new Mock<IViewModel>(); - - mock.Raise(x => x.MyEvent -= null, "Name", bool, 25); - - - - - - Exposes the mocked object instance. - - - - - Provides legacy API members as extensions so that - existing code continues to compile, but new code - doesn't see then. - - - - - Obsolete. - - - - - Obsolete. - - - - - Obsolete. - - - - - Provides additional methods on mocks. - - - Provided as extension methods as they confuse the compiler - with the overloads taking Action. - - - - - Specifies a setup on the mocked type for a call to - to a property setter, regardless of its value. - - - If more than one setup is set for the same property setter, - the latest one wins and is the one that will be executed. - - Type of the property. Typically omitted as it can be inferred from the expression. - Type of the mock. - The target mock for the setup. - Lambda expression that specifies the property setter. - - - mock.SetupSet(x => x.Suspended); - - - - This method is not legacy, but must be on an extension method to avoid - confusing the compiler with the new Action syntax. - - - - - Verifies that a property has been set on the mock, regarless of its value. - - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed); - - - The invocation was not performed on the mock. - Expression to verify. - The mock instance. - Mocked type. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - Verifies that a property has been set on the mock, specifying a failure - error message. - - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed); - - - The invocation was not performed on the mock. - Expression to verify. - Message to show if verification fails. - The mock instance. - Mocked type. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - Verifies that a property has been set on the mock, regardless - of the value but only the specified number of times. - - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed); - - - The invocation was not performed on the mock. - The invocation was not call the times specified by - . - The mock instance. - Mocked type. - The number of times a method is allowed to be called. - Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - Verifies that a property has been set on the mock, regardless - of the value but only the specified number of times, and specifying a failure - error message. - - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed); - - - The invocation was not performed on the mock. - The invocation was not call the times specified by - . - The mock instance. - Mocked type. - The number of times a method is allowed to be called. - Message to show if verification fails. - Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - Helper for sequencing return values in the same method. - - - - - Return a sequence of values, once per call. - - - - - Casts the expression to a lambda expression, removing - a cast if there's any. - - - - - Casts the body of the lambda expression to a . - - If the body is not a method call. - - - - Converts the body of the lambda expression into the referenced by it. - - - - - Checks whether the body of the lambda expression is a property access. - - - - - Checks whether the expression is a property access. - - - - - Checks whether the body of the lambda expression is a property indexer, which is true - when the expression is an whose - has - equal to . - - - - - Checks whether the expression is a property indexer, which is true - when the expression is an whose - has - equal to . - - - - - Creates an expression that casts the given expression to the - type. - - - - - TODO: remove this code when https://connect.microsoft.com/VisualStudio/feedback/ViewFeedback.aspx?FeedbackID=331583 - is fixed. - - - - - Provides partial evaluation of subtrees, whenever they can be evaluated locally. - - Matt Warren: http://blogs.msdn.com/mattwar - Documented by InSTEDD: http://www.instedd.org - - - - Performs evaluation and replacement of independent sub-trees - - The root of the expression tree. - A function that decides whether a given expression - node can be part of the local function. - A new tree with sub-trees evaluated and replaced. - - - - Performs evaluation and replacement of independent sub-trees - - The root of the expression tree. - A new tree with sub-trees evaluated and replaced. - - - - Evaluates and replaces sub-trees when first candidate is reached (top-down) - - - - - Performs bottom-up analysis to determine which nodes can possibly - be part of an evaluated sub-tree. - - - - - Ensures the given is not null. - Throws otherwise. - - - - - Ensures the given string is not null or empty. - Throws in the first case, or - in the latter. - - - - - Checks an argument to ensure it is in the specified range including the edges. - - Type of the argument to check, it must be an type. - - The expression containing the name of the argument. - The argument value to check. - The minimun allowed value for the argument. - The maximun allowed value for the argument. - - - - Checks an argument to ensure it is in the specified range excluding the edges. - - Type of the argument to check, it must be an type. - - The expression containing the name of the argument. - The argument value to check. - The minimun allowed value for the argument. - The maximun allowed value for the argument. - - - - Implemented by all generated mock object instances. - - - - - Implemented by all generated mock object instances. - - - - - Reference the Mock that contains this as the mock.Object value. - - - - - Reference the Mock that contains this as the mock.Object value. - - - - - Implements the actual interception and method invocation for - all mocks. - - - - - Get an eventInfo for a given event name. Search type ancestors depth first if necessary. - - Name of the event, with the set_ or get_ prefix already removed - - - - Given a type return all of its ancestors, both types and interfaces. - - The type to find immediate ancestors of - - - - Implements the fluent API. - - - - - Defines the Callback verb for property setter setups. - - Type of the property. - - - - Specifies a callback to invoke when the property is set that receives the - property value being set. - - Callback method to invoke. - - Invokes the given callback with the property value being set. - - mock.SetupSet(x => x.Suspended) - .Callback((bool state) => Console.WriteLine(state)); - - - - - - Allows the specification of a matching condition for an - argument in a method invocation, rather than a specific - argument value. "It" refers to the argument being matched. - - This class allows the setup to match a method invocation - with an arbitrary value, with a value in a specified range, or - even one that matches a given predicate. - - - - - Matches any value of the given type. - - Typically used when the actual argument value for a method - call is not relevant. - - - // Throws an exception for a call to Remove with any string value. - mock.Setup(x => x.Remove(It.IsAny<string>())).Throws(new InvalidOperationException()); - - Type of the value. - - - - Matches any value that satisfies the given predicate. - Type of the argument to check.The predicate used to match the method argument. - Allows the specification of a predicate to perform matching - of method call arguments. - - This example shows how to return the value 1 whenever the argument to the - Do method is an even number. - - mock.Setup(x => x.Do(It.Is<int>(i => i % 2 == 0))) - .Returns(1); - - This example shows how to throw an exception if the argument to the - method is a negative number: - - mock.Setup(x => x.GetUser(It.Is<int>(i => i < 0))) - .Throws(new ArgumentException()); - - - - - - Matches any value that is in the range specified. - Type of the argument to check.The lower bound of the range.The upper bound of the range. - The kind of range. See . - - The following example shows how to expect a method call - with an integer argument within the 0..100 range. - - mock.Setup(x => x.HasInventory( - It.IsAny<string>(), - It.IsInRange(0, 100, Range.Inclusive))) - .Returns(false); - - - - - - Matches a string argument if it matches the given regular expression pattern. - The pattern to use to match the string argument value. - The following example shows how to expect a call to a method where the - string argument matches the given regular expression: - - mock.Setup(x => x.Check(It.IsRegex("[a-z]+"))).Returns(1); - - - - - - Matches a string argument if it matches the given regular expression pattern. - The pattern to use to match the string argument value.The options used to interpret the pattern. - The following example shows how to expect a call to a method where the - string argument matches the given regular expression, in a case insensitive way: - - mock.Setup(x => x.Check(It.IsRegex("[a-z]+", RegexOptions.IgnoreCase))).Returns(1); - - - - - - Matcher to treat static functions as matchers. - - mock.Setup(x => x.StringMethod(A.MagicString())); - - public static class A - { - [Matcher] - public static string MagicString() { return null; } - public static bool MagicString(string arg) - { - return arg == "magic"; - } - } - - Will succeed if: mock.Object.StringMethod("magic"); - and fail with any other call. - - - - - Options to customize the behavior of the mock. - - - - - Causes the mock to always throw - an exception for invocations that don't have a - corresponding setup. - - - - - Will never throw exceptions, returning default - values when necessary (null for reference types, - zero for value types or empty enumerables and arrays). - - - - - Default mock behavior, which equals . - - - - - Exception thrown by mocks when setups are not matched, - the mock is not properly setup, etc. - - - A distinct exception type is provided so that exceptions - thrown by the mock can be differentiated in tests that - expect other exceptions to be thrown (i.e. ArgumentException). - - Richer exception hierarchy/types are not provided as - tests typically should not catch or expect exceptions - from the mocks. These are typically the result of changes - in the tested class or its collaborators implementation, and - result in fixes in the mock setup so that they dissapear and - allow the test to pass. - - - - - - Supports the serialization infrastructure. - - Serialization information. - Streaming context. - - - - Supports the serialization infrastructure. - - Serialization information. - Streaming context. - - - - Made internal as it's of no use for - consumers, but it's important for - our own tests. - - - - - Used by the mock factory to accumulate verification - failures. - - - - - Supports the serialization infrastructure. - - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to Mock type has already been initialized by accessing its Object property. Adding interfaces must be done before that.. - - - - - Looks up a localized string similar to Value cannot be an empty string.. - - - - - Looks up a localized string similar to Can only add interfaces to the mock.. - - - - - Looks up a localized string similar to Can't set return value for void method {0}.. - - - - - Looks up a localized string similar to Constructor arguments cannot be passed for interface mocks.. - - - - - Looks up a localized string similar to A matching constructor for the given arguments was not found on the mocked type.. - - - - - Looks up a localized string similar to Could not locate event for attach or detach method {0}.. - - - - - Looks up a localized string similar to Expression {0} involves a field access, which is not supported. Use properties instead.. - - - - - Looks up a localized string similar to Type to mock must be an interface or an abstract or non-sealed class. . - - - - - Looks up a localized string similar to Cannot retrieve a mock with the given object type {0} as it's not the main type of the mock or any of its additional interfaces. - Please cast the argument to one of the supported types: {1}. - Remember that there's no generics covariance in the CLR, so your object must be one of these types in order for the call to succeed.. - - - - - Looks up a localized string similar to The equals ("==" or "=" in VB) and the conditional 'and' ("&&" or "AndAlso" in VB) operators are the only ones supported in the query specification expression. Unsupported expression: {0}. - - - - - Looks up a localized string similar to LINQ method '{0}' not supported.. - - - - - Looks up a localized string similar to Expression contains a call to a method which is not virtual (overridable in VB) or abstract. Unsupported expression: {0}. - - - - - Looks up a localized string similar to Member {0}.{1} does not exist.. - - - - - Looks up a localized string similar to Method {0}.{1} is public. Use strong-typed Expect overload instead: - mock.Setup(x => x.{1}()); - . - - - - - Looks up a localized string similar to {0} invocation failed with mock behavior {1}. - {2}. - - - - - Looks up a localized string similar to Expected only {0} calls to {1}.. - - - - - Looks up a localized string similar to Expected only one call to {0}.. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock at least {2} times, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock at least once, but was never performed: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock at most {3} times, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock at most once, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock between {2} and {3} times (Exclusive), but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock between {2} and {3} times (Inclusive), but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock exactly {2} times, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock should never have been performed, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock once, but was {4} times: {1}. - - - - - Looks up a localized string similar to All invocations on the mock must have a corresponding setup.. - - - - - Looks up a localized string similar to Object instance was not created by Moq.. - - - - - Looks up a localized string similar to Out expression must evaluate to a constant value.. - - - - - Looks up a localized string similar to Property {0}.{1} does not have a getter.. - - - - - Looks up a localized string similar to Property {0}.{1} does not exist.. - - - - - Looks up a localized string similar to Property {0}.{1} is write-only.. - - - - - Looks up a localized string similar to Property {0}.{1} is read-only.. - - - - - Looks up a localized string similar to Property {0}.{1} does not have a setter.. - - - - - Looks up a localized string similar to Cannot raise a mocked event unless it has been associated (attached) to a concrete event in a mocked object.. - - - - - Looks up a localized string similar to Ref expression must evaluate to a constant value.. - - - - - Looks up a localized string similar to Invocation needs to return a value and therefore must have a corresponding setup that provides it.. - - - - - Looks up a localized string similar to A lambda expression is expected as the argument to It.Is<T>.. - - - - - Looks up a localized string similar to Invocation {0} should not have been made.. - - - - - Looks up a localized string similar to Expression is not a method invocation: {0}. - - - - - Looks up a localized string similar to Expression is not a property access: {0}. - - - - - Looks up a localized string similar to Expression is not a property setter invocation.. - - - - - Looks up a localized string similar to Expression references a method that does not belong to the mocked object: {0}. - - - - - Looks up a localized string similar to Invalid setup on a non-virtual (overridable in VB) member: {0}. - - - - - Looks up a localized string similar to Type {0} does not implement required interface {1}. - - - - - Looks up a localized string similar to Type {0} does not from required type {1}. - - - - - Looks up a localized string similar to To specify a setup for public property {0}.{1}, use the typed overloads, such as: - mock.Setup(x => x.{1}).Returns(value); - mock.SetupGet(x => x.{1}).Returns(value); //equivalent to previous one - mock.SetupSet(x => x.{1}).Callback(callbackDelegate); - . - - - - - Looks up a localized string similar to Unsupported expression: {0}. - - - - - Looks up a localized string similar to Only property accesses are supported in intermediate invocations on a setup. Unsupported expression {0}.. - - - - - Looks up a localized string similar to Expression contains intermediate property access {0}.{1} which is of type {2} and cannot be mocked. Unsupported expression {3}.. - - - - - Looks up a localized string similar to Setter expression cannot use argument matchers that receive parameters.. - - - - - Looks up a localized string similar to Member {0} is not supported for protected mocking.. - - - - - Looks up a localized string similar to Setter expression can only use static custom matchers.. - - - - - Looks up a localized string similar to The following setups were not matched: - {0}. - - - - - Looks up a localized string similar to Invalid verify on a non-virtual (overridable in VB) member: {0}. - - - - - Allows setups to be specified for protected members by using their - name as a string, rather than strong-typing them which is not possible - due to their visibility. - - - - - Specifies a setup for a void method invocation with the given - , optionally specifying arguments for the method call. - - The name of the void method to be invoked. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - - - - Specifies a setup for an invocation on a property or a non void method with the given - , optionally specifying arguments for the method call. - - The name of the method or property to be invoked. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - The return type of the method or property. - - - - Specifies a setup for an invocation on a property getter with the given - . - - The name of the property. - The type of the property. - - - - Specifies a setup for an invocation on a property setter with the given - . - - The name of the property. - The property value. If argument matchers are used, - remember to use rather than . - The type of the property. - - - - Specifies a verify for a void method with the given , - optionally specifying arguments for the method call. Use in conjuntion with the default - . - - The invocation was not call the times specified by - . - The name of the void method to be verified. - The number of times a method is allowed to be called. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - - - - Specifies a verify for an invocation on a property or a non void method with the given - , optionally specifying arguments for the method call. - - The invocation was not call the times specified by - . - The name of the method or property to be invoked. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - The number of times a method is allowed to be called. - The type of return value from the expression. - - - - Specifies a verify for an invocation on a property getter with the given - . - The invocation was not call the times specified by - . - - The name of the property. - The number of times a method is allowed to be called. - The type of the property. - - - - Specifies a setup for an invocation on a property setter with the given - . - - The invocation was not call the times specified by - . - The name of the property. - The number of times a method is allowed to be called. - The property value. - The type of the property. If argument matchers are used, - remember to use rather than . - - - - Allows the specification of a matching condition for an - argument in a protected member setup, rather than a specific - argument value. "ItExpr" refers to the argument being matched. - - - Use this variant of argument matching instead of - for protected setups. - This class allows the setup to match a method invocation - with an arbitrary value, with a value in a specified range, or - even one that matches a given predicate, or null. - - - - - Matches a null value of the given type. - - - Required for protected mocks as the null value cannot be used - directly as it prevents proper method overload selection. - - - - // Throws an exception for a call to Remove with a null string value. - mock.Protected() - .Setup("Remove", ItExpr.IsNull<string>()) - .Throws(new InvalidOperationException()); - - - Type of the value. - - - - Matches any value of the given type. - - - Typically used when the actual argument value for a method - call is not relevant. - - - - // Throws an exception for a call to Remove with any string value. - mock.Protected() - .Setup("Remove", ItExpr.IsAny<string>()) - .Throws(new InvalidOperationException()); - - - Type of the value. - - - - Matches any value that satisfies the given predicate. - - Type of the argument to check. - The predicate used to match the method argument. - - Allows the specification of a predicate to perform matching - of method call arguments. - - - This example shows how to return the value 1 whenever the argument to the - Do method is an even number. - - mock.Protected() - .Setup("Do", ItExpr.Is<int>(i => i % 2 == 0)) - .Returns(1); - - This example shows how to throw an exception if the argument to the - method is a negative number: - - mock.Protected() - .Setup("GetUser", ItExpr.Is<int>(i => i < 0)) - .Throws(new ArgumentException()); - - - - - - Matches any value that is in the range specified. - - Type of the argument to check. - The lower bound of the range. - The upper bound of the range. - The kind of range. See . - - The following example shows how to expect a method call - with an integer argument within the 0..100 range. - - mock.Protected() - .Setup("HasInventory", - ItExpr.IsAny<string>(), - ItExpr.IsInRange(0, 100, Range.Inclusive)) - .Returns(false); - - - - - - Matches a string argument if it matches the given regular expression pattern. - - The pattern to use to match the string argument value. - - The following example shows how to expect a call to a method where the - string argument matches the given regular expression: - - mock.Protected() - .Setup("Check", ItExpr.IsRegex("[a-z]+")) - .Returns(1); - - - - - - Matches a string argument if it matches the given regular expression pattern. - - The pattern to use to match the string argument value. - The options used to interpret the pattern. - - The following example shows how to expect a call to a method where the - string argument matches the given regular expression, in a case insensitive way: - - mock.Protected() - .Setup("Check", ItExpr.IsRegex("[a-z]+", RegexOptions.IgnoreCase)) - .Returns(1); - - - - - - Enables the Protected() method on , - allowing setups to be set for protected members by using their - name as a string, rather than strong-typing them which is not possible - due to their visibility. - - - - - Enable protected setups for the mock. - - Mocked object type. Typically omitted as it can be inferred from the mock instance. - The mock to set the protected setups on. - - - - - - - - - - - - Kind of range to use in a filter specified through - . - - - - - The range includes the to and - from values. - - - - - The range does not include the to and - from values. - - - - - Determines the way default values are generated - calculated for loose mocks. - - - - - Default behavior, which generates empty values for - value types (i.e. default(int)), empty array and - enumerables, and nulls for all other reference types. - - - - - Whenever the default value generated by - is null, replaces this value with a mock (if the type - can be mocked). - - - For sealed classes, a null value will be generated. - - - - - A default implementation of IQueryable for use with QueryProvider - - - - - The is a - static method that returns an IQueryable of Mocks of T which is used to - apply the linq specification to. - - - - - Allows creation custom value matchers that can be used on setups and verification, - completely replacing the built-in class with your own argument - matching rules. - - See also . - - - - - Provided for the sole purpose of rendering the delegate passed to the - matcher constructor if no friendly render lambda is provided. - - - - - Initializes the match with the condition that - will be checked in order to match invocation - values. - The condition to match against actual values. - - - - - - - - - This method is used to set an expression as the last matcher invoked, - which is used in the SetupSet to allow matchers in the prop = value - delegate expression. This delegate is executed in "fluent" mode in - order to capture the value being set, and construct the corresponding - methodcall. - This is also used in the MatcherFactory for each argument expression. - This method ensures that when we execute the delegate, we - also track the matcher that was invoked, so that when we create the - methodcall we build the expression using it, rather than the null/default - value returned from the actual invocation. - - - - - Allows creation custom value matchers that can be used on setups and verification, - completely replacing the built-in class with your own argument - matching rules. - Type of the value to match. - The argument matching is used to determine whether a concrete - invocation in the mock matches a given setup. This - matching mechanism is fully extensible. - - Creating a custom matcher is straightforward. You just need to create a method - that returns a value from a call to with - your matching condition and optional friendly render expression: - - [Matcher] - public Order IsBigOrder() - { - return Match<Order>.Create( - o => o.GrandTotal >= 5000, - /* a friendly expression to render on failures */ - () => IsBigOrder()); - } - - This method can be used in any mock setup invocation: - - mock.Setup(m => m.Submit(IsBigOrder()).Throws<UnauthorizedAccessException>(); - - At runtime, Moq knows that the return value was a matcher (note that the method MUST be - annotated with the [Matcher] attribute in order to determine this) and - evaluates your predicate with the actual value passed into your predicate. - - Another example might be a case where you want to match a lists of orders - that contains a particular one. You might create matcher like the following: - - - public static class Orders - { - [Matcher] - public static IEnumerable<Order> Contains(Order order) - { - return Match<IEnumerable<Order>>.Create(orders => orders.Contains(order)); - } - } - - Now we can invoke this static method instead of an argument in an - invocation: - - var order = new Order { ... }; - var mock = new Mock<IRepository<Order>>(); - - mock.Setup(x => x.Save(Orders.Contains(order))) - .Throws<ArgumentException>(); - - - - - - Tracks the current mock and interception context. - - - - - Having an active fluent mock context means that the invocation - is being performed in "trial" mode, just to gather the - target method and arguments that need to be matched later - when the actual invocation is made. - - - - - A that returns an empty default value - for non-mockeable types, and mocks for all other types (interfaces and - non-sealed classes) that can be mocked. - - - - - Allows querying the universe of mocks for those that behave - according to the LINQ query specification. - - - This entry-point into Linq to Mocks is the only one in the root Moq - namespace to ease discovery. But to get all the mocking extension - methods on Object, a using of Moq.Linq must be done, so that the - polluting of the intellisense for all objects is an explicit opt-in. - - - - - Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. - - The type of the mocked object to query. - - - - Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. - - The predicate with the setup expressions. - The type of the mocked object to query. - - - - Creates an mock object of the indicated type. - - The type of the mocked object. - The mocked object created. - - - - Creates an mock object of the indicated type. - - The predicate with the setup expressions. - The type of the mocked object. - The mocked object created. - - - - Creates the mock query with the underlying queriable implementation. - - - - - Wraps the enumerator inside a queryable. - - - - - Method that is turned into the actual call from .Query{T}, to - transform the queryable query into a normal enumerable query. - This method is never used directly by consumers. - - - - - Extension method used to support Linq-like setup properties that are not virtual but do have - a getter and a setter, thereby allowing the use of Linq to Mocks to quickly initialize Dtos too :) - - - - - Helper extensions that are used by the query translator. - - - - - Retrieves a fluent mock from the given setup expression. - - - - - Defines the number of invocations allowed by a mocked method. - - - - - Specifies that a mocked method should be invoked times as minimum. - The minimun number of times.An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked one time as minimum. - An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked time as maximun. - The maximun number of times.An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked one time as maximun. - An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked between and - times. - The minimun number of times.The maximun number of times. - The kind of range. See . - An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked exactly times. - The times that a method or property can be called.An object defining the allowed number of invocations. - - - - Specifies that a mocked method should not be invoked. - An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked exactly one time. - An object defining the allowed number of invocations. - - - - Determines whether the specified is equal to this instance. - - The to compare with this instance. - - true if the specified is equal to this instance; otherwise, false. - - - - - Returns a hash code for this instance. - - A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. - - - - - Determines whether two specified objects have the same value. - - The first . - - The second . - - true if the value of left is the same as the value of right; otherwise, false. - - - - - Determines whether two specified objects have different values. - - The first . - - The second . - - true if the value of left is different from the value of right; otherwise, false. - - - - + + + + Moq + + + + + Implements the fluent API. + + + + + The expectation will be considered only in the former condition. + + + + + + + The expectation will be considered only in the former condition. + + + + + + + + Setups the get. + + The type of the property. + The expression. + + + + + Setups the set. + + The type of the property. + The setter expression. + + + + + Setups the set. + + The setter expression. + + + + + Handle interception + + the current invocation context + shared data among the strategies during an interception + true if further interception has to be processed, otherwise false + + + + Covarient interface for Mock<T> such that casts between IMock<Employee> to IMock<Person> + are possible. Only covers the covariant members of Mock<T>. + + + + + Exposes the mocked object instance. + + + + + Behavior of the mock, according to the value set in the constructor. + + + + + Whether the base member virtual implementation will be called + for mocked classes if no setup is matched. Defaults to . + + + + + Specifies the behavior to use when returning default values for + unexpected invocations on loose mocks. + + + + + Get an eventInfo for a given event name. Search type ancestors depth first if necessary. + + Name of the event, with the set_ or get_ prefix already removed + + + + Get an eventInfo for a given event name. Search type ancestors depth first if necessary. + Searches also in non public events. + + Name of the event, with the set_ or get_ prefix already removed + + + + Given a type return all of its ancestors, both types and interfaces. + + The type to find immediate ancestors of + + + + Defines the Callback verb and overloads. + + + + + Helper interface used to hide the base + members from the fluent API to make it much cleaner + in Visual Studio intellisense. + + + + + + + + + + + + + + + + + Specifies a callback to invoke when the method is called. + + The callback method to invoke. + + The following example specifies a callback to set a boolean + value that can be used later: + + var called = false; + mock.Setup(x => x.Execute()) + .Callback(() => called = true); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The argument type of the invoked method. + The callback method to invoke. + + Invokes the given callback with the concrete invocation argument value. + + Notice how the specific string argument is retrieved by simply declaring + it as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute(It.IsAny<string>())) + .Callback((string command) => Console.WriteLine(command)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2) => Console.WriteLine(arg1 + arg2)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3) => Console.WriteLine(arg1 + arg2 + arg3)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The type of the sixteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16)); + + + + + + Defines the Callback verb and overloads for callbacks on + setups that return a value. + + Mocked type. + Type of the return value of the setup. + + + + Specifies a callback to invoke when the method is called. + + The callback method to invoke. + + The following example specifies a callback to set a boolean value that can be used later: + + var called = false; + mock.Setup(x => x.Execute()) + .Callback(() => called = true) + .Returns(true); + + Note that in the case of value-returning methods, after the Callback + call you can still specify the return value. + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the argument of the invoked method. + Callback method to invoke. + + Invokes the given callback with the concrete invocation argument value. + + Notice how the specific string argument is retrieved by simply declaring + it as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute(It.IsAny<string>())) + .Callback(command => Console.WriteLine(command)) + .Returns(true); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2) => Console.WriteLine(arg1 + arg2)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3) => Console.WriteLine(arg1 + arg2 + arg3)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The type of the sixteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15, arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16)); + + + + + + Defines the Raises verb. + + + + + Specifies the event that will be raised + when the setup is met. + + An expression that represents an event attach or detach action. + The event arguments to pass for the raised event. + + The following example shows how to raise an event when + the setup is met: + + var mock = new Mock<IContainer>(); + + mock.Setup(add => add.Add(It.IsAny<string>(), It.IsAny<object>())) + .Raises(add => add.Added += null, EventArgs.Empty); + + + + + + Specifies the event that will be raised + when the setup is matched. + + An expression that represents an event attach or detach action. + A function that will build the + to pass when raising the event. + + + + + Specifies the custom event that will be raised + when the setup is matched. + + An expression that represents an event attach or detach action. + The arguments to pass to the custom delegate (non EventHandler-compatible). + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + The type of the thirteenth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + The type of the thirteenth argument received by the expected invocation. + The type of the fourteenth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + The type of the thirteenth argument received by the expected invocation. + The type of the fourteenth argument received by the expected invocation. + The type of the fifteenth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + The type of the thirteenth argument received by the expected invocation. + The type of the fourteenth argument received by the expected invocation. + The type of the fifteenth argument received by the expected invocation. + The type of the sixteenth argument received by the expected invocation. + + + + + Defines the Returns verb. + + Mocked type. + Type of the return value from the expression. + + + + Specifies the value to return. + + The value to return, or . + + Return a true value from the method call: + + mock.Setup(x => x.Execute("ping")) + .Returns(true); + + + + + + Specifies a function that will calculate the value to return from the method. + + The function that will calculate the return value. + + Return a calculated value when the method is called: + + mock.Setup(x => x.Execute("ping")) + .Returns(() => returnValues[0]); + + The lambda expression to retrieve the return value is lazy-executed, + meaning that its value may change depending on the moment the method + is executed and the value the returnValues array has at + that moment. + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the argument of the invoked method. + The function that will calculate the return value. + + Return a calculated value which is evaluated lazily at the time of the invocation. + + The lookup list can change between invocations and the setup + will return different values accordingly. Also, notice how the specific + string argument is retrieved by simply declaring it as part of the lambda + expression: + + + mock.Setup(x => x.Execute(It.IsAny<string>())) + .Returns((string command) => returnValues[command]); + + + + + + Calls the real method of the object and returns its return value. + + The value calculated by the real method of the object. + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2) => arg1 + arg2); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3) => arg1 + arg2 + arg3); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4) => arg1 + arg2 + arg3 + arg4); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5) => arg1 + arg2 + arg3 + arg4 + arg5); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The type of the sixteenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16); + + + + + + Language for ReturnSequence + + + + + Returns value + + + + + Throws an exception + + + + + Throws an exception + + + + + Calls original method + + + + + The first method call or member access will be the + last segment of the expression (depth-first traversal), + which is the one we have to Setup rather than FluentMock. + And the last one is the one we have to Mock.Get rather + than FluentMock. + + + + + Base class for mocks and static helper class with methods that + apply to mocked objects, such as to + retrieve a from an object instance. + + + + + Creates an mock object of the indicated type. + + The type of the mocked object. + The mocked object created. + + + + Creates an mock object of the indicated type. + + The predicate with the specification of how the mocked object should behave. + The type of the mocked object. + The mocked object created. + + + + Initializes a new instance of the class. + + + + + Retrieves the mock object for the given object instance. + + Type of the mock to retrieve. Can be omitted as it's inferred + from the object instance passed in as the instance. + The instance of the mocked object.The mock associated with the mocked object. + The received instance + was not created by Moq. + + The following example shows how to add a new setup to an object + instance which is not the original but rather + the object associated with it: + + // Typed instance, not the mock, is retrieved from some test API. + HttpContextBase context = GetMockContext(); + + // context.Request is the typed object from the "real" API + // so in order to add a setup to it, we need to get + // the mock that "owns" it + Mock<HttpRequestBase> request = Mock.Get(context.Request); + mock.Setup(req => req.AppRelativeCurrentExecutionFilePath) + .Returns(tempUrl); + + + + + + Returns the mocked object value. + + + + + Verifies that all verifiable expectations have been met. + + This example sets up an expectation and marks it as verifiable. After + the mock is used, a Verify() call is issued on the mock + to ensure the method in the setup was invoked: + + var mock = new Mock<IWarehouse>(); + this.Setup(x => x.HasInventory(TALISKER, 50)).Verifiable().Returns(true); + ... + // other test code + ... + // Will throw if the test code has didn't call HasInventory. + this.Verify(); + + Not all verifiable expectations were met. + + + + Verifies all expectations regardless of whether they have + been flagged as verifiable. + + This example sets up an expectation without marking it as verifiable. After + the mock is used, a call is issued on the mock + to ensure that all expectations are met: + + var mock = new Mock<IWarehouse>(); + this.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true); + ... + // other test code + ... + // Will throw if the test code has didn't call HasInventory, even + // that expectation was not marked as verifiable. + this.VerifyAll(); + + At least one expectation was not met. + + + + Gets the interceptor target for the given expression and root mock, + building the intermediate hierarchy of mock objects if necessary. + + + + + Raises the associated event with the given + event argument data. + + + + + Raises the associated event with the given + event argument data. + + + + + Adds an interface implementation to the mock, + allowing setups to be specified for it. + + This method can only be called before the first use + of the mock property, at which + point the runtime type has already been generated + and no more interfaces can be added to it. + + Also, must be an + interface and not a class, which must be specified + when creating the mock instead. + + + The mock type + has already been generated by accessing the property. + + The specified + is not an interface. + + The following example creates a mock for the main interface + and later adds to it to verify + it's called by the consumer code: + + var mock = new Mock<IProcessor>(); + mock.Setup(x => x.Execute("ping")); + + // add IDisposable interface + var disposable = mock.As<IDisposable>(); + disposable.Setup(d => d.Dispose()).Verifiable(); + + Type of interface to cast the mock to. + + + + + + + Behavior of the mock, according to the value set in the constructor. + + + + + Whether the base member virtual implementation will be called + for mocked classes if no setup is matched. Defaults to . + + + + + Specifies the behavior to use when returning default values for + unexpected invocations on loose mocks. + + + + + Gets the mocked object instance. + + + + + Retrieves the type of the mocked object, its generic type argument. + This is used in the auto-mocking of hierarchy access. + + + + + If this is a mock of a delegate, this property contains the method + on the autogenerated interface so that we can convert setup + verify + expressions on the delegate into expressions on the interface proxy. + + + + + Allows to check whether expression conversion to the + must be performed on the mock, without causing unnecessarily early initialization of + the mock instance, which breaks As{T}. + + + + + Specifies the class that will determine the default + value to return when invocations are made that + have no setups and need to return a default + value (for loose mocks). + + + + + Exposes the list of extra interfaces implemented by the mock. + + + + + Utility repository class to use to construct multiple + mocks when consistent verification is + desired for all of them. + + + If multiple mocks will be created during a test, passing + the desired (if different than the + or the one + passed to the repository constructor) and later verifying each + mock can become repetitive and tedious. + + This repository class helps in that scenario by providing a + simplified creation of multiple mocks with a default + (unless overriden by calling + ) and posterior verification. + + + + The following is a straightforward example on how to + create and automatically verify strict mocks using a : + + var repository = new MockRepository(MockBehavior.Strict); + + var foo = repository.Create<IFoo>(); + var bar = repository.Create<IBar>(); + + // no need to call Verifiable() on the setup + // as we'll be validating all of them anyway. + foo.Setup(f => f.Do()); + bar.Setup(b => b.Redo()); + + // exercise the mocks here + + repository.VerifyAll(); + // At this point all setups are already checked + // and an optional MockException might be thrown. + // Note also that because the mocks are strict, any invocation + // that doesn't have a matching setup will also throw a MockException. + + The following examples shows how to setup the repository + to create loose mocks and later verify only verifiable setups: + + var repository = new MockRepository(MockBehavior.Loose); + + var foo = repository.Create<IFoo>(); + var bar = repository.Create<IBar>(); + + // this setup will be verified when we verify the repository + foo.Setup(f => f.Do()).Verifiable(); + + // this setup will NOT be verified + foo.Setup(f => f.Calculate()); + + // this setup will be verified when we verify the repository + bar.Setup(b => b.Redo()).Verifiable(); + + // exercise the mocks here + // note that because the mocks are Loose, members + // called in the interfaces for which no matching + // setups exist will NOT throw exceptions, + // and will rather return default values. + + repository.Verify(); + // At this point verifiable setups are already checked + // and an optional MockException might be thrown. + + The following examples shows how to setup the repository with a + default strict behavior, overriding that default for a + specific mock: + + var repository = new MockRepository(MockBehavior.Strict); + + // this particular one we want loose + var foo = repository.Create<IFoo>(MockBehavior.Loose); + var bar = repository.Create<IBar>(); + + // specify setups + + // exercise the mocks here + + repository.Verify(); + + + + + + + Utility factory class to use to construct multiple + mocks when consistent verification is + desired for all of them. + + + If multiple mocks will be created during a test, passing + the desired (if different than the + or the one + passed to the factory constructor) and later verifying each + mock can become repetitive and tedious. + + This factory class helps in that scenario by providing a + simplified creation of multiple mocks with a default + (unless overriden by calling + ) and posterior verification. + + + + The following is a straightforward example on how to + create and automatically verify strict mocks using a : + + var factory = new MockFactory(MockBehavior.Strict); + + var foo = factory.Create<IFoo>(); + var bar = factory.Create<IBar>(); + + // no need to call Verifiable() on the setup + // as we'll be validating all of them anyway. + foo.Setup(f => f.Do()); + bar.Setup(b => b.Redo()); + + // exercise the mocks here + + factory.VerifyAll(); + // At this point all setups are already checked + // and an optional MockException might be thrown. + // Note also that because the mocks are strict, any invocation + // that doesn't have a matching setup will also throw a MockException. + + The following examples shows how to setup the factory + to create loose mocks and later verify only verifiable setups: + + var factory = new MockFactory(MockBehavior.Loose); + + var foo = factory.Create<IFoo>(); + var bar = factory.Create<IBar>(); + + // this setup will be verified when we verify the factory + foo.Setup(f => f.Do()).Verifiable(); + + // this setup will NOT be verified + foo.Setup(f => f.Calculate()); + + // this setup will be verified when we verify the factory + bar.Setup(b => b.Redo()).Verifiable(); + + // exercise the mocks here + // note that because the mocks are Loose, members + // called in the interfaces for which no matching + // setups exist will NOT throw exceptions, + // and will rather return default values. + + factory.Verify(); + // At this point verifiable setups are already checked + // and an optional MockException might be thrown. + + The following examples shows how to setup the factory with a + default strict behavior, overriding that default for a + specific mock: + + var factory = new MockFactory(MockBehavior.Strict); + + // this particular one we want loose + var foo = factory.Create<IFoo>(MockBehavior.Loose); + var bar = factory.Create<IBar>(); + + // specify setups + + // exercise the mocks here + + factory.Verify(); + + + + + + + Initializes the factory with the given + for newly created mocks from the factory. + + The behavior to use for mocks created + using the factory method if not overriden + by using the overload. + + + + Creates a new mock with the default + specified at factory construction time. + + Type to mock. + A new . + + + var factory = new MockFactory(MockBehavior.Strict); + + var foo = factory.Create<IFoo>(); + // use mock on tests + + factory.VerifyAll(); + + + + + + Creates a new mock with the default + specified at factory construction time and with the + the given constructor arguments for the class. + + + The mock will try to find the best match constructor given the + constructor arguments, and invoke that to initialize the instance. + This applies only to classes, not interfaces. + + Type to mock. + Constructor arguments for mocked classes. + A new . + + + var factory = new MockFactory(MockBehavior.Default); + + var mock = factory.Create<MyBase>("Foo", 25, true); + // use mock on tests + + factory.Verify(); + + + + + + Creates a new mock with the given . + + Type to mock. + Behavior to use for the mock, which overrides + the default behavior specified at factory construction time. + A new . + + The following example shows how to create a mock with a different + behavior to that specified as the default for the factory: + + var factory = new MockFactory(MockBehavior.Strict); + + var foo = factory.Create<IFoo>(MockBehavior.Loose); + + + + + + Creates a new mock with the given + and with the the given constructor arguments for the class. + + + The mock will try to find the best match constructor given the + constructor arguments, and invoke that to initialize the instance. + This applies only to classes, not interfaces. + + Type to mock. + Behavior to use for the mock, which overrides + the default behavior specified at factory construction time. + Constructor arguments for mocked classes. + A new . + + The following example shows how to create a mock with a different + behavior to that specified as the default for the factory, passing + constructor arguments: + + var factory = new MockFactory(MockBehavior.Default); + + var mock = factory.Create<MyBase>(MockBehavior.Strict, "Foo", 25, true); + + + + + + Implements creation of a new mock within the factory. + + Type to mock. + The behavior for the new mock. + Optional arguments for the construction of the mock. + + + + Verifies all verifiable expectations on all mocks created + by this factory. + + + One or more mocks had expectations that were not satisfied. + + + + Verifies all verifiable expectations on all mocks created + by this factory. + + + One or more mocks had expectations that were not satisfied. + + + + Invokes for each mock + in , and accumulates the resulting + that might be + thrown from the action. + + The action to execute against + each mock. + + + + Whether the base member virtual implementation will be called + for mocked classes if no setup is matched. Defaults to . + + + + + Specifies the behavior to use when returning default values for + unexpected invocations on loose mocks. + + + + + Gets the mocks that have been created by this factory and + that will get verified together. + + + + + Access the universe of mocks of the given type, to retrieve those + that behave according to the LINQ query specification. + + The type of the mocked object to query. + + + + Access the universe of mocks of the given type, to retrieve those + that behave according to the LINQ query specification. + + The predicate with the setup expressions. + The type of the mocked object to query. + + + + Creates an mock object of the indicated type. + + The type of the mocked object. + The mocked object created. + + + + Creates an mock object of the indicated type. + + The predicate with the setup expressions. + The type of the mocked object. + The mocked object created. + + + + Creates the mock query with the underlying queriable implementation. + + + + + Wraps the enumerator inside a queryable. + + + + + Method that is turned into the actual call from .Query{T}, to + transform the queryable query into a normal enumerable query. + This method is never used directly by consumers. + + + + + Initializes the repository with the given + for newly created mocks from the repository. + + The behavior to use for mocks created + using the repository method if not overriden + by using the overload. + + + + A that returns an empty default value + for invocations that do not have setups or return values, with loose mocks. + This is the default behavior for a mock. + + + + + Interface to be implemented by classes that determine the + default value of non-expected invocations. + + + + + Defines the default value to return in all the methods returning . + The type of the return value.The value to set as default. + + + + Provides a value for the given member and arguments. + + The member to provide a default value for. + + + + + The intention of is to create a more readable + string representation for the failure message. + + + + + Implements the fluent API. + + + + + Defines the Throws verb. + + + + + Specifies the exception to throw when the method is invoked. + + Exception instance to throw. + + This example shows how to throw an exception when the method is + invoked with an empty string argument: + + mock.Setup(x => x.Execute("")) + .Throws(new ArgumentException()); + + + + + + Specifies the type of exception to throw when the method is invoked. + + Type of exception to instantiate and throw when the setup is matched. + + This example shows how to throw an exception when the method is + invoked with an empty string argument: + + mock.Setup(x => x.Execute("")) + .Throws<ArgumentException>(); + + + + + + Implements the fluent API. + + + + + Defines occurrence members to constraint setups. + + + + + The expected invocation can happen at most once. + + + + var mock = new Mock<ICommand>(); + mock.Setup(foo => foo.Execute("ping")) + .AtMostOnce(); + + + + + + The expected invocation can happen at most specified number of times. + + The number of times to accept calls. + + + var mock = new Mock<ICommand>(); + mock.Setup(foo => foo.Execute("ping")) + .AtMost( 5 ); + + + + + + Defines the Verifiable verb. + + + + + Marks the expectation as verifiable, meaning that a call + to will check if this particular + expectation was met. + + + The following example marks the expectation as verifiable: + + mock.Expect(x => x.Execute("ping")) + .Returns(true) + .Verifiable(); + + + + + + Marks the expectation as verifiable, meaning that a call + to will check if this particular + expectation was met, and specifies a message for failures. + + + The following example marks the expectation as verifiable: + + mock.Expect(x => x.Execute("ping")) + .Returns(true) + .Verifiable("Ping should be executed always!"); + + + + + + Implements the fluent API. + + + + + We need this non-generics base class so that + we can use from + generic code. + + + + + Implements the fluent API. + + + + + Implements the fluent API. + + + + + Implements the fluent API. + + + + + Defines the Callback verb for property getter setups. + + + Mocked type. + Type of the property. + + + + Specifies a callback to invoke when the property is retrieved. + + Callback method to invoke. + + Invokes the given callback with the property value being set. + + mock.SetupGet(x => x.Suspended) + .Callback(() => called = true) + .Returns(true); + + + + + + Implements the fluent API. + + + + + Defines the Returns verb for property get setups. + + Mocked type. + Type of the property. + + + + Specifies the value to return. + + The value to return, or . + + Return a true value from the property getter call: + + mock.SetupGet(x => x.Suspended) + .Returns(true); + + + + + + Specifies a function that will calculate the value to return for the property. + + The function that will calculate the return value. + + Return a calculated value when the property is retrieved: + + mock.SetupGet(x => x.Suspended) + .Returns(() => returnValues[0]); + + The lambda expression to retrieve the return value is lazy-executed, + meaning that its value may change depending on the moment the property + is retrieved and the value the returnValues array has at + that moment. + + + + + Calls the real property of the object and returns its return value. + + The value calculated by the real property of the object. + + + + Implements the fluent API. + + + + + Provides additional methods on mocks. + + + Those methods are useful for Testeroids support. + + + + + Resets the calls previously made on the specified mock. + + The mock whose calls need to be reset. + + + + Helper class to setup a full trace between many mocks + + + + + Initialize a trace setup + + + + + Allow sequence to be repeated + + + + + define nice api + + + + + Perform an expectation in the trace. + + + + + Marks a method as a matcher, which allows complete replacement + of the built-in class with your own argument + matching rules. + + + This feature has been deprecated in favor of the new + and simpler . + + + The argument matching is used to determine whether a concrete + invocation in the mock matches a given setup. This + matching mechanism is fully extensible. + + + There are two parts of a matcher: the compiler matcher + and the runtime matcher. + + + Compiler matcher + Used to satisfy the compiler requirements for the + argument. Needs to be a method optionally receiving any arguments + you might need for the matching, but with a return type that + matches that of the argument. + + Let's say I want to match a lists of orders that contains + a particular one. I might create a compiler matcher like the following: + + + public static class Orders + { + [Matcher] + public static IEnumerable<Order> Contains(Order order) + { + return null; + } + } + + Now we can invoke this static method instead of an argument in an + invocation: + + var order = new Order { ... }; + var mock = new Mock<IRepository<Order>>(); + + mock.Setup(x => x.Save(Orders.Contains(order))) + .Throws<ArgumentException>(); + + Note that the return value from the compiler matcher is irrelevant. + This method will never be called, and is just used to satisfy the + compiler and to signal Moq that this is not a method that we want + to be invoked at runtime. + + + + Runtime matcher + + The runtime matcher is the one that will actually perform evaluation + when the test is run, and is defined by convention to have the + same signature as the compiler matcher, but where the return + value is the first argument to the call, which contains the + object received by the actual invocation at runtime: + + public static bool Contains(IEnumerable<Order> orders, Order order) + { + return orders.Contains(order); + } + + At runtime, the mocked method will be invoked with a specific + list of orders. This value will be passed to this runtime + matcher as the first argument, while the second argument is the + one specified in the setup (x.Save(Orders.Contains(order))). + + The boolean returned determines whether the given argument has been + matched. If all arguments to the expected method are matched, then + the setup matches and is evaluated. + + + + + + Using this extensible infrastructure, you can easily replace the entire + set of matchers with your own. You can also avoid the + typical (and annoying) lengthy expressions that result when you have + multiple arguments that use generics. + + + The following is the complete example explained above: + + public static class Orders + { + [Matcher] + public static IEnumerable<Order> Contains(Order order) + { + return null; + } + + public static bool Contains(IEnumerable<Order> orders, Order order) + { + return orders.Contains(order); + } + } + + And the concrete test using this matcher: + + var order = new Order { ... }; + var mock = new Mock<IRepository<Order>>(); + + mock.Setup(x => x.Save(Orders.Contains(order))) + .Throws<ArgumentException>(); + + // use mock, invoke Save, and have the matcher filter. + + + + + + Provides a mock implementation of . + + Any interface type can be used for mocking, but for classes, only abstract and virtual members can be mocked. + + The behavior of the mock with regards to the setups and the actual calls is determined + by the optional that can be passed to the + constructor. + + Type to mock, which can be an interface or a class. + The following example shows establishing setups with specific values + for method invocations: + + // Arrange + var order = new Order(TALISKER, 50); + var mock = new Mock<IWarehouse>(); + + mock.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true); + + // Act + order.Fill(mock.Object); + + // Assert + Assert.True(order.IsFilled); + + The following example shows how to use the class + to specify conditions for arguments instead of specific values: + + // Arrange + var order = new Order(TALISKER, 50); + var mock = new Mock<IWarehouse>(); + + // shows how to expect a value within a range + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsInRange(0, 100, Range.Inclusive))) + .Returns(false); + + // shows how to throw for unexpected calls. + mock.Setup(x => x.Remove( + It.IsAny<string>(), + It.IsAny<int>())) + .Throws(new InvalidOperationException()); + + // Act + order.Fill(mock.Object); + + // Assert + Assert.False(order.IsFilled); + + + + + + Obsolete. + + + + + Obsolete. + + + + + Obsolete. + + + + + Obsolete. + + + + + Obsolete. + + + + + Ctor invoked by AsTInterface exclusively. + + + + + Initializes an instance of the mock with default behavior. + + var mock = new Mock<IFormatProvider>(); + + + + + Initializes an instance of the mock with default behavior and with + the given constructor arguments for the class. (Only valid when is a class) + + The mock will try to find the best match constructor given the constructor arguments, and invoke that + to initialize the instance. This applies only for classes, not interfaces. + + var mock = new Mock<MyProvider>(someArgument, 25); + Optional constructor arguments if the mocked type is a class. + + + + Initializes an instance of the mock with the specified behavior. + + var mock = new Mock<IFormatProvider>(MockBehavior.Relaxed); + Behavior of the mock. + + + + Initializes an instance of the mock with a specific behavior with + the given constructor arguments for the class. + + The mock will try to find the best match constructor given the constructor arguments, and invoke that + to initialize the instance. This applies only to classes, not interfaces. + + var mock = new Mock<MyProvider>(someArgument, 25); + Behavior of the mock.Optional constructor arguments if the mocked type is a class. + + + + Returns the mocked object value. + + + + + Specifies a setup on the mocked type for a call to + to a void method. + + If more than one setup is specified for the same method or property, + the latest one wins and is the one that will be executed. + Lambda expression that specifies the expected method invocation. + + var mock = new Mock<IProcessor>(); + mock.Setup(x => x.Execute("ping")); + + + + + + Specifies a setup on the mocked type for a call to + to a value returning method. + Type of the return value. Typically omitted as it can be inferred from the expression. + If more than one setup is specified for the same method or property, + the latest one wins and is the one that will be executed. + Lambda expression that specifies the method invocation. + + mock.Setup(x => x.HasInventory("Talisker", 50)).Returns(true); + + + + + + Specifies a setup on the mocked type for a call to + to a property getter. + + If more than one setup is set for the same property getter, + the latest one wins and is the one that will be executed. + Type of the property. Typically omitted as it can be inferred from the expression.Lambda expression that specifies the property getter. + + mock.SetupGet(x => x.Suspended) + .Returns(true); + + + + + + Specifies a setup on the mocked type for a call to + to a property setter. + + If more than one setup is set for the same property setter, + the latest one wins and is the one that will be executed. + + This overloads allows the use of a callback already + typed for the property type. + + Type of the property. Typically omitted as it can be inferred from the expression.The Lambda expression that sets a property to a value. + + mock.SetupSet(x => x.Suspended = true); + + + + + + Specifies a setup on the mocked type for a call to + to a property setter. + + If more than one setup is set for the same property setter, + the latest one wins and is the one that will be executed. + Lambda expression that sets a property to a value. + + mock.SetupSet(x => x.Suspended = true); + + + + + + Specifies that the given property should have "property behavior", + meaning that setting its value will cause it to be saved and + later returned when the property is requested. (this is also + known as "stubbing"). + + Type of the property, inferred from the property + expression (does not need to be specified). + Property expression to stub. + If you have an interface with an int property Value, you might + stub it using the following straightforward call: + + var mock = new Mock<IHaveValue>(); + mock.Stub(v => v.Value); + + After the Stub call has been issued, setting and + retrieving the object value will behave as expected: + + IHaveValue v = mock.Object; + + v.Value = 5; + Assert.Equal(5, v.Value); + + + + + + Specifies that the given property should have "property behavior", + meaning that setting its value will cause it to be saved and + later returned when the property is requested. This overload + allows setting the initial value for the property. (this is also + known as "stubbing"). + + Type of the property, inferred from the property + expression (does not need to be specified). + Property expression to stub.Initial value for the property. + If you have an interface with an int property Value, you might + stub it using the following straightforward call: + + var mock = new Mock<IHaveValue>(); + mock.SetupProperty(v => v.Value, 5); + + After the SetupProperty call has been issued, setting and + retrieving the object value will behave as expected: + + IHaveValue v = mock.Object; + // Initial value was stored + Assert.Equal(5, v.Value); + + // New value set which changes the initial value + v.Value = 6; + Assert.Equal(6, v.Value); + + + + + + Specifies that the all properties on the mock should have "property behavior", + meaning that setting its value will cause it to be saved and + later returned when the property is requested. (this is also + known as "stubbing"). The default value for each property will be the + one generated as specified by the property for the mock. + + If the mock is set to , + the mocked default values will also get all properties setup recursively. + + + + + + + + Verifies that a specific invocation matching the given expression was performed on the mock. Use + in conjuntion with the default . + + This example assumes that the mock has been used, and later we want to verify that a given + invocation with specific parameters was performed: + + var mock = new Mock<IProcessor>(); + // exercise mock + //... + // Will throw if the test code didn't call Execute with a "ping" string argument. + mock.Verify(proc => proc.Execute("ping")); + + The invocation was not performed on the mock.Expression to verify. + + + + Verifies that a specific invocation matching the given expression was performed on the mock. Use + in conjuntion with the default . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called. + + + + Verifies that a specific invocation matching the given expression was performed on the mock. Use + in conjuntion with the default . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called. + + + + Verifies that a specific invocation matching the given expression was performed on the mock, + specifying a failure error message. Use in conjuntion with the default + . + + This example assumes that the mock has been used, and later we want to verify that a given + invocation with specific parameters was performed: + + var mock = new Mock<IProcessor>(); + // exercise mock + //... + // Will throw if the test code didn't call Execute with a "ping" string argument. + mock.Verify(proc => proc.Execute("ping")); + + The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. + + + + Verifies that a specific invocation matching the given expression was performed on the mock, + specifying a failure error message. Use in conjuntion with the default + . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails. + + + + Verifies that a specific invocation matching the given expression was performed on the mock, + specifying a failure error message. Use in conjuntion with the default + . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails. + + + + Verifies that a specific invocation matching the given expression was performed on the mock. Use + in conjuntion with the default . + + This example assumes that the mock has been used, and later we want to verify that a given + invocation with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't call HasInventory. + mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50)); + + The invocation was not performed on the mock.Expression to verify.Type of return value from the expression. + + + + Verifies that a specific invocation matching the given + expression was performed on the mock. Use in conjuntion + with the default . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Type of return value from the expression. + + + + Verifies that a specific invocation matching the given + expression was performed on the mock. Use in conjuntion + with the default . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Type of return value from the expression. + + + + Verifies that a specific invocation matching the given + expression was performed on the mock, specifying a failure + error message. + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't call HasInventory. + mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50), "When filling orders, inventory has to be checked"); + + The invocation was not performed on the mock.Expression to verify.Message to show if verification fails.Type of return value from the expression. + + + + Verifies that a specific invocation matching the given + expression was performed on the mock, specifying a failure + error message. + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails.Type of return value from the expression. + + + + Verifies that a property was read on the mock. + + This example assumes that the mock has been used, + and later we want to verify that a given property + was retrieved from it: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't retrieve the IsClosed property. + mock.VerifyGet(warehouse => warehouse.IsClosed); + + The invocation was not performed on the mock.Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock, specifying a failure + error message. + + This example assumes that the mock has been used, + and later we want to verify that a given property + was retrieved from it: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't retrieve the IsClosed property. + mock.VerifyGet(warehouse => warehouse.IsClosed); + + The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock, specifying a failure + error message. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock, specifying a failure + error message. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was set on the mock. + + This example assumes that the mock has been used, + and later we want to verify that a given property + was set on it: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed = true); + + The invocation was not performed on the mock.Expression to verify. + + + + Verifies that a property was set on the mock. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify. + + + + Verifies that a property was set on the mock. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify. + + + + Verifies that a property was set on the mock, specifying + a failure message. + + This example assumes that the mock has been used, + and later we want to verify that a given property + was set on it: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed = true, "Warehouse should always be closed after the action"); + + The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. + + + + Verifies that a property was set on the mock, specifying + a failure message. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. + + + + Verifies that a property was set on the mock, specifying + a failure message. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. + + + + Raises the event referenced in using + the given argument. + + The argument is + invalid for the target event invocation, or the is + not an event attach or detach expression. + + The following example shows how to raise a event: + + var mock = new Mock<IViewModel>(); + + mock.Raise(x => x.PropertyChanged -= null, new PropertyChangedEventArgs("Name")); + + + This example shows how to invoke an event with a custom event arguments + class in a view that will cause its corresponding presenter to + react by changing its state: + + var mockView = new Mock<IOrdersView>(); + var presenter = new OrdersPresenter(mockView.Object); + + // Check that the presenter has no selection by default + Assert.Null(presenter.SelectedOrder); + + // Raise the event with a specific arguments data + mockView.Raise(v => v.SelectionChanged += null, new OrderEventArgs { Order = new Order("moq", 500) }); + + // Now the presenter reacted to the event, and we have a selected order + Assert.NotNull(presenter.SelectedOrder); + Assert.Equal("moq", presenter.SelectedOrder.ProductName); + + + + + + Raises the event referenced in using + the given argument for a non-EventHandler typed event. + + The arguments are + invalid for the target event invocation, or the is + not an event attach or detach expression. + + The following example shows how to raise a custom event that does not adhere to + the standard EventHandler: + + var mock = new Mock<IViewModel>(); + + mock.Raise(x => x.MyEvent -= null, "Name", bool, 25); + + + + + + Exposes the mocked object instance. + + + + + + + + Provides legacy API members as extensions so that + existing code continues to compile, but new code + doesn't see then. + + + + + Obsolete. + + + + + Obsolete. + + + + + Obsolete. + + + + + Provides additional methods on mocks. + + + Provided as extension methods as they confuse the compiler + with the overloads taking Action. + + + + + Specifies a setup on the mocked type for a call to + to a property setter, regardless of its value. + + + If more than one setup is set for the same property setter, + the latest one wins and is the one that will be executed. + + Type of the property. Typically omitted as it can be inferred from the expression. + Type of the mock. + The target mock for the setup. + Lambda expression that specifies the property setter. + + + mock.SetupSet(x => x.Suspended); + + + + This method is not legacy, but must be on an extension method to avoid + confusing the compiler with the new Action syntax. + + + + + Verifies that a property has been set on the mock, regarless of its value. + + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed); + + + The invocation was not performed on the mock. + Expression to verify. + The mock instance. + Mocked type. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + Verifies that a property has been set on the mock, specifying a failure + error message. + + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed); + + + The invocation was not performed on the mock. + Expression to verify. + Message to show if verification fails. + The mock instance. + Mocked type. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + Verifies that a property has been set on the mock, regardless + of the value but only the specified number of times. + + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed); + + + The invocation was not performed on the mock. + The invocation was not call the times specified by + . + The mock instance. + Mocked type. + The number of times a method is allowed to be called. + Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + Verifies that a property has been set on the mock, regardless + of the value but only the specified number of times, and specifying a failure + error message. + + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed); + + + The invocation was not performed on the mock. + The invocation was not call the times specified by + . + The mock instance. + Mocked type. + The number of times a method is allowed to be called. + Message to show if verification fails. + Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + Helper for sequencing return values in the same method. + + + + + Return a sequence of values, once per call. + + + + + Casts the expression to a lambda expression, removing + a cast if there's any. + + + + + Casts the body of the lambda expression to a . + + If the body is not a method call. + + + + Converts the body of the lambda expression into the referenced by it. + + + + + Checks whether the body of the lambda expression is a property access. + + + + + Checks whether the expression is a property access. + + + + + Checks whether the body of the lambda expression is a property indexer, which is true + when the expression is an whose + has + equal to . + + + + + Checks whether the expression is a property indexer, which is true + when the expression is an whose + has + equal to . + + + + + Creates an expression that casts the given expression to the + type. + + + + + TODO: remove this code when https://connect.microsoft.com/VisualStudio/feedback/ViewFeedback.aspx?FeedbackID=331583 + is fixed. + + + + + Extracts, into a common form, information from a + around either a (for a normal method call) + or a (for a delegate invocation). + + + + + Tests if a type is a delegate type (subclasses ). + + + + + Provides partial evaluation of subtrees, whenever they can be evaluated locally. + + Matt Warren: http://blogs.msdn.com/mattwar + Documented by InSTEDD: http://www.instedd.org + + + + Performs evaluation and replacement of independent sub-trees + + The root of the expression tree. + A function that decides whether a given expression + node can be part of the local function. + A new tree with sub-trees evaluated and replaced. + + + + Performs evaluation and replacement of independent sub-trees + + The root of the expression tree. + A new tree with sub-trees evaluated and replaced. + + + + Evaluates and replaces sub-trees when first candidate is reached (top-down) + + + + + Performs bottom-up analysis to determine which nodes can possibly + be part of an evaluated sub-tree. + + + + + Ensures the given is not null. + Throws otherwise. + + + + + Ensures the given string is not null or empty. + Throws in the first case, or + in the latter. + + + + + Checks an argument to ensure it is in the specified range including the edges. + + Type of the argument to check, it must be an type. + + The expression containing the name of the argument. + The argument value to check. + The minimun allowed value for the argument. + The maximun allowed value for the argument. + + + + Checks an argument to ensure it is in the specified range excluding the edges. + + Type of the argument to check, it must be an type. + + The expression containing the name of the argument. + The argument value to check. + The minimun allowed value for the argument. + The maximun allowed value for the argument. + + + + Implemented by all generated mock object instances. + + + + + Implemented by all generated mock object instances. + + + + + Reference the Mock that contains this as the mock.Object value. + + + + + Reference the Mock that contains this as the mock.Object value. + + + + + Implements the actual interception and method invocation for + all mocks. + + + + + Implements the fluent API. + + + + + Defines the Callback verb for property setter setups. + + Type of the property. + + + + Specifies a callback to invoke when the property is set that receives the + property value being set. + + Callback method to invoke. + + Invokes the given callback with the property value being set. + + mock.SetupSet(x => x.Suspended) + .Callback((bool state) => Console.WriteLine(state)); + + + + + + Allows the specification of a matching condition for an + argument in a method invocation, rather than a specific + argument value. "It" refers to the argument being matched. + + This class allows the setup to match a method invocation + with an arbitrary value, with a value in a specified range, or + even one that matches a given predicate. + + + + + Matches any value of the given type. + + Typically used when the actual argument value for a method + call is not relevant. + + + // Throws an exception for a call to Remove with any string value. + mock.Setup(x => x.Remove(It.IsAny<string>())).Throws(new InvalidOperationException()); + + Type of the value. + + + + Matches any value of the given type, except null. + Type of the value. + + + + Matches any value that satisfies the given predicate. + Type of the argument to check.The predicate used to match the method argument. + Allows the specification of a predicate to perform matching + of method call arguments. + + This example shows how to return the value 1 whenever the argument to the + Do method is an even number. + + mock.Setup(x => x.Do(It.Is<int>(i => i % 2 == 0))) + .Returns(1); + + This example shows how to throw an exception if the argument to the + method is a negative number: + + mock.Setup(x => x.GetUser(It.Is<int>(i => i < 0))) + .Throws(new ArgumentException()); + + + + + + Matches any value that is in the range specified. + Type of the argument to check.The lower bound of the range.The upper bound of the range. + The kind of range. See . + + The following example shows how to expect a method call + with an integer argument within the 0..100 range. + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsInRange(0, 100, Range.Inclusive))) + .Returns(false); + + + + + + Matches any value that is present in the sequence specified. + Type of the argument to check.The sequence of possible values. + The following example shows how to expect a method call + with an integer argument with value from a list. + + var values = new List<int> { 1, 2, 3 }; + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsIn(values))) + .Returns(false); + + + + + + Matches any value that is present in the sequence specified. + Type of the argument to check.The sequence of possible values. + The following example shows how to expect a method call + with an integer argument with a value of 1, 2, or 3. + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsIn(1, 2, 3))) + .Returns(false); + + + + + + Matches any value that is not found in the sequence specified. + Type of the argument to check.The sequence of disallowed values. + The following example shows how to expect a method call + with an integer argument with value not found from a list. + + var values = new List<int> { 1, 2, 3 }; + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsNotIn(values))) + .Returns(false); + + + + + + Matches any value that is not found in the sequence specified. + Type of the argument to check.The sequence of disallowed values. + The following example shows how to expect a method call + with an integer argument of any value except 1, 2, or 3. + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsNotIn(1, 2, 3))) + .Returns(false); + + + + + + Matches a string argument if it matches the given regular expression pattern. + The pattern to use to match the string argument value. + The following example shows how to expect a call to a method where the + string argument matches the given regular expression: + + mock.Setup(x => x.Check(It.IsRegex("[a-z]+"))).Returns(1); + + + + + + Matches a string argument if it matches the given regular expression pattern. + The pattern to use to match the string argument value.The options used to interpret the pattern. + The following example shows how to expect a call to a method where the + string argument matches the given regular expression, in a case insensitive way: + + mock.Setup(x => x.Check(It.IsRegex("[a-z]+", RegexOptions.IgnoreCase))).Returns(1); + + + + + + Matcher to treat static functions as matchers. + + mock.Setup(x => x.StringMethod(A.MagicString())); + + public static class A + { + [Matcher] + public static string MagicString() { return null; } + public static bool MagicString(string arg) + { + return arg == "magic"; + } + } + + Will succeed if: mock.Object.StringMethod("magic"); + and fail with any other call. + + + + + Options to customize the behavior of the mock. + + + + + Causes the mock to always throw + an exception for invocations that don't have a + corresponding setup. + + + + + Will never throw exceptions, returning default + values when necessary (null for reference types, + zero for value types or empty enumerables and arrays). + + + + + Default mock behavior, which equals . + + + + + Exception thrown by mocks when setups are not matched, + the mock is not properly setup, etc. + + + A distinct exception type is provided so that exceptions + thrown by the mock can be differentiated in tests that + expect other exceptions to be thrown (i.e. ArgumentException). + + Richer exception hierarchy/types are not provided as + tests typically should not catch or expect exceptions + from the mocks. These are typically the result of changes + in the tested class or its collaborators implementation, and + result in fixes in the mock setup so that they dissapear and + allow the test to pass. + + + + + + Supports the serialization infrastructure. + + Serialization information. + Streaming context. + + + + Supports the serialization infrastructure. + + Serialization information. + Streaming context. + + + + Indicates whether this exception is a verification fault raised by Verify() + + + + + Made internal as it's of no use for + consumers, but it's important for + our own tests. + + + + + Used by the mock factory to accumulate verification + failures. + + + + + Supports the serialization infrastructure. + + + + + A strongly-typed resource class, for looking up localized strings, etc. + + + + + Returns the cached ResourceManager instance used by this class. + + + + + Overrides the current thread's CurrentUICulture property for all + resource lookups using this strongly typed resource class. + + + + + Looks up a localized string similar to Mock type has already been initialized by accessing its Object property. Adding interfaces must be done before that.. + + + + + Looks up a localized string similar to Value cannot be an empty string.. + + + + + Looks up a localized string similar to Can only add interfaces to the mock.. + + + + + Looks up a localized string similar to Can't set return value for void method {0}.. + + + + + Looks up a localized string similar to Constructor arguments cannot be passed for delegate mocks.. + + + + + Looks up a localized string similar to Constructor arguments cannot be passed for interface mocks.. + + + + + Looks up a localized string similar to A matching constructor for the given arguments was not found on the mocked type.. + + + + + Looks up a localized string similar to Could not locate event for attach or detach method {0}.. + + + + + Looks up a localized string similar to Expression {0} involves a field access, which is not supported. Use properties instead.. + + + + + Looks up a localized string similar to Type to mock must be an interface or an abstract or non-sealed class. . + + + + + Looks up a localized string similar to Cannot retrieve a mock with the given object type {0} as it's not the main type of the mock or any of its additional interfaces. + Please cast the argument to one of the supported types: {1}. + Remember that there's no generics covariance in the CLR, so your object must be one of these types in order for the call to succeed.. + + + + + Looks up a localized string similar to The equals ("==" or "=" in VB) and the conditional 'and' ("&&" or "AndAlso" in VB) operators are the only ones supported in the query specification expression. Unsupported expression: {0}. + + + + + Looks up a localized string similar to LINQ method '{0}' not supported.. + + + + + Looks up a localized string similar to Expression contains a call to a method which is not virtual (overridable in VB) or abstract. Unsupported expression: {0}. + + + + + Looks up a localized string similar to Member {0}.{1} does not exist.. + + + + + Looks up a localized string similar to Method {0}.{1} is public. Use strong-typed Expect overload instead: + mock.Setup(x => x.{1}()); + . + + + + + Looks up a localized string similar to {0} invocation failed with mock behavior {1}. + {2}. + + + + + Looks up a localized string similar to Expected only {0} calls to {1}.. + + + + + Looks up a localized string similar to Expected only one call to {0}.. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock at least {2} times, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock at least once, but was never performed: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock at most {3} times, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock at most once, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock between {2} and {3} times (Exclusive), but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock between {2} and {3} times (Inclusive), but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock exactly {2} times, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock should never have been performed, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock once, but was {4} times: {1}. + + + + + Looks up a localized string similar to All invocations on the mock must have a corresponding setup.. + + + + + Looks up a localized string similar to Object instance was not created by Moq.. + + + + + Looks up a localized string similar to Out expression must evaluate to a constant value.. + + + + + Looks up a localized string similar to Property {0}.{1} does not have a getter.. + + + + + Looks up a localized string similar to Property {0}.{1} does not exist.. + + + + + Looks up a localized string similar to Property {0}.{1} is write-only.. + + + + + Looks up a localized string similar to Property {0}.{1} is read-only.. + + + + + Looks up a localized string similar to Property {0}.{1} does not have a setter.. + + + + + Looks up a localized string similar to Cannot raise a mocked event unless it has been associated (attached) to a concrete event in a mocked object.. + + + + + Looks up a localized string similar to Ref expression must evaluate to a constant value.. + + + + + Looks up a localized string similar to Invocation needs to return a value and therefore must have a corresponding setup that provides it.. + + + + + Looks up a localized string similar to A lambda expression is expected as the argument to It.Is<T>.. + + + + + Looks up a localized string similar to Invocation {0} should not have been made.. + + + + + Looks up a localized string similar to Expression is not a method invocation: {0}. + + + + + Looks up a localized string similar to Expression is not a property access: {0}. + + + + + Looks up a localized string similar to Expression is not a property setter invocation.. + + + + + Looks up a localized string similar to Expression references a method that does not belong to the mocked object: {0}. + + + + + Looks up a localized string similar to Invalid setup on a non-virtual (overridable in VB) member: {0}. + + + + + Looks up a localized string similar to Type {0} does not implement required interface {1}. + + + + + Looks up a localized string similar to Type {0} does not from required type {1}. + + + + + Looks up a localized string similar to To specify a setup for public property {0}.{1}, use the typed overloads, such as: + mock.Setup(x => x.{1}).Returns(value); + mock.SetupGet(x => x.{1}).Returns(value); //equivalent to previous one + mock.SetupSet(x => x.{1}).Callback(callbackDelegate); + . + + + + + Looks up a localized string similar to Unsupported expression: {0}. + + + + + Looks up a localized string similar to Only property accesses are supported in intermediate invocations on a setup. Unsupported expression {0}.. + + + + + Looks up a localized string similar to Expression contains intermediate property access {0}.{1} which is of type {2} and cannot be mocked. Unsupported expression {3}.. + + + + + Looks up a localized string similar to Setter expression cannot use argument matchers that receive parameters.. + + + + + Looks up a localized string similar to Member {0} is not supported for protected mocking.. + + + + + Looks up a localized string similar to Setter expression can only use static custom matchers.. + + + + + Looks up a localized string similar to The following setups were not matched: + {0}. + + + + + Looks up a localized string similar to Invalid verify on a non-virtual (overridable in VB) member: {0}. + + + + + Allows setups to be specified for protected members by using their + name as a string, rather than strong-typing them which is not possible + due to their visibility. + + + + + Specifies a setup for a void method invocation with the given + , optionally specifying arguments for the method call. + + The name of the void method to be invoked. + The optional arguments for the invocation. If argument matchers are used, + remember to use rather than . + + + + Specifies a setup for an invocation on a property or a non void method with the given + , optionally specifying arguments for the method call. + + The name of the method or property to be invoked. + The optional arguments for the invocation. If argument matchers are used, + remember to use rather than . + The return type of the method or property. + + + + Specifies a setup for an invocation on a property getter with the given + . + + The name of the property. + The type of the property. + + + + Specifies a setup for an invocation on a property setter with the given + . + + The name of the property. + The property value. If argument matchers are used, + remember to use rather than . + The type of the property. + + + + Specifies a verify for a void method with the given , + optionally specifying arguments for the method call. Use in conjuntion with the default + . + + The invocation was not call the times specified by + . + The name of the void method to be verified. + The number of times a method is allowed to be called. + The optional arguments for the invocation. If argument matchers are used, + remember to use rather than . + + + + Specifies a verify for an invocation on a property or a non void method with the given + , optionally specifying arguments for the method call. + + The invocation was not call the times specified by + . + The name of the method or property to be invoked. + The optional arguments for the invocation. If argument matchers are used, + remember to use rather than . + The number of times a method is allowed to be called. + The type of return value from the expression. + + + + Specifies a verify for an invocation on a property getter with the given + . + The invocation was not call the times specified by + . + + The name of the property. + The number of times a method is allowed to be called. + The type of the property. + + + + Specifies a setup for an invocation on a property setter with the given + . + + The invocation was not call the times specified by + . + The name of the property. + The number of times a method is allowed to be called. + The property value. + The type of the property. If argument matchers are used, + remember to use rather than . + + + + Allows the specification of a matching condition for an + argument in a protected member setup, rather than a specific + argument value. "ItExpr" refers to the argument being matched. + + + Use this variant of argument matching instead of + for protected setups. + This class allows the setup to match a method invocation + with an arbitrary value, with a value in a specified range, or + even one that matches a given predicate, or null. + + + + + Matches a null value of the given type. + + + Required for protected mocks as the null value cannot be used + directly as it prevents proper method overload selection. + + + + // Throws an exception for a call to Remove with a null string value. + mock.Protected() + .Setup("Remove", ItExpr.IsNull<string>()) + .Throws(new InvalidOperationException()); + + + Type of the value. + + + + Matches any value of the given type. + + + Typically used when the actual argument value for a method + call is not relevant. + + + + // Throws an exception for a call to Remove with any string value. + mock.Protected() + .Setup("Remove", ItExpr.IsAny<string>()) + .Throws(new InvalidOperationException()); + + + Type of the value. + + + + Matches any value that satisfies the given predicate. + + Type of the argument to check. + The predicate used to match the method argument. + + Allows the specification of a predicate to perform matching + of method call arguments. + + + This example shows how to return the value 1 whenever the argument to the + Do method is an even number. + + mock.Protected() + .Setup("Do", ItExpr.Is<int>(i => i % 2 == 0)) + .Returns(1); + + This example shows how to throw an exception if the argument to the + method is a negative number: + + mock.Protected() + .Setup("GetUser", ItExpr.Is<int>(i => i < 0)) + .Throws(new ArgumentException()); + + + + + + Matches any value that is in the range specified. + + Type of the argument to check. + The lower bound of the range. + The upper bound of the range. + The kind of range. See . + + The following example shows how to expect a method call + with an integer argument within the 0..100 range. + + mock.Protected() + .Setup("HasInventory", + ItExpr.IsAny<string>(), + ItExpr.IsInRange(0, 100, Range.Inclusive)) + .Returns(false); + + + + + + Matches a string argument if it matches the given regular expression pattern. + + The pattern to use to match the string argument value. + + The following example shows how to expect a call to a method where the + string argument matches the given regular expression: + + mock.Protected() + .Setup("Check", ItExpr.IsRegex("[a-z]+")) + .Returns(1); + + + + + + Matches a string argument if it matches the given regular expression pattern. + + The pattern to use to match the string argument value. + The options used to interpret the pattern. + + The following example shows how to expect a call to a method where the + string argument matches the given regular expression, in a case insensitive way: + + mock.Protected() + .Setup("Check", ItExpr.IsRegex("[a-z]+", RegexOptions.IgnoreCase)) + .Returns(1); + + + + + + Enables the Protected() method on , + allowing setups to be set for protected members by using their + name as a string, rather than strong-typing them which is not possible + due to their visibility. + + + + + Enable protected setups for the mock. + + Mocked object type. Typically omitted as it can be inferred from the mock instance. + The mock to set the protected setups on. + + + + + + + + + + + + Kind of range to use in a filter specified through + . + + + + + The range includes the to and + from values. + + + + + The range does not include the to and + from values. + + + + + Determines the way default values are generated + calculated for loose mocks. + + + + + Default behavior, which generates empty values for + value types (i.e. default(int)), empty array and + enumerables, and nulls for all other reference types. + + + + + Whenever the default value generated by + is null, replaces this value with a mock (if the type + can be mocked). + + + For sealed classes, a null value will be generated. + + + + + A default implementation of IQueryable for use with QueryProvider + + + + + The is a + static method that returns an IQueryable of Mocks of T which is used to + apply the linq specification to. + + + + + Allows creation custom value matchers that can be used on setups and verification, + completely replacing the built-in class with your own argument + matching rules. + + See also . + + + + + Provided for the sole purpose of rendering the delegate passed to the + matcher constructor if no friendly render lambda is provided. + + + + + Initializes the match with the condition that + will be checked in order to match invocation + values. + The condition to match against actual values. + + + + + + + + + This method is used to set an expression as the last matcher invoked, + which is used in the SetupSet to allow matchers in the prop = value + delegate expression. This delegate is executed in "fluent" mode in + order to capture the value being set, and construct the corresponding + methodcall. + This is also used in the MatcherFactory for each argument expression. + This method ensures that when we execute the delegate, we + also track the matcher that was invoked, so that when we create the + methodcall we build the expression using it, rather than the null/default + value returned from the actual invocation. + + + + + Allows creation custom value matchers that can be used on setups and verification, + completely replacing the built-in class with your own argument + matching rules. + Type of the value to match. + The argument matching is used to determine whether a concrete + invocation in the mock matches a given setup. This + matching mechanism is fully extensible. + + Creating a custom matcher is straightforward. You just need to create a method + that returns a value from a call to with + your matching condition and optional friendly render expression: + + [Matcher] + public Order IsBigOrder() + { + return Match<Order>.Create( + o => o.GrandTotal >= 5000, + /* a friendly expression to render on failures */ + () => IsBigOrder()); + } + + This method can be used in any mock setup invocation: + + mock.Setup(m => m.Submit(IsBigOrder()).Throws<UnauthorizedAccessException>(); + + At runtime, Moq knows that the return value was a matcher (note that the method MUST be + annotated with the [Matcher] attribute in order to determine this) and + evaluates your predicate with the actual value passed into your predicate. + + Another example might be a case where you want to match a lists of orders + that contains a particular one. You might create matcher like the following: + + + public static class Orders + { + [Matcher] + public static IEnumerable<Order> Contains(Order order) + { + return Match<IEnumerable<Order>>.Create(orders => orders.Contains(order)); + } + } + + Now we can invoke this static method instead of an argument in an + invocation: + + var order = new Order { ... }; + var mock = new Mock<IRepository<Order>>(); + + mock.Setup(x => x.Save(Orders.Contains(order))) + .Throws<ArgumentException>(); + + + + + + Tracks the current mock and interception context. + + + + + Having an active fluent mock context means that the invocation + is being performed in "trial" mode, just to gather the + target method and arguments that need to be matched later + when the actual invocation is made. + + + + + A that returns an empty default value + for non-mockeable types, and mocks for all other types (interfaces and + non-sealed classes) that can be mocked. + + + + + Allows querying the universe of mocks for those that behave + according to the LINQ query specification. + + + This entry-point into Linq to Mocks is the only one in the root Moq + namespace to ease discovery. But to get all the mocking extension + methods on Object, a using of Moq.Linq must be done, so that the + polluting of the intellisense for all objects is an explicit opt-in. + + + + + Access the universe of mocks of the given type, to retrieve those + that behave according to the LINQ query specification. + + The type of the mocked object to query. + + + + Access the universe of mocks of the given type, to retrieve those + that behave according to the LINQ query specification. + + The predicate with the setup expressions. + The type of the mocked object to query. + + + + Creates an mock object of the indicated type. + + The type of the mocked object. + The mocked object created. + + + + Creates an mock object of the indicated type. + + The predicate with the setup expressions. + The type of the mocked object. + The mocked object created. + + + + Creates the mock query with the underlying queriable implementation. + + + + + Wraps the enumerator inside a queryable. + + + + + Method that is turned into the actual call from .Query{T}, to + transform the queryable query into a normal enumerable query. + This method is never used directly by consumers. + + + + + Extension method used to support Linq-like setup properties that are not virtual but do have + a getter and a setter, thereby allowing the use of Linq to Mocks to quickly initialize Dtos too :) + + + + + Helper extensions that are used by the query translator. + + + + + Retrieves a fluent mock from the given setup expression. + + + + + Gets an autogenerated interface with a method on it that matches the signature of the specified + . + + + Such an interface can then be mocked, and a delegate pointed at the method on the mocked instance. + This is how we support delegate mocking. The factory caches such interfaces and reuses them + for repeated requests for the same delegate type. + + The delegate type for which an interface is required. + The method on the autogenerated interface. + + + + + + + + + + Defines the number of invocations allowed by a mocked method. + + + + + Specifies that a mocked method should be invoked times as minimum. + The minimun number of times.An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked one time as minimum. + An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked time as maximun. + The maximun number of times.An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked one time as maximun. + An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked between and + times. + The minimun number of times.The maximun number of times. + The kind of range. See . + An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked exactly times. + The times that a method or property can be called.An object defining the allowed number of invocations. + + + + Specifies that a mocked method should not be invoked. + An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked exactly one time. + An object defining the allowed number of invocations. + + + + Determines whether the specified is equal to this instance. + + The to compare with this instance. + + true if the specified is equal to this instance; otherwise, false. + + + + + Returns a hash code for this instance. + + A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. + + + + + Determines whether two specified objects have the same value. + + The first . + + The second . + + true if the value of left is the same as the value of right; otherwise, false. + + + + + Determines whether two specified objects have different values. + + The first . + + The second . + + true if the value of left is different from the value of right; otherwise, false. + + + + diff --git a/packages/Moq.4.1.1309.1617/lib/sl4/Moq.Silverlight.dll b/packages/Moq.4.1.1309.1617/lib/sl4/Moq.Silverlight.dll new file mode 100644 index 0000000..d4fc4ee Binary files /dev/null and b/packages/Moq.4.1.1309.1617/lib/sl4/Moq.Silverlight.dll differ diff --git a/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.xml b/packages/Moq.4.1.1309.1617/lib/sl4/Moq.Silverlight.xml old mode 100755 new mode 100644 similarity index 93% rename from packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.xml rename to packages/Moq.4.1.1309.1617/lib/sl4/Moq.Silverlight.xml index ac37f5c..4c2a6ee --- a/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.xml +++ b/packages/Moq.4.1.1309.1617/lib/sl4/Moq.Silverlight.xml @@ -1,5101 +1,5353 @@ - - - - Moq.Silverlight - - - - - Provides a mock implementation of . - - Any interface type can be used for mocking, but for classes, only abstract and virtual members can be mocked. - - The behavior of the mock with regards to the setups and the actual calls is determined - by the optional that can be passed to the - constructor. - - Type to mock, which can be an interface or a class. - The following example shows establishing setups with specific values - for method invocations: - - // Arrange - var order = new Order(TALISKER, 50); - var mock = new Mock<IWarehouse>(); - - mock.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true); - - // Act - order.Fill(mock.Object); - - // Assert - Assert.True(order.IsFilled); - - The following example shows how to use the class - to specify conditions for arguments instead of specific values: - - // Arrange - var order = new Order(TALISKER, 50); - var mock = new Mock<IWarehouse>(); - - // shows how to expect a value within a range - mock.Setup(x => x.HasInventory( - It.IsAny<string>(), - It.IsInRange(0, 100, Range.Inclusive))) - .Returns(false); - - // shows how to throw for unexpected calls. - mock.Setup(x => x.Remove( - It.IsAny<string>(), - It.IsAny<int>())) - .Throws(new InvalidOperationException()); - - // Act - order.Fill(mock.Object); - - // Assert - Assert.False(order.IsFilled); - - - - - - Base class for mocks and static helper class with methods that - apply to mocked objects, such as to - retrieve a from an object instance. - - - - - Helper interface used to hide the base - members from the fluent API to make it much cleaner - in Visual Studio intellisense. - - - - - - - - - - - - - - - - - Creates an mock object of the indicated type. - - The type of the mocked object. - The mocked object created. - - - - Creates an mock object of the indicated type. - - The predicate with the specification of how the mocked object should behave. - The type of the mocked object. - The mocked object created. - - - - Initializes a new instance of the class. - - - - - Retrieves the mock object for the given object instance. - - Type of the mock to retrieve. Can be omitted as it's inferred - from the object instance passed in as the instance. - The instance of the mocked object.The mock associated with the mocked object. - The received instance - was not created by Moq. - - The following example shows how to add a new setup to an object - instance which is not the original but rather - the object associated with it: - - // Typed instance, not the mock, is retrieved from some test API. - HttpContextBase context = GetMockContext(); - - // context.Request is the typed object from the "real" API - // so in order to add a setup to it, we need to get - // the mock that "owns" it - Mock<HttpRequestBase> request = Mock.Get(context.Request); - mock.Setup(req => req.AppRelativeCurrentExecutionFilePath) - .Returns(tempUrl); - - - - - - Returns the mocked object value. - - - - - Verifies that all verifiable expectations have been met. - - This example sets up an expectation and marks it as verifiable. After - the mock is used, a Verify() call is issued on the mock - to ensure the method in the setup was invoked: - - var mock = new Mock<IWarehouse>(); - this.Setup(x => x.HasInventory(TALISKER, 50)).Verifiable().Returns(true); - ... - // other test code - ... - // Will throw if the test code has didn't call HasInventory. - this.Verify(); - - Not all verifiable expectations were met. - - - - Verifies all expectations regardless of whether they have - been flagged as verifiable. - - This example sets up an expectation without marking it as verifiable. After - the mock is used, a call is issued on the mock - to ensure that all expectations are met: - - var mock = new Mock<IWarehouse>(); - this.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true); - ... - // other test code - ... - // Will throw if the test code has didn't call HasInventory, even - // that expectation was not marked as verifiable. - this.VerifyAll(); - - At least one expectation was not met. - - - - Gets the interceptor target for the given expression and root mock, - building the intermediate hierarchy of mock objects if necessary. - - - - - Raises the associated event with the given - event argument data. - - - - - Raises the associated event with the given - event argument data. - - - - - Adds an interface implementation to the mock, - allowing setups to be specified for it. - - This method can only be called before the first use - of the mock property, at which - point the runtime type has already been generated - and no more interfaces can be added to it. - - Also, must be an - interface and not a class, which must be specified - when creating the mock instead. - - - The mock type - has already been generated by accessing the property. - - The specified - is not an interface. - - The following example creates a mock for the main interface - and later adds to it to verify - it's called by the consumer code: - - var mock = new Mock<IProcessor>(); - mock.Setup(x => x.Execute("ping")); - - // add IDisposable interface - var disposable = mock.As<IDisposable>(); - disposable.Setup(d => d.Dispose()).Verifiable(); - - Type of interface to cast the mock to. - - - - - - - Behavior of the mock, according to the value set in the constructor. - - - - - Whether the base member virtual implementation will be called - for mocked classes if no setup is matched. Defaults to . - - - - - Specifies the behavior to use when returning default values for - unexpected invocations on loose mocks. - - - - - Gets the mocked object instance. - - - - - Retrieves the type of the mocked object, its generic type argument. - This is used in the auto-mocking of hierarchy access. - - - - - Specifies the class that will determine the default - value to return when invocations are made that - have no setups and need to return a default - value (for loose mocks). - - - - - Exposes the list of extra interfaces implemented by the mock. - - - - - Ctor invoked by AsTInterface exclusively. - - - - - Initializes an instance of the mock with default behavior. - - var mock = new Mock<IFormatProvider>(); - - - - - Initializes an instance of the mock with default behavior and with - the given constructor arguments for the class. (Only valid when is a class) - - The mock will try to find the best match constructor given the constructor arguments, and invoke that - to initialize the instance. This applies only for classes, not interfaces. - - var mock = new Mock<MyProvider>(someArgument, 25); - Optional constructor arguments if the mocked type is a class. - - - - Initializes an instance of the mock with the specified behavior. - - var mock = new Mock<IFormatProvider>(MockBehavior.Relaxed); - Behavior of the mock. - - - - Initializes an instance of the mock with a specific behavior with - the given constructor arguments for the class. - - The mock will try to find the best match constructor given the constructor arguments, and invoke that - to initialize the instance. This applies only to classes, not interfaces. - - var mock = new Mock<MyProvider>(someArgument, 25); - Behavior of the mock.Optional constructor arguments if the mocked type is a class. - - - - Returns the mocked object value. - - - - - Specifies a setup on the mocked type for a call to - to a void method. - - If more than one setup is specified for the same method or property, - the latest one wins and is the one that will be executed. - Lambda expression that specifies the expected method invocation. - - var mock = new Mock<IProcessor>(); - mock.Setup(x => x.Execute("ping")); - - - - - - Specifies a setup on the mocked type for a call to - to a value returning method. - Type of the return value. Typically omitted as it can be inferred from the expression. - If more than one setup is specified for the same method or property, - the latest one wins and is the one that will be executed. - Lambda expression that specifies the method invocation. - - mock.Setup(x => x.HasInventory("Talisker", 50)).Returns(true); - - - - - - Specifies a setup on the mocked type for a call to - to a property getter. - - If more than one setup is set for the same property getter, - the latest one wins and is the one that will be executed. - Type of the property. Typically omitted as it can be inferred from the expression.Lambda expression that specifies the property getter. - - mock.SetupGet(x => x.Suspended) - .Returns(true); - - - - - - Specifies a setup on the mocked type for a call to - to a property setter. - - If more than one setup is set for the same property setter, - the latest one wins and is the one that will be executed. - - This overloads allows the use of a callback already - typed for the property type. - - Type of the property. Typically omitted as it can be inferred from the expression.The Lambda expression that sets a property to a value. - - mock.SetupSet(x => x.Suspended = true); - - - - - - Specifies a setup on the mocked type for a call to - to a property setter. - - If more than one setup is set for the same property setter, - the latest one wins and is the one that will be executed. - Lambda expression that sets a property to a value. - - mock.SetupSet(x => x.Suspended = true); - - - - - - Specifies that the given property should have "property behavior", - meaning that setting its value will cause it to be saved and - later returned when the property is requested. (this is also - known as "stubbing"). - - Type of the property, inferred from the property - expression (does not need to be specified). - Property expression to stub. - If you have an interface with an int property Value, you might - stub it using the following straightforward call: - - var mock = new Mock<IHaveValue>(); - mock.Stub(v => v.Value); - - After the Stub call has been issued, setting and - retrieving the object value will behave as expected: - - IHaveValue v = mock.Object; - - v.Value = 5; - Assert.Equal(5, v.Value); - - - - - - Specifies that the given property should have "property behavior", - meaning that setting its value will cause it to be saved and - later returned when the property is requested. This overload - allows setting the initial value for the property. (this is also - known as "stubbing"). - - Type of the property, inferred from the property - expression (does not need to be specified). - Property expression to stub.Initial value for the property. - If you have an interface with an int property Value, you might - stub it using the following straightforward call: - - var mock = new Mock<IHaveValue>(); - mock.SetupProperty(v => v.Value, 5); - - After the SetupProperty call has been issued, setting and - retrieving the object value will behave as expected: - - IHaveValue v = mock.Object; - // Initial value was stored - Assert.Equal(5, v.Value); - - // New value set which changes the initial value - v.Value = 6; - Assert.Equal(6, v.Value); - - - - - - Specifies that the all properties on the mock should have "property behavior", - meaning that setting its value will cause it to be saved and - later returned when the property is requested. (this is also - known as "stubbing"). The default value for each property will be the - one generated as specified by the property for the mock. - - If the mock is set to , - the mocked default values will also get all properties setup recursively. - - - - - - - - Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . - - This example assumes that the mock has been used, and later we want to verify that a given - invocation with specific parameters was performed: - - var mock = new Mock<IProcessor>(); - // exercise mock - //... - // Will throw if the test code didn't call Execute with a "ping" string argument. - mock.Verify(proc => proc.Execute("ping")); - - The invocation was not performed on the mock.Expression to verify. - - - - Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . - - The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called. - - - - Verifies that a specific invocation matching the given expression was performed on the mock, - specifying a failure error message. Use in conjuntion with the default - . - - This example assumes that the mock has been used, and later we want to verify that a given - invocation with specific parameters was performed: - - var mock = new Mock<IProcessor>(); - // exercise mock - //... - // Will throw if the test code didn't call Execute with a "ping" string argument. - mock.Verify(proc => proc.Execute("ping")); - - The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. - - - - Verifies that a specific invocation matching the given expression was performed on the mock, - specifying a failure error message. Use in conjuntion with the default - . - - The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails. - - - - Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . - - This example assumes that the mock has been used, and later we want to verify that a given - invocation with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't call HasInventory. - mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50)); - - The invocation was not performed on the mock.Expression to verify.Type of return value from the expression. - - - - Verifies that a specific invocation matching the given - expression was performed on the mock. Use in conjuntion - with the default . - - The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Type of return value from the expression. - - - - Verifies that a specific invocation matching the given - expression was performed on the mock, specifying a failure - error message. - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't call HasInventory. - mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50), "When filling orders, inventory has to be checked"); - - The invocation was not performed on the mock.Expression to verify.Message to show if verification fails.Type of return value from the expression. - - - - Verifies that a specific invocation matching the given - expression was performed on the mock, specifying a failure - error message. - - The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails.Type of return value from the expression. - - - - Verifies that a property was read on the mock. - - This example assumes that the mock has been used, - and later we want to verify that a given property - was retrieved from it: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't retrieve the IsClosed property. - mock.VerifyGet(warehouse => warehouse.IsClosed); - - The invocation was not performed on the mock.Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - - Verifies that a property was read on the mock. - - The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - - Verifies that a property was read on the mock, specifying a failure - error message. - - This example assumes that the mock has been used, - and later we want to verify that a given property - was retrieved from it: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't retrieve the IsClosed property. - mock.VerifyGet(warehouse => warehouse.IsClosed); - - The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - - Verifies that a property was read on the mock, specifying a failure - error message. - - The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - - Verifies that a property was set on the mock. - - This example assumes that the mock has been used, - and later we want to verify that a given property - was set on it: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed = true); - - The invocation was not performed on the mock.Expression to verify. - - - - Verifies that a property was set on the mock. - - The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify. - - - - Verifies that a property was set on the mock, specifying - a failure message. - - This example assumes that the mock has been used, - and later we want to verify that a given property - was set on it: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed = true, "Warehouse should always be closed after the action"); - - The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. - - - - Verifies that a property was set on the mock, specifying - a failure message. - - The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. - - - - Raises the event referenced in using - the given argument. - - The argument is - invalid for the target event invocation, or the is - not an event attach or detach expression. - - The following example shows how to raise a event: - - var mock = new Mock<IViewModel>(); - - mock.Raise(x => x.PropertyChanged -= null, new PropertyChangedEventArgs("Name")); - - - This example shows how to invoke an event with a custom event arguments - class in a view that will cause its corresponding presenter to - react by changing its state: - - var mockView = new Mock<IOrdersView>(); - var presenter = new OrdersPresenter(mockView.Object); - - // Check that the presenter has no selection by default - Assert.Null(presenter.SelectedOrder); - - // Raise the event with a specific arguments data - mockView.Raise(v => v.SelectionChanged += null, new OrderEventArgs { Order = new Order("moq", 500) }); - - // Now the presenter reacted to the event, and we have a selected order - Assert.NotNull(presenter.SelectedOrder); - Assert.Equal("moq", presenter.SelectedOrder.ProductName); - - - - - - Raises the event referenced in using - the given argument for a non-EventHandler typed event. - - The arguments are - invalid for the target event invocation, or the is - not an event attach or detach expression. - - The following example shows how to raise a custom event that does not adhere to - the standard EventHandler: - - var mock = new Mock<IViewModel>(); - - mock.Raise(x => x.MyEvent -= null, "Name", bool, 25); - - - - - - Obsolete. - - - - - Obsolete. - - - - - Obsolete. - - - - - Obsolete. - - - - - Obsolete. - - - - - Exposes the mocked object instance. - - - - - Implements the fluent API. - - - - - The expectation will be considered only in the former condition. - - - - - - - The expectation will be considered only in the former condition. - - - - - - - - Setups the get. - - The type of the property. - The expression. - - - - - Setups the set. - - The type of the property. - The setter expression. - - - - - Setups the set. - - The setter expression. - - - - - Determines the way default values are generated - calculated for loose mocks. - - - - - Default behavior, which generates empty values for - value types (i.e. default(int)), empty array and - enumerables, and nulls for all other reference types. - - - - - Whenever the default value generated by - is null, replaces this value with a mock (if the type - can be mocked). - - - For sealed classes, a null value will be generated. - - - - - A that returns an empty default value - for invocations that do not have setups or return values, with loose mocks. - This is the default behavior for a mock. - - - - - Interface to be implemented by classes that determine the - default value of non-expected invocations. - - - - - Defines the default value to return in all the methods returning . - The type of the return value.The value to set as default. - - - - Provides a value for the given member and arguments. - - The member to provide a default value for. - - - - - Provides partial evaluation of subtrees, whenever they can be evaluated locally. - - Matt Warren: http://blogs.msdn.com/mattwar - Documented by InSTEDD: http://www.instedd.org - - - - Performs evaluation and replacement of independent sub-trees - - The root of the expression tree. - A function that decides whether a given expression - node can be part of the local function. - A new tree with sub-trees evaluated and replaced. - - - - Performs evaluation and replacement of independent sub-trees - - The root of the expression tree. - A new tree with sub-trees evaluated and replaced. - - - - Evaluates and replaces sub-trees when first candidate is reached (top-down) - - - - - Performs bottom-up analysis to determine which nodes can possibly - be part of an evaluated sub-tree. - - - - - Casts the expression to a lambda expression, removing - a cast if there's any. - - - - - Casts the body of the lambda expression to a . - - If the body is not a method call. - - - - Converts the body of the lambda expression into the referenced by it. - - - - - Checks whether the body of the lambda expression is a property access. - - - - - Checks whether the expression is a property access. - - - - - Checks whether the body of the lambda expression is a property indexer, which is true - when the expression is an whose - has - equal to . - - - - - Checks whether the expression is a property indexer, which is true - when the expression is an whose - has - equal to . - - - - - Creates an expression that casts the given expression to the - type. - - - - - TODO: remove this code when https://connect.microsoft.com/VisualStudio/feedback/ViewFeedback.aspx?FeedbackID=331583 - is fixed. - - - - - The intention of is to create a more readable - string representation for the failure message. - - - - - Tracks the current mock and interception context. - - - - - Having an active fluent mock context means that the invocation - is being performed in "trial" mode, just to gather the - target method and arguments that need to be matched later - when the actual invocation is made. - - - - - Ensures the given is not null. - Throws otherwise. - - - - - Ensures the given string is not null or empty. - Throws in the first case, or - in the latter. - - - - - Checks an argument to ensure it is in the specified range including the edges. - - Type of the argument to check, it must be an type. - - The expression containing the name of the argument. - The argument value to check. - The minimun allowed value for the argument. - The maximun allowed value for the argument. - - - - Checks an argument to ensure it is in the specified range excluding the edges. - - Type of the argument to check, it must be an type. - - The expression containing the name of the argument. - The argument value to check. - The minimun allowed value for the argument. - The maximun allowed value for the argument. - - - - Implemented by all generated mock object instances. - - - - - Implemented by all generated mock object instances. - - - - - Reference the Mock that contains this as the mock.Object value. - - - - - Reference the Mock that contains this as the mock.Object value. - - - - - Implements the actual interception and method invocation for - all mocks. - - - - - Get an eventInfo for a given event name. Search type ancestors depth first if necessary. - - Name of the event, with the set_ or get_ prefix already removed - - - - Given a type return all of its ancestors, both types and interfaces. - - The type to find immediate ancestors of - - - - Allows the specification of a matching condition for an - argument in a method invocation, rather than a specific - argument value. "It" refers to the argument being matched. - - This class allows the setup to match a method invocation - with an arbitrary value, with a value in a specified range, or - even one that matches a given predicate. - - - - - Matches any value of the given type. - - Typically used when the actual argument value for a method - call is not relevant. - - - // Throws an exception for a call to Remove with any string value. - mock.Setup(x => x.Remove(It.IsAny<string>())).Throws(new InvalidOperationException()); - - Type of the value. - - - - Matches any value that satisfies the given predicate. - Type of the argument to check.The predicate used to match the method argument. - Allows the specification of a predicate to perform matching - of method call arguments. - - This example shows how to return the value 1 whenever the argument to the - Do method is an even number. - - mock.Setup(x => x.Do(It.Is<int>(i => i % 2 == 0))) - .Returns(1); - - This example shows how to throw an exception if the argument to the - method is a negative number: - - mock.Setup(x => x.GetUser(It.Is<int>(i => i < 0))) - .Throws(new ArgumentException()); - - - - - - Matches any value that is in the range specified. - Type of the argument to check.The lower bound of the range.The upper bound of the range. - The kind of range. See . - - The following example shows how to expect a method call - with an integer argument within the 0..100 range. - - mock.Setup(x => x.HasInventory( - It.IsAny<string>(), - It.IsInRange(0, 100, Range.Inclusive))) - .Returns(false); - - - - - - Matches a string argument if it matches the given regular expression pattern. - The pattern to use to match the string argument value. - The following example shows how to expect a call to a method where the - string argument matches the given regular expression: - - mock.Setup(x => x.Check(It.IsRegex("[a-z]+"))).Returns(1); - - - - - - Matches a string argument if it matches the given regular expression pattern. - The pattern to use to match the string argument value.The options used to interpret the pattern. - The following example shows how to expect a call to a method where the - string argument matches the given regular expression, in a case insensitive way: - - mock.Setup(x => x.Check(It.IsRegex("[a-z]+", RegexOptions.IgnoreCase))).Returns(1); - - - - - - Implements the fluent API. - - - - - Defines the Callback verb and overloads. - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2) => Console.WriteLine(arg1 + arg2)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3) => Console.WriteLine(arg1 + arg2 + arg3)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15)); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The type of the sixteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16)); - - - - - - Specifies a callback to invoke when the method is called. - - The callback method to invoke. - - The following example specifies a callback to set a boolean - value that can be used later: - - var called = false; - mock.Setup(x => x.Execute()) - .Callback(() => called = true); - - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The argument type of the invoked method. - The callback method to invoke. - - Invokes the given callback with the concrete invocation argument value. - - Notice how the specific string argument is retrieved by simply declaring - it as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute(It.IsAny<string>())) - .Callback((string command) => Console.WriteLine(command)); - - - - - - Defines occurrence members to constraint setups. - - - - - The expected invocation can happen at most once. - - - - var mock = new Mock<ICommand>(); - mock.Setup(foo => foo.Execute("ping")) - .AtMostOnce(); - - - - - - The expected invocation can happen at most specified number of times. - - The number of times to accept calls. - - - var mock = new Mock<ICommand>(); - mock.Setup(foo => foo.Execute("ping")) - .AtMost( 5 ); - - - - - - Defines the Raises verb. - - - - - Specifies the event that will be raised - when the setup is met. - - An expression that represents an event attach or detach action. - The event arguments to pass for the raised event. - - The following example shows how to raise an event when - the setup is met: - - var mock = new Mock<IContainer>(); - - mock.Setup(add => add.Add(It.IsAny<string>(), It.IsAny<object>())) - .Raises(add => add.Added += null, EventArgs.Empty); - - - - - - Specifies the event that will be raised - when the setup is matched. - - An expression that represents an event attach or detach action. - A function that will build the - to pass when raising the event. - - - - - Specifies the custom event that will be raised - when the setup is matched. - - An expression that represents an event attach or detach action. - The arguments to pass to the custom delegate (non EventHandler-compatible). - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - The type of the thirteenth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - The type of the thirteenth argument received by the expected invocation. - The type of the fourteenth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - The type of the thirteenth argument received by the expected invocation. - The type of the fourteenth argument received by the expected invocation. - The type of the fifteenth argument received by the expected invocation. - - - - - Specifies the event that will be raised when the setup is matched. - - The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - The type of the twelfth argument received by the expected invocation. - The type of the thirteenth argument received by the expected invocation. - The type of the fourteenth argument received by the expected invocation. - The type of the fifteenth argument received by the expected invocation. - The type of the sixteenth argument received by the expected invocation. - - - - - Defines the Verifiable verb. - - - - - Marks the expectation as verifiable, meaning that a call - to will check if this particular - expectation was met. - - - The following example marks the expectation as verifiable: - - mock.Expect(x => x.Execute("ping")) - .Returns(true) - .Verifiable(); - - - - - - Marks the expectation as verifiable, meaning that a call - to will check if this particular - expectation was met, and specifies a message for failures. - - - The following example marks the expectation as verifiable: - - mock.Expect(x => x.Execute("ping")) - .Returns(true) - .Verifiable("Ping should be executed always!"); - - - - - - Implements the fluent API. - - - - - Implements the fluent API. - - - - - Defines the Throws verb. - - - - - Specifies the exception to throw when the method is invoked. - - Exception instance to throw. - - This example shows how to throw an exception when the method is - invoked with an empty string argument: - - mock.Setup(x => x.Execute("")) - .Throws(new ArgumentException()); - - - - - - Specifies the type of exception to throw when the method is invoked. - - Type of exception to instantiate and throw when the setup is matched. - - This example shows how to throw an exception when the method is - invoked with an empty string argument: - - mock.Setup(x => x.Execute("")) - .Throws<ArgumentException>(); - - - - - - Implements the fluent API. - - - - - Implements the fluent API. - - - - - Defines the Callback verb and overloads for callbacks on - setups that return a value. - - Mocked type. - Type of the return value of the setup. - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2) => Console.WriteLine(arg1 + arg2)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3) => Console.WriteLine(arg1 + arg2 + arg3)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15)); - - - - - - Specifies a callback to invoke when the method is called that receives the original - arguments. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The type of the sixteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute( - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>(), - It.IsAny<string>())) - .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15, arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16)); - - - - - - Specifies a callback to invoke when the method is called. - - The callback method to invoke. - - The following example specifies a callback to set a boolean value that can be used later: - - var called = false; - mock.Setup(x => x.Execute()) - .Callback(() => called = true) - .Returns(true); - - Note that in the case of value-returning methods, after the Callback - call you can still specify the return value. - - - - - Specifies a callback to invoke when the method is called that receives the original arguments. - - The type of the argument of the invoked method. - Callback method to invoke. - - Invokes the given callback with the concrete invocation argument value. - - Notice how the specific string argument is retrieved by simply declaring - it as part of the lambda expression for the callback: - - - mock.Setup(x => x.Execute(It.IsAny<string>())) - .Callback(command => Console.WriteLine(command)) - .Returns(true); - - - - - - Implements the fluent API. - - - - - Defines the Returns verb. - - Mocked type. - Type of the return value from the expression. - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2) => arg1 + arg2); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3) => arg1 + arg2 + arg3); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4) => arg1 + arg2 + arg3 + arg4); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5) => arg1 + arg2 + arg3 + arg4 + arg5); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15); - - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The type of the sixteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - - - mock.Setup(x => x.Execute( - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>(), - It.IsAny<int>())) - .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16); - - - - - - Specifies the value to return. - - The value to return, or . - - Return a true value from the method call: - - mock.Setup(x => x.Execute("ping")) - .Returns(true); - - - - - - Specifies a function that will calculate the value to return from the method. - - The function that will calculate the return value. - - Return a calculated value when the method is called: - - mock.Setup(x => x.Execute("ping")) - .Returns(() => returnValues[0]); - - The lambda expression to retrieve the return value is lazy-executed, - meaning that its value may change depending on the moment the method - is executed and the value the returnValues array has at - that moment. - - - - - Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. - - The type of the argument of the invoked method. - The function that will calculate the return value. - - Return a calculated value which is evaluated lazily at the time of the invocation. - - The lookup list can change between invocations and the setup - will return different values accordingly. Also, notice how the specific - string argument is retrieved by simply declaring it as part of the lambda - expression: - - - mock.Setup(x => x.Execute(It.IsAny<string>())) - .Returns((string command) => returnValues[command]); - - - - - - Implements the fluent API. - - - - - Defines the Callback verb for property getter setups. - - - Mocked type. - Type of the property. - - - - Specifies a callback to invoke when the property is retrieved. - - Callback method to invoke. - - Invokes the given callback with the property value being set. - - mock.SetupGet(x => x.Suspended) - .Callback(() => called = true) - .Returns(true); - - - - - - Implements the fluent API. - - - - - Defines the Returns verb for property get setups. - - Mocked type. - Type of the property. - - - - Specifies the value to return. - - The value to return, or . - - Return a true value from the property getter call: - - mock.SetupGet(x => x.Suspended) - .Returns(true); - - - - - - Specifies a function that will calculate the value to return for the property. - - The function that will calculate the return value. - - Return a calculated value when the property is retrieved: - - mock.SetupGet(x => x.Suspended) - .Returns(() => returnValues[0]); - - The lambda expression to retrieve the return value is lazy-executed, - meaning that its value may change depending on the moment the property - is retrieved and the value the returnValues array has at - that moment. - - - - - Implements the fluent API. - - - - - Defines the Callback verb for property setter setups. - - Type of the property. - - - - Specifies a callback to invoke when the property is set that receives the - property value being set. - - Callback method to invoke. - - Invokes the given callback with the property value being set. - - mock.SetupSet(x => x.Suspended) - .Callback((bool state) => Console.WriteLine(state)); - - - - - - Language for ReturnSequence - - - - - Returns value - - - - - Throws an exception - - - - - Throws an exception - - - - - The first method call or member access will be the - last segment of the expression (depth-first traversal), - which is the one we have to Setup rather than FluentMock. - And the last one is the one we have to Mock.Get rather - than FluentMock. - - - - - A default implementation of IQueryable for use with QueryProvider - - - - - The is a - static method that returns an IQueryable of Mocks of T which is used to - apply the linq specification to. - - - - - Utility repository class to use to construct multiple - mocks when consistent verification is - desired for all of them. - - - If multiple mocks will be created during a test, passing - the desired (if different than the - or the one - passed to the repository constructor) and later verifying each - mock can become repetitive and tedious. - - This repository class helps in that scenario by providing a - simplified creation of multiple mocks with a default - (unless overriden by calling - ) and posterior verification. - - - - The following is a straightforward example on how to - create and automatically verify strict mocks using a : - - var repository = new MockRepository(MockBehavior.Strict); - - var foo = repository.Create<IFoo>(); - var bar = repository.Create<IBar>(); - - // no need to call Verifiable() on the setup - // as we'll be validating all of them anyway. - foo.Setup(f => f.Do()); - bar.Setup(b => b.Redo()); - - // exercise the mocks here - - repository.VerifyAll(); - // At this point all setups are already checked - // and an optional MockException might be thrown. - // Note also that because the mocks are strict, any invocation - // that doesn't have a matching setup will also throw a MockException. - - The following examples shows how to setup the repository - to create loose mocks and later verify only verifiable setups: - - var repository = new MockRepository(MockBehavior.Loose); - - var foo = repository.Create<IFoo>(); - var bar = repository.Create<IBar>(); - - // this setup will be verified when we verify the repository - foo.Setup(f => f.Do()).Verifiable(); - - // this setup will NOT be verified - foo.Setup(f => f.Calculate()); - - // this setup will be verified when we verify the repository - bar.Setup(b => b.Redo()).Verifiable(); - - // exercise the mocks here - // note that because the mocks are Loose, members - // called in the interfaces for which no matching - // setups exist will NOT throw exceptions, - // and will rather return default values. - - repository.Verify(); - // At this point verifiable setups are already checked - // and an optional MockException might be thrown. - - The following examples shows how to setup the repository with a - default strict behavior, overriding that default for a - specific mock: - - var repository = new MockRepository(MockBehavior.Strict); - - // this particular one we want loose - var foo = repository.Create<IFoo>(MockBehavior.Loose); - var bar = repository.Create<IBar>(); - - // specify setups - - // exercise the mocks here - - repository.Verify(); - - - - - - - Utility factory class to use to construct multiple - mocks when consistent verification is - desired for all of them. - - - If multiple mocks will be created during a test, passing - the desired (if different than the - or the one - passed to the factory constructor) and later verifying each - mock can become repetitive and tedious. - - This factory class helps in that scenario by providing a - simplified creation of multiple mocks with a default - (unless overriden by calling - ) and posterior verification. - - - - The following is a straightforward example on how to - create and automatically verify strict mocks using a : - - var factory = new MockFactory(MockBehavior.Strict); - - var foo = factory.Create<IFoo>(); - var bar = factory.Create<IBar>(); - - // no need to call Verifiable() on the setup - // as we'll be validating all of them anyway. - foo.Setup(f => f.Do()); - bar.Setup(b => b.Redo()); - - // exercise the mocks here - - factory.VerifyAll(); - // At this point all setups are already checked - // and an optional MockException might be thrown. - // Note also that because the mocks are strict, any invocation - // that doesn't have a matching setup will also throw a MockException. - - The following examples shows how to setup the factory - to create loose mocks and later verify only verifiable setups: - - var factory = new MockFactory(MockBehavior.Loose); - - var foo = factory.Create<IFoo>(); - var bar = factory.Create<IBar>(); - - // this setup will be verified when we verify the factory - foo.Setup(f => f.Do()).Verifiable(); - - // this setup will NOT be verified - foo.Setup(f => f.Calculate()); - - // this setup will be verified when we verify the factory - bar.Setup(b => b.Redo()).Verifiable(); - - // exercise the mocks here - // note that because the mocks are Loose, members - // called in the interfaces for which no matching - // setups exist will NOT throw exceptions, - // and will rather return default values. - - factory.Verify(); - // At this point verifiable setups are already checked - // and an optional MockException might be thrown. - - The following examples shows how to setup the factory with a - default strict behavior, overriding that default for a - specific mock: - - var factory = new MockFactory(MockBehavior.Strict); - - // this particular one we want loose - var foo = factory.Create<IFoo>(MockBehavior.Loose); - var bar = factory.Create<IBar>(); - - // specify setups - - // exercise the mocks here - - factory.Verify(); - - - - - - - Initializes the factory with the given - for newly created mocks from the factory. - - The behavior to use for mocks created - using the factory method if not overriden - by using the overload. - - - - Creates a new mock with the default - specified at factory construction time. - - Type to mock. - A new . - - - var factory = new MockFactory(MockBehavior.Strict); - - var foo = factory.Create<IFoo>(); - // use mock on tests - - factory.VerifyAll(); - - - - - - Creates a new mock with the default - specified at factory construction time and with the - the given constructor arguments for the class. - - - The mock will try to find the best match constructor given the - constructor arguments, and invoke that to initialize the instance. - This applies only to classes, not interfaces. - - Type to mock. - Constructor arguments for mocked classes. - A new . - - - var factory = new MockFactory(MockBehavior.Default); - - var mock = factory.Create<MyBase>("Foo", 25, true); - // use mock on tests - - factory.Verify(); - - - - - - Creates a new mock with the given . - - Type to mock. - Behavior to use for the mock, which overrides - the default behavior specified at factory construction time. - A new . - - The following example shows how to create a mock with a different - behavior to that specified as the default for the factory: - - var factory = new MockFactory(MockBehavior.Strict); - - var foo = factory.Create<IFoo>(MockBehavior.Loose); - - - - - - Creates a new mock with the given - and with the the given constructor arguments for the class. - - - The mock will try to find the best match constructor given the - constructor arguments, and invoke that to initialize the instance. - This applies only to classes, not interfaces. - - Type to mock. - Behavior to use for the mock, which overrides - the default behavior specified at factory construction time. - Constructor arguments for mocked classes. - A new . - - The following example shows how to create a mock with a different - behavior to that specified as the default for the factory, passing - constructor arguments: - - var factory = new MockFactory(MockBehavior.Default); - - var mock = factory.Create<MyBase>(MockBehavior.Strict, "Foo", 25, true); - - - - - - Implements creation of a new mock within the factory. - - Type to mock. - The behavior for the new mock. - Optional arguments for the construction of the mock. - - - - Verifies all verifiable expectations on all mocks created - by this factory. - - - One or more mocks had expectations that were not satisfied. - - - - Verifies all verifiable expectations on all mocks created - by this factory. - - - One or more mocks had expectations that were not satisfied. - - - - Invokes for each mock - in , and accumulates the resulting - that might be - thrown from the action. - - The action to execute against - each mock. - - - - Whether the base member virtual implementation will be called - for mocked classes if no setup is matched. Defaults to . - - - - - Specifies the behavior to use when returning default values for - unexpected invocations on loose mocks. - - - - - Gets the mocks that have been created by this factory and - that will get verified together. - - - - - Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. - - The type of the mocked object to query. - - - - Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. - - The predicate with the setup expressions. - The type of the mocked object to query. - - - - Creates an mock object of the indicated type. - - The type of the mocked object. - The mocked object created. - - - - Creates an mock object of the indicated type. - - The predicate with the setup expressions. - The type of the mocked object. - The mocked object created. - - - - Creates the mock query with the underlying queriable implementation. - - - - - Wraps the enumerator inside a queryable. - - - - - Method that is turned into the actual call from .Query{T}, to - transform the queryable query into a normal enumerable query. - This method is never used directly by consumers. - - - - - Initializes the repository with the given - for newly created mocks from the repository. - - The behavior to use for mocks created - using the repository method if not overriden - by using the overload. - - - - Allows querying the universe of mocks for those that behave - according to the LINQ query specification. - - - This entry-point into Linq to Mocks is the only one in the root Moq - namespace to ease discovery. But to get all the mocking extension - methods on Object, a using of Moq.Linq must be done, so that the - polluting of the intellisense for all objects is an explicit opt-in. - - - - - Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. - - The type of the mocked object to query. - - - - Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. - - The predicate with the setup expressions. - The type of the mocked object to query. - - - - Creates an mock object of the indicated type. - - The type of the mocked object. - The mocked object created. - - - - Creates an mock object of the indicated type. - - The predicate with the setup expressions. - The type of the mocked object. - The mocked object created. - - - - Creates the mock query with the underlying queriable implementation. - - - - - Wraps the enumerator inside a queryable. - - - - - Method that is turned into the actual call from .Query{T}, to - transform the queryable query into a normal enumerable query. - This method is never used directly by consumers. - - - - - Extension method used to support Linq-like setup properties that are not virtual but do have - a getter and a setter, thereby allowing the use of Linq to Mocks to quickly initialize Dtos too :) - - - - - Helper extensions that are used by the query translator. - - - - - Retrieves a fluent mock from the given setup expression. - - - - - Allows creation custom value matchers that can be used on setups and verification, - completely replacing the built-in class with your own argument - matching rules. - - See also . - - - - - Provided for the sole purpose of rendering the delegate passed to the - matcher constructor if no friendly render lambda is provided. - - - - - Initializes the match with the condition that - will be checked in order to match invocation - values. - The condition to match against actual values. - - - - - - - - - This method is used to set an expression as the last matcher invoked, - which is used in the SetupSet to allow matchers in the prop = value - delegate expression. This delegate is executed in "fluent" mode in - order to capture the value being set, and construct the corresponding - methodcall. - This is also used in the MatcherFactory for each argument expression. - This method ensures that when we execute the delegate, we - also track the matcher that was invoked, so that when we create the - methodcall we build the expression using it, rather than the null/default - value returned from the actual invocation. - - - - - Allows creation custom value matchers that can be used on setups and verification, - completely replacing the built-in class with your own argument - matching rules. - Type of the value to match. - The argument matching is used to determine whether a concrete - invocation in the mock matches a given setup. This - matching mechanism is fully extensible. - - Creating a custom matcher is straightforward. You just need to create a method - that returns a value from a call to with - your matching condition and optional friendly render expression: - - [Matcher] - public Order IsBigOrder() - { - return Match<Order>.Create( - o => o.GrandTotal >= 5000, - /* a friendly expression to render on failures */ - () => IsBigOrder()); - } - - This method can be used in any mock setup invocation: - - mock.Setup(m => m.Submit(IsBigOrder()).Throws<UnauthorizedAccessException>(); - - At runtime, Moq knows that the return value was a matcher (note that the method MUST be - annotated with the [Matcher] attribute in order to determine this) and - evaluates your predicate with the actual value passed into your predicate. - - Another example might be a case where you want to match a lists of orders - that contains a particular one. You might create matcher like the following: - - - public static class Orders - { - [Matcher] - public static IEnumerable<Order> Contains(Order order) - { - return Match<IEnumerable<Order>>.Create(orders => orders.Contains(order)); - } - } - - Now we can invoke this static method instead of an argument in an - invocation: - - var order = new Order { ... }; - var mock = new Mock<IRepository<Order>>(); - - mock.Setup(x => x.Save(Orders.Contains(order))) - .Throws<ArgumentException>(); - - - - - - Marks a method as a matcher, which allows complete replacement - of the built-in class with your own argument - matching rules. - - - This feature has been deprecated in favor of the new - and simpler . - - - The argument matching is used to determine whether a concrete - invocation in the mock matches a given setup. This - matching mechanism is fully extensible. - - - There are two parts of a matcher: the compiler matcher - and the runtime matcher. - - - Compiler matcher - Used to satisfy the compiler requirements for the - argument. Needs to be a method optionally receiving any arguments - you might need for the matching, but with a return type that - matches that of the argument. - - Let's say I want to match a lists of orders that contains - a particular one. I might create a compiler matcher like the following: - - - public static class Orders - { - [Matcher] - public static IEnumerable<Order> Contains(Order order) - { - return null; - } - } - - Now we can invoke this static method instead of an argument in an - invocation: - - var order = new Order { ... }; - var mock = new Mock<IRepository<Order>>(); - - mock.Setup(x => x.Save(Orders.Contains(order))) - .Throws<ArgumentException>(); - - Note that the return value from the compiler matcher is irrelevant. - This method will never be called, and is just used to satisfy the - compiler and to signal Moq that this is not a method that we want - to be invoked at runtime. - - - - Runtime matcher - - The runtime matcher is the one that will actually perform evaluation - when the test is run, and is defined by convention to have the - same signature as the compiler matcher, but where the return - value is the first argument to the call, which contains the - object received by the actual invocation at runtime: - - public static bool Contains(IEnumerable<Order> orders, Order order) - { - return orders.Contains(order); - } - - At runtime, the mocked method will be invoked with a specific - list of orders. This value will be passed to this runtime - matcher as the first argument, while the second argument is the - one specified in the setup (x.Save(Orders.Contains(order))). - - The boolean returned determines whether the given argument has been - matched. If all arguments to the expected method are matched, then - the setup matches and is evaluated. - - - - - - Using this extensible infrastructure, you can easily replace the entire - set of matchers with your own. You can also avoid the - typical (and annoying) lengthy expressions that result when you have - multiple arguments that use generics. - - - The following is the complete example explained above: - - public static class Orders - { - [Matcher] - public static IEnumerable<Order> Contains(Order order) - { - return null; - } - - public static bool Contains(IEnumerable<Order> orders, Order order) - { - return orders.Contains(order); - } - } - - And the concrete test using this matcher: - - var order = new Order { ... }; - var mock = new Mock<IRepository<Order>>(); - - mock.Setup(x => x.Save(Orders.Contains(order))) - .Throws<ArgumentException>(); - - // use mock, invoke Save, and have the matcher filter. - - - - - - Matcher to treat static functions as matchers. - - mock.Setup(x => x.StringMethod(A.MagicString())); - - public static class A - { - [Matcher] - public static string MagicString() { return null; } - public static bool MagicString(string arg) - { - return arg == "magic"; - } - } - - Will succeed if: mock.Object.StringMethod("magic"); - and fail with any other call. - - - - - We need this non-generics base class so that - we can use from - generic code. - - - - - Options to customize the behavior of the mock. - - - - - Causes the mock to always throw - an exception for invocations that don't have a - corresponding setup. - - - - - Will never throw exceptions, returning default - values when necessary (null for reference types, - zero for value types or empty enumerables and arrays). - - - - - Default mock behavior, which equals . - - - - - A that returns an empty default value - for non-mockeable types, and mocks for all other types (interfaces and - non-sealed classes) that can be mocked. - - - - - Exception thrown by mocks when setups are not matched, - the mock is not properly setup, etc. - - - A distinct exception type is provided so that exceptions - thrown by the mock can be differentiated in tests that - expect other exceptions to be thrown (i.e. ArgumentException). - - Richer exception hierarchy/types are not provided as - tests typically should not catch or expect exceptions - from the mocks. These are typically the result of changes - in the tested class or its collaborators implementation, and - result in fixes in the mock setup so that they dissapear and - allow the test to pass. - - - - - - Made internal as it's of no use for - consumers, but it's important for - our own tests. - - - - - Used by the mock factory to accumulate verification - failures. - - - - - Helper class to setup a full trace between many mocks - - - - - Initialize a trace setup - - - - - Allow sequence to be repeated - - - - - define nice api - - - - - Perform an expectation in the trace. - - - - - Provides legacy API members as extensions so that - existing code continues to compile, but new code - doesn't see then. - - - - - Obsolete. - - - - - Obsolete. - - - - - Obsolete. - - - - - Provides additional methods on mocks. - - - Provided as extension methods as they confuse the compiler - with the overloads taking Action. - - - - - Specifies a setup on the mocked type for a call to - to a property setter, regardless of its value. - - - If more than one setup is set for the same property setter, - the latest one wins and is the one that will be executed. - - Type of the property. Typically omitted as it can be inferred from the expression. - Type of the mock. - The target mock for the setup. - Lambda expression that specifies the property setter. - - - mock.SetupSet(x => x.Suspended); - - - - This method is not legacy, but must be on an extension method to avoid - confusing the compiler with the new Action syntax. - - - - - Verifies that a property has been set on the mock, regarless of its value. - - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed); - - - The invocation was not performed on the mock. - Expression to verify. - The mock instance. - Mocked type. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - Verifies that a property has been set on the mock, specifying a failure - error message. - - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed); - - - The invocation was not performed on the mock. - Expression to verify. - Message to show if verification fails. - The mock instance. - Mocked type. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - Verifies that a property has been set on the mock, regardless - of the value but only the specified number of times. - - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed); - - - The invocation was not performed on the mock. - The invocation was not call the times specified by - . - The mock instance. - Mocked type. - The number of times a method is allowed to be called. - Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - Verifies that a property has been set on the mock, regardless - of the value but only the specified number of times, and specifying a failure - error message. - - - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: - - var mock = new Mock<IWarehouse>(); - // exercise mock - //... - // Will throw if the test code didn't set the IsClosed property. - mock.VerifySet(warehouse => warehouse.IsClosed); - - - The invocation was not performed on the mock. - The invocation was not call the times specified by - . - The mock instance. - Mocked type. - The number of times a method is allowed to be called. - Message to show if verification fails. - Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - - Allows setups to be specified for protected members by using their - name as a string, rather than strong-typing them which is not possible - due to their visibility. - - - - - Specifies a setup for a void method invocation with the given - , optionally specifying arguments for the method call. - - The name of the void method to be invoked. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - - - - Specifies a setup for an invocation on a property or a non void method with the given - , optionally specifying arguments for the method call. - - The name of the method or property to be invoked. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - The return type of the method or property. - - - - Specifies a setup for an invocation on a property getter with the given - . - - The name of the property. - The type of the property. - - - - Specifies a setup for an invocation on a property setter with the given - . - - The name of the property. - The property value. If argument matchers are used, - remember to use rather than . - The type of the property. - - - - Specifies a verify for a void method with the given , - optionally specifying arguments for the method call. Use in conjuntion with the default - . - - The invocation was not call the times specified by - . - The name of the void method to be verified. - The number of times a method is allowed to be called. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - - - - Specifies a verify for an invocation on a property or a non void method with the given - , optionally specifying arguments for the method call. - - The invocation was not call the times specified by - . - The name of the method or property to be invoked. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - The number of times a method is allowed to be called. - The type of return value from the expression. - - - - Specifies a verify for an invocation on a property getter with the given - . - The invocation was not call the times specified by - . - - The name of the property. - The number of times a method is allowed to be called. - The type of the property. - - - - Specifies a setup for an invocation on a property setter with the given - . - - The invocation was not call the times specified by - . - The name of the property. - The number of times a method is allowed to be called. - The property value. - The type of the property. If argument matchers are used, - remember to use rather than . - - - - Allows the specification of a matching condition for an - argument in a protected member setup, rather than a specific - argument value. "ItExpr" refers to the argument being matched. - - - Use this variant of argument matching instead of - for protected setups. - This class allows the setup to match a method invocation - with an arbitrary value, with a value in a specified range, or - even one that matches a given predicate, or null. - - - - - Matches a null value of the given type. - - - Required for protected mocks as the null value cannot be used - directly as it prevents proper method overload selection. - - - - // Throws an exception for a call to Remove with a null string value. - mock.Protected() - .Setup("Remove", ItExpr.IsNull<string>()) - .Throws(new InvalidOperationException()); - - - Type of the value. - - - - Matches any value of the given type. - - - Typically used when the actual argument value for a method - call is not relevant. - - - - // Throws an exception for a call to Remove with any string value. - mock.Protected() - .Setup("Remove", ItExpr.IsAny<string>()) - .Throws(new InvalidOperationException()); - - - Type of the value. - - - - Matches any value that satisfies the given predicate. - - Type of the argument to check. - The predicate used to match the method argument. - - Allows the specification of a predicate to perform matching - of method call arguments. - - - This example shows how to return the value 1 whenever the argument to the - Do method is an even number. - - mock.Protected() - .Setup("Do", ItExpr.Is<int>(i => i % 2 == 0)) - .Returns(1); - - This example shows how to throw an exception if the argument to the - method is a negative number: - - mock.Protected() - .Setup("GetUser", ItExpr.Is<int>(i => i < 0)) - .Throws(new ArgumentException()); - - - - - - Matches any value that is in the range specified. - - Type of the argument to check. - The lower bound of the range. - The upper bound of the range. - The kind of range. See . - - The following example shows how to expect a method call - with an integer argument within the 0..100 range. - - mock.Protected() - .Setup("HasInventory", - ItExpr.IsAny<string>(), - ItExpr.IsInRange(0, 100, Range.Inclusive)) - .Returns(false); - - - - - - Matches a string argument if it matches the given regular expression pattern. - - The pattern to use to match the string argument value. - - The following example shows how to expect a call to a method where the - string argument matches the given regular expression: - - mock.Protected() - .Setup("Check", ItExpr.IsRegex("[a-z]+")) - .Returns(1); - - - - - - Matches a string argument if it matches the given regular expression pattern. - - The pattern to use to match the string argument value. - The options used to interpret the pattern. - - The following example shows how to expect a call to a method where the - string argument matches the given regular expression, in a case insensitive way: - - mock.Protected() - .Setup("Check", ItExpr.IsRegex("[a-z]+", RegexOptions.IgnoreCase)) - .Returns(1); - - - - - - Enables the Protected() method on , - allowing setups to be set for protected members by using their - name as a string, rather than strong-typing them which is not possible - due to their visibility. - - - - - Enable protected setups for the mock. - - Mocked object type. Typically omitted as it can be inferred from the mock instance. - The mock to set the protected setups on. - - - - - - - - - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to Mock type has already been initialized by accessing its Object property. Adding interfaces must be done before that.. - - - - - Looks up a localized string similar to Value cannot be an empty string.. - - - - - Looks up a localized string similar to Can only add interfaces to the mock.. - - - - - Looks up a localized string similar to Can't set return value for void method {0}.. - - - - - Looks up a localized string similar to Constructor arguments cannot be passed for interface mocks.. - - - - - Looks up a localized string similar to A matching constructor for the given arguments was not found on the mocked type.. - - - - - Looks up a localized string similar to Could not locate event for attach or detach method {0}.. - - - - - Looks up a localized string similar to Expression {0} involves a field access, which is not supported. Use properties instead.. - - - - - Looks up a localized string similar to Type to mock must be an interface or an abstract or non-sealed class. . - - - - - Looks up a localized string similar to Cannot retrieve a mock with the given object type {0} as it's not the main type of the mock or any of its additional interfaces. - Please cast the argument to one of the supported types: {1}. - Remember that there's no generics covariance in the CLR, so your object must be one of these types in order for the call to succeed.. - - - - - Looks up a localized string similar to The equals ("==" or "=" in VB) and the conditional 'and' ("&&" or "AndAlso" in VB) operators are the only ones supported in the query specification expression. Unsupported expression: {0}. - - - - - Looks up a localized string similar to LINQ method '{0}' not supported.. - - - - - Looks up a localized string similar to Expression contains a call to a method which is not virtual (overridable in VB) or abstract. Unsupported expression: {0}. - - - - - Looks up a localized string similar to Member {0}.{1} does not exist.. - - - - - Looks up a localized string similar to Method {0}.{1} is public. Use strong-typed Expect overload instead: - mock.Setup(x => x.{1}()); - . - - - - - Looks up a localized string similar to {0} invocation failed with mock behavior {1}. - {2}. - - - - - Looks up a localized string similar to Expected only {0} calls to {1}.. - - - - - Looks up a localized string similar to Expected only one call to {0}.. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock at least {2} times, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock at least once, but was never performed: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock at most {3} times, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock at most once, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock between {2} and {3} times (Exclusive), but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock between {2} and {3} times (Inclusive), but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock exactly {2} times, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock should never have been performed, but was {4} times: {1}. - - - - - Looks up a localized string similar to {0} - Expected invocation on the mock once, but was {4} times: {1}. - - - - - Looks up a localized string similar to All invocations on the mock must have a corresponding setup.. - - - - - Looks up a localized string similar to Object instance was not created by Moq.. - - - - - Looks up a localized string similar to Out expression must evaluate to a constant value.. - - - - - Looks up a localized string similar to Property {0}.{1} does not have a getter.. - - - - - Looks up a localized string similar to Property {0}.{1} does not exist.. - - - - - Looks up a localized string similar to Property {0}.{1} is write-only.. - - - - - Looks up a localized string similar to Property {0}.{1} is read-only.. - - - - - Looks up a localized string similar to Property {0}.{1} does not have a setter.. - - - - - Looks up a localized string similar to Cannot raise a mocked event unless it has been associated (attached) to a concrete event in a mocked object.. - - - - - Looks up a localized string similar to Ref expression must evaluate to a constant value.. - - - - - Looks up a localized string similar to Invocation needs to return a value and therefore must have a corresponding setup that provides it.. - - - - - Looks up a localized string similar to A lambda expression is expected as the argument to It.Is<T>.. - - - - - Looks up a localized string similar to Invocation {0} should not have been made.. - - - - - Looks up a localized string similar to Expression is not a method invocation: {0}. - - - - - Looks up a localized string similar to Expression is not a property access: {0}. - - - - - Looks up a localized string similar to Expression is not a property setter invocation.. - - - - - Looks up a localized string similar to Expression references a method that does not belong to the mocked object: {0}. - - - - - Looks up a localized string similar to Invalid setup on a non-virtual (overridable in VB) member: {0}. - - - - - Looks up a localized string similar to Type {0} does not implement required interface {1}. - - - - - Looks up a localized string similar to Type {0} does not from required type {1}. - - - - - Looks up a localized string similar to To specify a setup for public property {0}.{1}, use the typed overloads, such as: - mock.Setup(x => x.{1}).Returns(value); - mock.SetupGet(x => x.{1}).Returns(value); //equivalent to previous one - mock.SetupSet(x => x.{1}).Callback(callbackDelegate); - . - - - - - Looks up a localized string similar to Unsupported expression: {0}. - - - - - Looks up a localized string similar to Only property accesses are supported in intermediate invocations on a setup. Unsupported expression {0}.. - - - - - Looks up a localized string similar to Expression contains intermediate property access {0}.{1} which is of type {2} and cannot be mocked. Unsupported expression {3}.. - - - - - Looks up a localized string similar to Setter expression cannot use argument matchers that receive parameters.. - - - - - Looks up a localized string similar to Member {0} is not supported for protected mocking.. - - - - - Looks up a localized string similar to Setter expression can only use static custom matchers.. - - - - - Looks up a localized string similar to The following setups were not matched: - {0}. - - - - - Looks up a localized string similar to Invalid verify on a non-virtual (overridable in VB) member: {0}. - - - - - Kind of range to use in a filter specified through - . - - - - - The range includes the to and - from values. - - - - - The range does not include the to and - from values. - - - - - Helper for sequencing return values in the same method. - - - - - Return a sequence of values, once per call. - - - - - Defines the number of invocations allowed by a mocked method. - - - - - Specifies that a mocked method should be invoked times as minimum. - The minimun number of times.An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked one time as minimum. - An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked time as maximun. - The maximun number of times.An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked one time as maximun. - An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked between and - times. - The minimun number of times.The maximun number of times. - The kind of range. See . - An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked exactly times. - The times that a method or property can be called.An object defining the allowed number of invocations. - - - - Specifies that a mocked method should not be invoked. - An object defining the allowed number of invocations. - - - - Specifies that a mocked method should be invoked exactly one time. - An object defining the allowed number of invocations. - - - - Determines whether the specified is equal to this instance. - - The to compare with this instance. - - true if the specified is equal to this instance; otherwise, false. - - - - - Returns a hash code for this instance. - - A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. - - - - - Determines whether two specified objects have the same value. - - The first . - - The second . - - true if the value of left is the same as the value of right; otherwise, false. - - - - - Determines whether two specified objects have different values. - - The first . - - The second . - - true if the value of left is different from the value of right; otherwise, false. - - - - + + + + Moq.Silverlight + + + + + Provides a mock implementation of . + + Any interface type can be used for mocking, but for classes, only abstract and virtual members can be mocked. + + The behavior of the mock with regards to the setups and the actual calls is determined + by the optional that can be passed to the + constructor. + + Type to mock, which can be an interface or a class. + The following example shows establishing setups with specific values + for method invocations: + + // Arrange + var order = new Order(TALISKER, 50); + var mock = new Mock<IWarehouse>(); + + mock.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true); + + // Act + order.Fill(mock.Object); + + // Assert + Assert.True(order.IsFilled); + + The following example shows how to use the class + to specify conditions for arguments instead of specific values: + + // Arrange + var order = new Order(TALISKER, 50); + var mock = new Mock<IWarehouse>(); + + // shows how to expect a value within a range + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsInRange(0, 100, Range.Inclusive))) + .Returns(false); + + // shows how to throw for unexpected calls. + mock.Setup(x => x.Remove( + It.IsAny<string>(), + It.IsAny<int>())) + .Throws(new InvalidOperationException()); + + // Act + order.Fill(mock.Object); + + // Assert + Assert.False(order.IsFilled); + + + + + + Base class for mocks and static helper class with methods that + apply to mocked objects, such as to + retrieve a from an object instance. + + + + + Helper interface used to hide the base + members from the fluent API to make it much cleaner + in Visual Studio intellisense. + + + + + + + + + + + + + + + + + Creates an mock object of the indicated type. + + The type of the mocked object. + The mocked object created. + + + + Creates an mock object of the indicated type. + + The predicate with the specification of how the mocked object should behave. + The type of the mocked object. + The mocked object created. + + + + Initializes a new instance of the class. + + + + + Retrieves the mock object for the given object instance. + + Type of the mock to retrieve. Can be omitted as it's inferred + from the object instance passed in as the instance. + The instance of the mocked object.The mock associated with the mocked object. + The received instance + was not created by Moq. + + The following example shows how to add a new setup to an object + instance which is not the original but rather + the object associated with it: + + // Typed instance, not the mock, is retrieved from some test API. + HttpContextBase context = GetMockContext(); + + // context.Request is the typed object from the "real" API + // so in order to add a setup to it, we need to get + // the mock that "owns" it + Mock<HttpRequestBase> request = Mock.Get(context.Request); + mock.Setup(req => req.AppRelativeCurrentExecutionFilePath) + .Returns(tempUrl); + + + + + + Returns the mocked object value. + + + + + Verifies that all verifiable expectations have been met. + + This example sets up an expectation and marks it as verifiable. After + the mock is used, a Verify() call is issued on the mock + to ensure the method in the setup was invoked: + + var mock = new Mock<IWarehouse>(); + this.Setup(x => x.HasInventory(TALISKER, 50)).Verifiable().Returns(true); + ... + // other test code + ... + // Will throw if the test code has didn't call HasInventory. + this.Verify(); + + Not all verifiable expectations were met. + + + + Verifies all expectations regardless of whether they have + been flagged as verifiable. + + This example sets up an expectation without marking it as verifiable. After + the mock is used, a call is issued on the mock + to ensure that all expectations are met: + + var mock = new Mock<IWarehouse>(); + this.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true); + ... + // other test code + ... + // Will throw if the test code has didn't call HasInventory, even + // that expectation was not marked as verifiable. + this.VerifyAll(); + + At least one expectation was not met. + + + + Gets the interceptor target for the given expression and root mock, + building the intermediate hierarchy of mock objects if necessary. + + + + + Raises the associated event with the given + event argument data. + + + + + Raises the associated event with the given + event argument data. + + + + + Adds an interface implementation to the mock, + allowing setups to be specified for it. + + This method can only be called before the first use + of the mock property, at which + point the runtime type has already been generated + and no more interfaces can be added to it. + + Also, must be an + interface and not a class, which must be specified + when creating the mock instead. + + + The mock type + has already been generated by accessing the property. + + The specified + is not an interface. + + The following example creates a mock for the main interface + and later adds to it to verify + it's called by the consumer code: + + var mock = new Mock<IProcessor>(); + mock.Setup(x => x.Execute("ping")); + + // add IDisposable interface + var disposable = mock.As<IDisposable>(); + disposable.Setup(d => d.Dispose()).Verifiable(); + + Type of interface to cast the mock to. + + + + + + + Behavior of the mock, according to the value set in the constructor. + + + + + Whether the base member virtual implementation will be called + for mocked classes if no setup is matched. Defaults to . + + + + + Specifies the behavior to use when returning default values for + unexpected invocations on loose mocks. + + + + + Gets the mocked object instance. + + + + + Retrieves the type of the mocked object, its generic type argument. + This is used in the auto-mocking of hierarchy access. + + + + + If this is a mock of a delegate, this property contains the method + on the autogenerated interface so that we can convert setup + verify + expressions on the delegate into expressions on the interface proxy. + + + + + Allows to check whether expression conversion to the + must be performed on the mock, without causing unnecessarily early initialization of + the mock instance, which breaks As{T}. + + + + + Specifies the class that will determine the default + value to return when invocations are made that + have no setups and need to return a default + value (for loose mocks). + + + + + Exposes the list of extra interfaces implemented by the mock. + + + + + Covarient interface for Mock<T> such that casts between IMock<Employee> to IMock<Person> + are possible. Only covers the covariant members of Mock<T>. + + + + + Exposes the mocked object instance. + + + + + Behavior of the mock, according to the value set in the constructor. + + + + + Whether the base member virtual implementation will be called + for mocked classes if no setup is matched. Defaults to . + + + + + Specifies the behavior to use when returning default values for + unexpected invocations on loose mocks. + + + + + Ctor invoked by AsTInterface exclusively. + + + + + Initializes an instance of the mock with default behavior. + + var mock = new Mock<IFormatProvider>(); + + + + + Initializes an instance of the mock with default behavior and with + the given constructor arguments for the class. (Only valid when is a class) + + The mock will try to find the best match constructor given the constructor arguments, and invoke that + to initialize the instance. This applies only for classes, not interfaces. + + var mock = new Mock<MyProvider>(someArgument, 25); + Optional constructor arguments if the mocked type is a class. + + + + Initializes an instance of the mock with the specified behavior. + + var mock = new Mock<IFormatProvider>(MockBehavior.Relaxed); + Behavior of the mock. + + + + Initializes an instance of the mock with a specific behavior with + the given constructor arguments for the class. + + The mock will try to find the best match constructor given the constructor arguments, and invoke that + to initialize the instance. This applies only to classes, not interfaces. + + var mock = new Mock<MyProvider>(someArgument, 25); + Behavior of the mock.Optional constructor arguments if the mocked type is a class. + + + + Returns the mocked object value. + + + + + Specifies a setup on the mocked type for a call to + to a void method. + + If more than one setup is specified for the same method or property, + the latest one wins and is the one that will be executed. + Lambda expression that specifies the expected method invocation. + + var mock = new Mock<IProcessor>(); + mock.Setup(x => x.Execute("ping")); + + + + + + Specifies a setup on the mocked type for a call to + to a value returning method. + Type of the return value. Typically omitted as it can be inferred from the expression. + If more than one setup is specified for the same method or property, + the latest one wins and is the one that will be executed. + Lambda expression that specifies the method invocation. + + mock.Setup(x => x.HasInventory("Talisker", 50)).Returns(true); + + + + + + Specifies a setup on the mocked type for a call to + to a property getter. + + If more than one setup is set for the same property getter, + the latest one wins and is the one that will be executed. + Type of the property. Typically omitted as it can be inferred from the expression.Lambda expression that specifies the property getter. + + mock.SetupGet(x => x.Suspended) + .Returns(true); + + + + + + Specifies a setup on the mocked type for a call to + to a property setter. + + If more than one setup is set for the same property setter, + the latest one wins and is the one that will be executed. + + This overloads allows the use of a callback already + typed for the property type. + + Type of the property. Typically omitted as it can be inferred from the expression.The Lambda expression that sets a property to a value. + + mock.SetupSet(x => x.Suspended = true); + + + + + + Specifies a setup on the mocked type for a call to + to a property setter. + + If more than one setup is set for the same property setter, + the latest one wins and is the one that will be executed. + Lambda expression that sets a property to a value. + + mock.SetupSet(x => x.Suspended = true); + + + + + + Specifies that the given property should have "property behavior", + meaning that setting its value will cause it to be saved and + later returned when the property is requested. (this is also + known as "stubbing"). + + Type of the property, inferred from the property + expression (does not need to be specified). + Property expression to stub. + If you have an interface with an int property Value, you might + stub it using the following straightforward call: + + var mock = new Mock<IHaveValue>(); + mock.Stub(v => v.Value); + + After the Stub call has been issued, setting and + retrieving the object value will behave as expected: + + IHaveValue v = mock.Object; + + v.Value = 5; + Assert.Equal(5, v.Value); + + + + + + Specifies that the given property should have "property behavior", + meaning that setting its value will cause it to be saved and + later returned when the property is requested. This overload + allows setting the initial value for the property. (this is also + known as "stubbing"). + + Type of the property, inferred from the property + expression (does not need to be specified). + Property expression to stub.Initial value for the property. + If you have an interface with an int property Value, you might + stub it using the following straightforward call: + + var mock = new Mock<IHaveValue>(); + mock.SetupProperty(v => v.Value, 5); + + After the SetupProperty call has been issued, setting and + retrieving the object value will behave as expected: + + IHaveValue v = mock.Object; + // Initial value was stored + Assert.Equal(5, v.Value); + + // New value set which changes the initial value + v.Value = 6; + Assert.Equal(6, v.Value); + + + + + + Specifies that the all properties on the mock should have "property behavior", + meaning that setting its value will cause it to be saved and + later returned when the property is requested. (this is also + known as "stubbing"). The default value for each property will be the + one generated as specified by the property for the mock. + + If the mock is set to , + the mocked default values will also get all properties setup recursively. + + + + + + + + Verifies that a specific invocation matching the given expression was performed on the mock. Use + in conjuntion with the default . + + This example assumes that the mock has been used, and later we want to verify that a given + invocation with specific parameters was performed: + + var mock = new Mock<IProcessor>(); + // exercise mock + //... + // Will throw if the test code didn't call Execute with a "ping" string argument. + mock.Verify(proc => proc.Execute("ping")); + + The invocation was not performed on the mock.Expression to verify. + + + + Verifies that a specific invocation matching the given expression was performed on the mock. Use + in conjuntion with the default . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called. + + + + Verifies that a specific invocation matching the given expression was performed on the mock. Use + in conjuntion with the default . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called. + + + + Verifies that a specific invocation matching the given expression was performed on the mock, + specifying a failure error message. Use in conjuntion with the default + . + + This example assumes that the mock has been used, and later we want to verify that a given + invocation with specific parameters was performed: + + var mock = new Mock<IProcessor>(); + // exercise mock + //... + // Will throw if the test code didn't call Execute with a "ping" string argument. + mock.Verify(proc => proc.Execute("ping")); + + The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. + + + + Verifies that a specific invocation matching the given expression was performed on the mock, + specifying a failure error message. Use in conjuntion with the default + . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails. + + + + Verifies that a specific invocation matching the given expression was performed on the mock, + specifying a failure error message. Use in conjuntion with the default + . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails. + + + + Verifies that a specific invocation matching the given expression was performed on the mock. Use + in conjuntion with the default . + + This example assumes that the mock has been used, and later we want to verify that a given + invocation with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't call HasInventory. + mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50)); + + The invocation was not performed on the mock.Expression to verify.Type of return value from the expression. + + + + Verifies that a specific invocation matching the given + expression was performed on the mock. Use in conjuntion + with the default . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Type of return value from the expression. + + + + Verifies that a specific invocation matching the given + expression was performed on the mock. Use in conjuntion + with the default . + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Type of return value from the expression. + + + + Verifies that a specific invocation matching the given + expression was performed on the mock, specifying a failure + error message. + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't call HasInventory. + mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50), "When filling orders, inventory has to be checked"); + + The invocation was not performed on the mock.Expression to verify.Message to show if verification fails.Type of return value from the expression. + + + + Verifies that a specific invocation matching the given + expression was performed on the mock, specifying a failure + error message. + + The invocation was not call the times specified by + . + Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails.Type of return value from the expression. + + + + Verifies that a property was read on the mock. + + This example assumes that the mock has been used, + and later we want to verify that a given property + was retrieved from it: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't retrieve the IsClosed property. + mock.VerifyGet(warehouse => warehouse.IsClosed); + + The invocation was not performed on the mock.Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock, specifying a failure + error message. + + This example assumes that the mock has been used, + and later we want to verify that a given property + was retrieved from it: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't retrieve the IsClosed property. + mock.VerifyGet(warehouse => warehouse.IsClosed); + + The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock, specifying a failure + error message. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was read on the mock, specifying a failure + error message. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + + Verifies that a property was set on the mock. + + This example assumes that the mock has been used, + and later we want to verify that a given property + was set on it: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed = true); + + The invocation was not performed on the mock.Expression to verify. + + + + Verifies that a property was set on the mock. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify. + + + + Verifies that a property was set on the mock. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify. + + + + Verifies that a property was set on the mock, specifying + a failure message. + + This example assumes that the mock has been used, + and later we want to verify that a given property + was set on it: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed = true, "Warehouse should always be closed after the action"); + + The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. + + + + Verifies that a property was set on the mock, specifying + a failure message. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. + + + + Verifies that a property was set on the mock, specifying + a failure message. + + The invocation was not call the times specified by + . + The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. + + + + Raises the event referenced in using + the given argument. + + The argument is + invalid for the target event invocation, or the is + not an event attach or detach expression. + + The following example shows how to raise a event: + + var mock = new Mock<IViewModel>(); + + mock.Raise(x => x.PropertyChanged -= null, new PropertyChangedEventArgs("Name")); + + + This example shows how to invoke an event with a custom event arguments + class in a view that will cause its corresponding presenter to + react by changing its state: + + var mockView = new Mock<IOrdersView>(); + var presenter = new OrdersPresenter(mockView.Object); + + // Check that the presenter has no selection by default + Assert.Null(presenter.SelectedOrder); + + // Raise the event with a specific arguments data + mockView.Raise(v => v.SelectionChanged += null, new OrderEventArgs { Order = new Order("moq", 500) }); + + // Now the presenter reacted to the event, and we have a selected order + Assert.NotNull(presenter.SelectedOrder); + Assert.Equal("moq", presenter.SelectedOrder.ProductName); + + + + + + Raises the event referenced in using + the given argument for a non-EventHandler typed event. + + The arguments are + invalid for the target event invocation, or the is + not an event attach or detach expression. + + The following example shows how to raise a custom event that does not adhere to + the standard EventHandler: + + var mock = new Mock<IViewModel>(); + + mock.Raise(x => x.MyEvent -= null, "Name", bool, 25); + + + + + + Obsolete. + + + + + Obsolete. + + + + + Obsolete. + + + + + Obsolete. + + + + + Obsolete. + + + + + Exposes the mocked object instance. + + + + + + + + Implements the fluent API. + + + + + The expectation will be considered only in the former condition. + + + + + + + The expectation will be considered only in the former condition. + + + + + + + + Setups the get. + + The type of the property. + The expression. + + + + + Setups the set. + + The type of the property. + The setter expression. + + + + + Setups the set. + + The setter expression. + + + + + Determines the way default values are generated + calculated for loose mocks. + + + + + Default behavior, which generates empty values for + value types (i.e. default(int)), empty array and + enumerables, and nulls for all other reference types. + + + + + Whenever the default value generated by + is null, replaces this value with a mock (if the type + can be mocked). + + + For sealed classes, a null value will be generated. + + + + + A that returns an empty default value + for invocations that do not have setups or return values, with loose mocks. + This is the default behavior for a mock. + + + + + Interface to be implemented by classes that determine the + default value of non-expected invocations. + + + + + Defines the default value to return in all the methods returning . + The type of the return value.The value to set as default. + + + + Provides a value for the given member and arguments. + + The member to provide a default value for. + + + + + Provides partial evaluation of subtrees, whenever they can be evaluated locally. + + Matt Warren: http://blogs.msdn.com/mattwar + Documented by InSTEDD: http://www.instedd.org + + + + Performs evaluation and replacement of independent sub-trees + + The root of the expression tree. + A function that decides whether a given expression + node can be part of the local function. + A new tree with sub-trees evaluated and replaced. + + + + Performs evaluation and replacement of independent sub-trees + + The root of the expression tree. + A new tree with sub-trees evaluated and replaced. + + + + Evaluates and replaces sub-trees when first candidate is reached (top-down) + + + + + Performs bottom-up analysis to determine which nodes can possibly + be part of an evaluated sub-tree. + + + + + Casts the expression to a lambda expression, removing + a cast if there's any. + + + + + Casts the body of the lambda expression to a . + + If the body is not a method call. + + + + Converts the body of the lambda expression into the referenced by it. + + + + + Checks whether the body of the lambda expression is a property access. + + + + + Checks whether the expression is a property access. + + + + + Checks whether the body of the lambda expression is a property indexer, which is true + when the expression is an whose + has + equal to . + + + + + Checks whether the expression is a property indexer, which is true + when the expression is an whose + has + equal to . + + + + + Creates an expression that casts the given expression to the + type. + + + + + TODO: remove this code when https://connect.microsoft.com/VisualStudio/feedback/ViewFeedback.aspx?FeedbackID=331583 + is fixed. + + + + + Extracts, into a common form, information from a + around either a (for a normal method call) + or a (for a delegate invocation). + + + + + The intention of is to create a more readable + string representation for the failure message. + + + + + Tests if a type is a delegate type (subclasses ). + + + + + Tracks the current mock and interception context. + + + + + Having an active fluent mock context means that the invocation + is being performed in "trial" mode, just to gather the + target method and arguments that need to be matched later + when the actual invocation is made. + + + + + Ensures the given is not null. + Throws otherwise. + + + + + Ensures the given string is not null or empty. + Throws in the first case, or + in the latter. + + + + + Checks an argument to ensure it is in the specified range including the edges. + + Type of the argument to check, it must be an type. + + The expression containing the name of the argument. + The argument value to check. + The minimun allowed value for the argument. + The maximun allowed value for the argument. + + + + Checks an argument to ensure it is in the specified range excluding the edges. + + Type of the argument to check, it must be an type. + + The expression containing the name of the argument. + The argument value to check. + The minimun allowed value for the argument. + The maximun allowed value for the argument. + + + + Handle interception + + the current invocation context + shared data among the strategies during an interception + true if further interception has to be processed, otherwise false + + + + Implemented by all generated mock object instances. + + + + + Implemented by all generated mock object instances. + + + + + Reference the Mock that contains this as the mock.Object value. + + + + + Reference the Mock that contains this as the mock.Object value. + + + + + Implements the actual interception and method invocation for + all mocks. + + + + + Get an eventInfo for a given event name. Search type ancestors depth first if necessary. + + Name of the event, with the set_ or get_ prefix already removed + + + + Get an eventInfo for a given event name. Search type ancestors depth first if necessary. + Searches also in non public events. + + Name of the event, with the set_ or get_ prefix already removed + + + + Given a type return all of its ancestors, both types and interfaces. + + The type to find immediate ancestors of + + + + Allows the specification of a matching condition for an + argument in a method invocation, rather than a specific + argument value. "It" refers to the argument being matched. + + This class allows the setup to match a method invocation + with an arbitrary value, with a value in a specified range, or + even one that matches a given predicate. + + + + + Matches any value of the given type. + + Typically used when the actual argument value for a method + call is not relevant. + + + // Throws an exception for a call to Remove with any string value. + mock.Setup(x => x.Remove(It.IsAny<string>())).Throws(new InvalidOperationException()); + + Type of the value. + + + + Matches any value of the given type, except null. + Type of the value. + + + + Matches any value that satisfies the given predicate. + Type of the argument to check.The predicate used to match the method argument. + Allows the specification of a predicate to perform matching + of method call arguments. + + This example shows how to return the value 1 whenever the argument to the + Do method is an even number. + + mock.Setup(x => x.Do(It.Is<int>(i => i % 2 == 0))) + .Returns(1); + + This example shows how to throw an exception if the argument to the + method is a negative number: + + mock.Setup(x => x.GetUser(It.Is<int>(i => i < 0))) + .Throws(new ArgumentException()); + + + + + + Matches any value that is in the range specified. + Type of the argument to check.The lower bound of the range.The upper bound of the range. + The kind of range. See . + + The following example shows how to expect a method call + with an integer argument within the 0..100 range. + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsInRange(0, 100, Range.Inclusive))) + .Returns(false); + + + + + + Matches any value that is present in the sequence specified. + Type of the argument to check.The sequence of possible values. + The following example shows how to expect a method call + with an integer argument with value from a list. + + var values = new List<int> { 1, 2, 3 }; + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsIn(values))) + .Returns(false); + + + + + + Matches any value that is present in the sequence specified. + Type of the argument to check.The sequence of possible values. + The following example shows how to expect a method call + with an integer argument with a value of 1, 2, or 3. + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsIn(1, 2, 3))) + .Returns(false); + + + + + + Matches any value that is not found in the sequence specified. + Type of the argument to check.The sequence of disallowed values. + The following example shows how to expect a method call + with an integer argument with value not found from a list. + + var values = new List<int> { 1, 2, 3 }; + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsNotIn(values))) + .Returns(false); + + + + + + Matches any value that is not found in the sequence specified. + Type of the argument to check.The sequence of disallowed values. + The following example shows how to expect a method call + with an integer argument of any value except 1, 2, or 3. + + mock.Setup(x => x.HasInventory( + It.IsAny<string>(), + It.IsNotIn(1, 2, 3))) + .Returns(false); + + + + + + Matches a string argument if it matches the given regular expression pattern. + The pattern to use to match the string argument value. + The following example shows how to expect a call to a method where the + string argument matches the given regular expression: + + mock.Setup(x => x.Check(It.IsRegex("[a-z]+"))).Returns(1); + + + + + + Matches a string argument if it matches the given regular expression pattern. + The pattern to use to match the string argument value.The options used to interpret the pattern. + The following example shows how to expect a call to a method where the + string argument matches the given regular expression, in a case insensitive way: + + mock.Setup(x => x.Check(It.IsRegex("[a-z]+", RegexOptions.IgnoreCase))).Returns(1); + + + + + + Implements the fluent API. + + + + + Defines the Callback verb and overloads. + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2) => Console.WriteLine(arg1 + arg2)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3) => Console.WriteLine(arg1 + arg2 + arg3)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15)); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The type of the sixteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16)); + + + + + + Specifies a callback to invoke when the method is called. + + The callback method to invoke. + + The following example specifies a callback to set a boolean + value that can be used later: + + var called = false; + mock.Setup(x => x.Execute()) + .Callback(() => called = true); + + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The argument type of the invoked method. + The callback method to invoke. + + Invokes the given callback with the concrete invocation argument value. + + Notice how the specific string argument is retrieved by simply declaring + it as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute(It.IsAny<string>())) + .Callback((string command) => Console.WriteLine(command)); + + + + + + Defines occurrence members to constraint setups. + + + + + The expected invocation can happen at most once. + + + + var mock = new Mock<ICommand>(); + mock.Setup(foo => foo.Execute("ping")) + .AtMostOnce(); + + + + + + The expected invocation can happen at most specified number of times. + + The number of times to accept calls. + + + var mock = new Mock<ICommand>(); + mock.Setup(foo => foo.Execute("ping")) + .AtMost( 5 ); + + + + + + Defines the Raises verb. + + + + + Specifies the event that will be raised + when the setup is met. + + An expression that represents an event attach or detach action. + The event arguments to pass for the raised event. + + The following example shows how to raise an event when + the setup is met: + + var mock = new Mock<IContainer>(); + + mock.Setup(add => add.Add(It.IsAny<string>(), It.IsAny<object>())) + .Raises(add => add.Added += null, EventArgs.Empty); + + + + + + Specifies the event that will be raised + when the setup is matched. + + An expression that represents an event attach or detach action. + A function that will build the + to pass when raising the event. + + + + + Specifies the custom event that will be raised + when the setup is matched. + + An expression that represents an event attach or detach action. + The arguments to pass to the custom delegate (non EventHandler-compatible). + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + The type of the thirteenth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + The type of the thirteenth argument received by the expected invocation. + The type of the fourteenth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + The type of the thirteenth argument received by the expected invocation. + The type of the fourteenth argument received by the expected invocation. + The type of the fifteenth argument received by the expected invocation. + + + + + Specifies the event that will be raised when the setup is matched. + + The expression that represents an event attach or detach action. + The function that will build the + to pass when raising the event. + The type of the first argument received by the expected invocation. + The type of the second argument received by the expected invocation. + The type of the third argument received by the expected invocation. + The type of the fourth argument received by the expected invocation. + The type of the fifth argument received by the expected invocation. + The type of the sixth argument received by the expected invocation. + The type of the seventh argument received by the expected invocation. + The type of the eighth argument received by the expected invocation. + The type of the nineth argument received by the expected invocation. + The type of the tenth argument received by the expected invocation. + The type of the eleventh argument received by the expected invocation. + The type of the twelfth argument received by the expected invocation. + The type of the thirteenth argument received by the expected invocation. + The type of the fourteenth argument received by the expected invocation. + The type of the fifteenth argument received by the expected invocation. + The type of the sixteenth argument received by the expected invocation. + + + + + Defines the Verifiable verb. + + + + + Marks the expectation as verifiable, meaning that a call + to will check if this particular + expectation was met. + + + The following example marks the expectation as verifiable: + + mock.Expect(x => x.Execute("ping")) + .Returns(true) + .Verifiable(); + + + + + + Marks the expectation as verifiable, meaning that a call + to will check if this particular + expectation was met, and specifies a message for failures. + + + The following example marks the expectation as verifiable: + + mock.Expect(x => x.Execute("ping")) + .Returns(true) + .Verifiable("Ping should be executed always!"); + + + + + + Implements the fluent API. + + + + + Implements the fluent API. + + + + + Defines the Throws verb. + + + + + Specifies the exception to throw when the method is invoked. + + Exception instance to throw. + + This example shows how to throw an exception when the method is + invoked with an empty string argument: + + mock.Setup(x => x.Execute("")) + .Throws(new ArgumentException()); + + + + + + Specifies the type of exception to throw when the method is invoked. + + Type of exception to instantiate and throw when the setup is matched. + + This example shows how to throw an exception when the method is + invoked with an empty string argument: + + mock.Setup(x => x.Execute("")) + .Throws<ArgumentException>(); + + + + + + Implements the fluent API. + + + + + Implements the fluent API. + + + + + Defines the Callback verb and overloads for callbacks on + setups that return a value. + + Mocked type. + Type of the return value of the setup. + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2) => Console.WriteLine(arg1 + arg2)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3) => Console.WriteLine(arg1 + arg2 + arg3)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15)); + + + + + + Specifies a callback to invoke when the method is called that receives the original + arguments. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The type of the sixteenth argument of the invoked method. + The callback method to invoke. + A reference to interface. + + Invokes the given callback with the concrete invocation arguments values. + + Notice how the specific arguments are retrieved by simply declaring + them as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute( + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>(), + It.IsAny<string>())) + .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15, arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16)); + + + + + + Specifies a callback to invoke when the method is called. + + The callback method to invoke. + + The following example specifies a callback to set a boolean value that can be used later: + + var called = false; + mock.Setup(x => x.Execute()) + .Callback(() => called = true) + .Returns(true); + + Note that in the case of value-returning methods, after the Callback + call you can still specify the return value. + + + + + Specifies a callback to invoke when the method is called that receives the original arguments. + + The type of the argument of the invoked method. + Callback method to invoke. + + Invokes the given callback with the concrete invocation argument value. + + Notice how the specific string argument is retrieved by simply declaring + it as part of the lambda expression for the callback: + + + mock.Setup(x => x.Execute(It.IsAny<string>())) + .Callback(command => Console.WriteLine(command)) + .Returns(true); + + + + + + Implements the fluent API. + + + + + Defines the Returns verb. + + Mocked type. + Type of the return value from the expression. + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2) => arg1 + arg2); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3) => arg1 + arg2 + arg3); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4) => arg1 + arg2 + arg3 + arg4); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5) => arg1 + arg2 + arg3 + arg4 + arg5); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15); + + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the first argument of the invoked method. + The type of the second argument of the invoked method. + The type of the third argument of the invoked method. + The type of the fourth argument of the invoked method. + The type of the fifth argument of the invoked method. + The type of the sixth argument of the invoked method. + The type of the seventh argument of the invoked method. + The type of the eighth argument of the invoked method. + The type of the nineth argument of the invoked method. + The type of the tenth argument of the invoked method. + The type of the eleventh argument of the invoked method. + The type of the twelfth argument of the invoked method. + The type of the thirteenth argument of the invoked method. + The type of the fourteenth argument of the invoked method. + The type of the fifteenth argument of the invoked method. + The type of the sixteenth argument of the invoked method. + The function that will calculate the return value. + Returns a calculated value which is evaluated lazily at the time of the invocation. + + + The return value is calculated from the value of the actual method invocation arguments. + Notice how the arguments are retrieved by simply declaring them as part of the lambda + expression: + + + mock.Setup(x => x.Execute( + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>(), + It.IsAny<int>())) + .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16); + + + + + + Specifies the value to return. + + The value to return, or . + + Return a true value from the method call: + + mock.Setup(x => x.Execute("ping")) + .Returns(true); + + + + + + Specifies a function that will calculate the value to return from the method. + + The function that will calculate the return value. + + Return a calculated value when the method is called: + + mock.Setup(x => x.Execute("ping")) + .Returns(() => returnValues[0]); + + The lambda expression to retrieve the return value is lazy-executed, + meaning that its value may change depending on the moment the method + is executed and the value the returnValues array has at + that moment. + + + + + Specifies a function that will calculate the value to return from the method, + retrieving the arguments for the invocation. + + The type of the argument of the invoked method. + The function that will calculate the return value. + + Return a calculated value which is evaluated lazily at the time of the invocation. + + The lookup list can change between invocations and the setup + will return different values accordingly. Also, notice how the specific + string argument is retrieved by simply declaring it as part of the lambda + expression: + + + mock.Setup(x => x.Execute(It.IsAny<string>())) + .Returns((string command) => returnValues[command]); + + + + + + Calls the real method of the object and returns its return value. + + The value calculated by the real method of the object. + + + + Implements the fluent API. + + + + + Defines the Callback verb for property getter setups. + + + Mocked type. + Type of the property. + + + + Specifies a callback to invoke when the property is retrieved. + + Callback method to invoke. + + Invokes the given callback with the property value being set. + + mock.SetupGet(x => x.Suspended) + .Callback(() => called = true) + .Returns(true); + + + + + + Implements the fluent API. + + + + + Defines the Returns verb for property get setups. + + Mocked type. + Type of the property. + + + + Specifies the value to return. + + The value to return, or . + + Return a true value from the property getter call: + + mock.SetupGet(x => x.Suspended) + .Returns(true); + + + + + + Specifies a function that will calculate the value to return for the property. + + The function that will calculate the return value. + + Return a calculated value when the property is retrieved: + + mock.SetupGet(x => x.Suspended) + .Returns(() => returnValues[0]); + + The lambda expression to retrieve the return value is lazy-executed, + meaning that its value may change depending on the moment the property + is retrieved and the value the returnValues array has at + that moment. + + + + + Calls the real property of the object and returns its return value. + + The value calculated by the real property of the object. + + + + Implements the fluent API. + + + + + Defines the Callback verb for property setter setups. + + Type of the property. + + + + Specifies a callback to invoke when the property is set that receives the + property value being set. + + Callback method to invoke. + + Invokes the given callback with the property value being set. + + mock.SetupSet(x => x.Suspended) + .Callback((bool state) => Console.WriteLine(state)); + + + + + + Language for ReturnSequence + + + + + Returns value + + + + + Throws an exception + + + + + Throws an exception + + + + + Calls original method + + + + + The first method call or member access will be the + last segment of the expression (depth-first traversal), + which is the one we have to Setup rather than FluentMock. + And the last one is the one we have to Mock.Get rather + than FluentMock. + + + + + A default implementation of IQueryable for use with QueryProvider + + + + + The is a + static method that returns an IQueryable of Mocks of T which is used to + apply the linq specification to. + + + + + Utility repository class to use to construct multiple + mocks when consistent verification is + desired for all of them. + + + If multiple mocks will be created during a test, passing + the desired (if different than the + or the one + passed to the repository constructor) and later verifying each + mock can become repetitive and tedious. + + This repository class helps in that scenario by providing a + simplified creation of multiple mocks with a default + (unless overriden by calling + ) and posterior verification. + + + + The following is a straightforward example on how to + create and automatically verify strict mocks using a : + + var repository = new MockRepository(MockBehavior.Strict); + + var foo = repository.Create<IFoo>(); + var bar = repository.Create<IBar>(); + + // no need to call Verifiable() on the setup + // as we'll be validating all of them anyway. + foo.Setup(f => f.Do()); + bar.Setup(b => b.Redo()); + + // exercise the mocks here + + repository.VerifyAll(); + // At this point all setups are already checked + // and an optional MockException might be thrown. + // Note also that because the mocks are strict, any invocation + // that doesn't have a matching setup will also throw a MockException. + + The following examples shows how to setup the repository + to create loose mocks and later verify only verifiable setups: + + var repository = new MockRepository(MockBehavior.Loose); + + var foo = repository.Create<IFoo>(); + var bar = repository.Create<IBar>(); + + // this setup will be verified when we verify the repository + foo.Setup(f => f.Do()).Verifiable(); + + // this setup will NOT be verified + foo.Setup(f => f.Calculate()); + + // this setup will be verified when we verify the repository + bar.Setup(b => b.Redo()).Verifiable(); + + // exercise the mocks here + // note that because the mocks are Loose, members + // called in the interfaces for which no matching + // setups exist will NOT throw exceptions, + // and will rather return default values. + + repository.Verify(); + // At this point verifiable setups are already checked + // and an optional MockException might be thrown. + + The following examples shows how to setup the repository with a + default strict behavior, overriding that default for a + specific mock: + + var repository = new MockRepository(MockBehavior.Strict); + + // this particular one we want loose + var foo = repository.Create<IFoo>(MockBehavior.Loose); + var bar = repository.Create<IBar>(); + + // specify setups + + // exercise the mocks here + + repository.Verify(); + + + + + + + Utility factory class to use to construct multiple + mocks when consistent verification is + desired for all of them. + + + If multiple mocks will be created during a test, passing + the desired (if different than the + or the one + passed to the factory constructor) and later verifying each + mock can become repetitive and tedious. + + This factory class helps in that scenario by providing a + simplified creation of multiple mocks with a default + (unless overriden by calling + ) and posterior verification. + + + + The following is a straightforward example on how to + create and automatically verify strict mocks using a : + + var factory = new MockFactory(MockBehavior.Strict); + + var foo = factory.Create<IFoo>(); + var bar = factory.Create<IBar>(); + + // no need to call Verifiable() on the setup + // as we'll be validating all of them anyway. + foo.Setup(f => f.Do()); + bar.Setup(b => b.Redo()); + + // exercise the mocks here + + factory.VerifyAll(); + // At this point all setups are already checked + // and an optional MockException might be thrown. + // Note also that because the mocks are strict, any invocation + // that doesn't have a matching setup will also throw a MockException. + + The following examples shows how to setup the factory + to create loose mocks and later verify only verifiable setups: + + var factory = new MockFactory(MockBehavior.Loose); + + var foo = factory.Create<IFoo>(); + var bar = factory.Create<IBar>(); + + // this setup will be verified when we verify the factory + foo.Setup(f => f.Do()).Verifiable(); + + // this setup will NOT be verified + foo.Setup(f => f.Calculate()); + + // this setup will be verified when we verify the factory + bar.Setup(b => b.Redo()).Verifiable(); + + // exercise the mocks here + // note that because the mocks are Loose, members + // called in the interfaces for which no matching + // setups exist will NOT throw exceptions, + // and will rather return default values. + + factory.Verify(); + // At this point verifiable setups are already checked + // and an optional MockException might be thrown. + + The following examples shows how to setup the factory with a + default strict behavior, overriding that default for a + specific mock: + + var factory = new MockFactory(MockBehavior.Strict); + + // this particular one we want loose + var foo = factory.Create<IFoo>(MockBehavior.Loose); + var bar = factory.Create<IBar>(); + + // specify setups + + // exercise the mocks here + + factory.Verify(); + + + + + + + Initializes the factory with the given + for newly created mocks from the factory. + + The behavior to use for mocks created + using the factory method if not overriden + by using the overload. + + + + Creates a new mock with the default + specified at factory construction time. + + Type to mock. + A new . + + + var factory = new MockFactory(MockBehavior.Strict); + + var foo = factory.Create<IFoo>(); + // use mock on tests + + factory.VerifyAll(); + + + + + + Creates a new mock with the default + specified at factory construction time and with the + the given constructor arguments for the class. + + + The mock will try to find the best match constructor given the + constructor arguments, and invoke that to initialize the instance. + This applies only to classes, not interfaces. + + Type to mock. + Constructor arguments for mocked classes. + A new . + + + var factory = new MockFactory(MockBehavior.Default); + + var mock = factory.Create<MyBase>("Foo", 25, true); + // use mock on tests + + factory.Verify(); + + + + + + Creates a new mock with the given . + + Type to mock. + Behavior to use for the mock, which overrides + the default behavior specified at factory construction time. + A new . + + The following example shows how to create a mock with a different + behavior to that specified as the default for the factory: + + var factory = new MockFactory(MockBehavior.Strict); + + var foo = factory.Create<IFoo>(MockBehavior.Loose); + + + + + + Creates a new mock with the given + and with the the given constructor arguments for the class. + + + The mock will try to find the best match constructor given the + constructor arguments, and invoke that to initialize the instance. + This applies only to classes, not interfaces. + + Type to mock. + Behavior to use for the mock, which overrides + the default behavior specified at factory construction time. + Constructor arguments for mocked classes. + A new . + + The following example shows how to create a mock with a different + behavior to that specified as the default for the factory, passing + constructor arguments: + + var factory = new MockFactory(MockBehavior.Default); + + var mock = factory.Create<MyBase>(MockBehavior.Strict, "Foo", 25, true); + + + + + + Implements creation of a new mock within the factory. + + Type to mock. + The behavior for the new mock. + Optional arguments for the construction of the mock. + + + + Verifies all verifiable expectations on all mocks created + by this factory. + + + One or more mocks had expectations that were not satisfied. + + + + Verifies all verifiable expectations on all mocks created + by this factory. + + + One or more mocks had expectations that were not satisfied. + + + + Invokes for each mock + in , and accumulates the resulting + that might be + thrown from the action. + + The action to execute against + each mock. + + + + Whether the base member virtual implementation will be called + for mocked classes if no setup is matched. Defaults to . + + + + + Specifies the behavior to use when returning default values for + unexpected invocations on loose mocks. + + + + + Gets the mocks that have been created by this factory and + that will get verified together. + + + + + Access the universe of mocks of the given type, to retrieve those + that behave according to the LINQ query specification. + + The type of the mocked object to query. + + + + Access the universe of mocks of the given type, to retrieve those + that behave according to the LINQ query specification. + + The predicate with the setup expressions. + The type of the mocked object to query. + + + + Creates an mock object of the indicated type. + + The type of the mocked object. + The mocked object created. + + + + Creates an mock object of the indicated type. + + The predicate with the setup expressions. + The type of the mocked object. + The mocked object created. + + + + Creates the mock query with the underlying queriable implementation. + + + + + Wraps the enumerator inside a queryable. + + + + + Method that is turned into the actual call from .Query{T}, to + transform the queryable query into a normal enumerable query. + This method is never used directly by consumers. + + + + + Initializes the repository with the given + for newly created mocks from the repository. + + The behavior to use for mocks created + using the repository method if not overriden + by using the overload. + + + + Allows querying the universe of mocks for those that behave + according to the LINQ query specification. + + + This entry-point into Linq to Mocks is the only one in the root Moq + namespace to ease discovery. But to get all the mocking extension + methods on Object, a using of Moq.Linq must be done, so that the + polluting of the intellisense for all objects is an explicit opt-in. + + + + + Access the universe of mocks of the given type, to retrieve those + that behave according to the LINQ query specification. + + The type of the mocked object to query. + + + + Access the universe of mocks of the given type, to retrieve those + that behave according to the LINQ query specification. + + The predicate with the setup expressions. + The type of the mocked object to query. + + + + Creates an mock object of the indicated type. + + The type of the mocked object. + The mocked object created. + + + + Creates an mock object of the indicated type. + + The predicate with the setup expressions. + The type of the mocked object. + The mocked object created. + + + + Creates the mock query with the underlying queriable implementation. + + + + + Wraps the enumerator inside a queryable. + + + + + Method that is turned into the actual call from .Query{T}, to + transform the queryable query into a normal enumerable query. + This method is never used directly by consumers. + + + + + Extension method used to support Linq-like setup properties that are not virtual but do have + a getter and a setter, thereby allowing the use of Linq to Mocks to quickly initialize Dtos too :) + + + + + Helper extensions that are used by the query translator. + + + + + Retrieves a fluent mock from the given setup expression. + + + + + Allows creation custom value matchers that can be used on setups and verification, + completely replacing the built-in class with your own argument + matching rules. + + See also . + + + + + Provided for the sole purpose of rendering the delegate passed to the + matcher constructor if no friendly render lambda is provided. + + + + + Initializes the match with the condition that + will be checked in order to match invocation + values. + The condition to match against actual values. + + + + + + + + + This method is used to set an expression as the last matcher invoked, + which is used in the SetupSet to allow matchers in the prop = value + delegate expression. This delegate is executed in "fluent" mode in + order to capture the value being set, and construct the corresponding + methodcall. + This is also used in the MatcherFactory for each argument expression. + This method ensures that when we execute the delegate, we + also track the matcher that was invoked, so that when we create the + methodcall we build the expression using it, rather than the null/default + value returned from the actual invocation. + + + + + Allows creation custom value matchers that can be used on setups and verification, + completely replacing the built-in class with your own argument + matching rules. + Type of the value to match. + The argument matching is used to determine whether a concrete + invocation in the mock matches a given setup. This + matching mechanism is fully extensible. + + Creating a custom matcher is straightforward. You just need to create a method + that returns a value from a call to with + your matching condition and optional friendly render expression: + + [Matcher] + public Order IsBigOrder() + { + return Match<Order>.Create( + o => o.GrandTotal >= 5000, + /* a friendly expression to render on failures */ + () => IsBigOrder()); + } + + This method can be used in any mock setup invocation: + + mock.Setup(m => m.Submit(IsBigOrder()).Throws<UnauthorizedAccessException>(); + + At runtime, Moq knows that the return value was a matcher (note that the method MUST be + annotated with the [Matcher] attribute in order to determine this) and + evaluates your predicate with the actual value passed into your predicate. + + Another example might be a case where you want to match a lists of orders + that contains a particular one. You might create matcher like the following: + + + public static class Orders + { + [Matcher] + public static IEnumerable<Order> Contains(Order order) + { + return Match<IEnumerable<Order>>.Create(orders => orders.Contains(order)); + } + } + + Now we can invoke this static method instead of an argument in an + invocation: + + var order = new Order { ... }; + var mock = new Mock<IRepository<Order>>(); + + mock.Setup(x => x.Save(Orders.Contains(order))) + .Throws<ArgumentException>(); + + + + + + Marks a method as a matcher, which allows complete replacement + of the built-in class with your own argument + matching rules. + + + This feature has been deprecated in favor of the new + and simpler . + + + The argument matching is used to determine whether a concrete + invocation in the mock matches a given setup. This + matching mechanism is fully extensible. + + + There are two parts of a matcher: the compiler matcher + and the runtime matcher. + + + Compiler matcher + Used to satisfy the compiler requirements for the + argument. Needs to be a method optionally receiving any arguments + you might need for the matching, but with a return type that + matches that of the argument. + + Let's say I want to match a lists of orders that contains + a particular one. I might create a compiler matcher like the following: + + + public static class Orders + { + [Matcher] + public static IEnumerable<Order> Contains(Order order) + { + return null; + } + } + + Now we can invoke this static method instead of an argument in an + invocation: + + var order = new Order { ... }; + var mock = new Mock<IRepository<Order>>(); + + mock.Setup(x => x.Save(Orders.Contains(order))) + .Throws<ArgumentException>(); + + Note that the return value from the compiler matcher is irrelevant. + This method will never be called, and is just used to satisfy the + compiler and to signal Moq that this is not a method that we want + to be invoked at runtime. + + + + Runtime matcher + + The runtime matcher is the one that will actually perform evaluation + when the test is run, and is defined by convention to have the + same signature as the compiler matcher, but where the return + value is the first argument to the call, which contains the + object received by the actual invocation at runtime: + + public static bool Contains(IEnumerable<Order> orders, Order order) + { + return orders.Contains(order); + } + + At runtime, the mocked method will be invoked with a specific + list of orders. This value will be passed to this runtime + matcher as the first argument, while the second argument is the + one specified in the setup (x.Save(Orders.Contains(order))). + + The boolean returned determines whether the given argument has been + matched. If all arguments to the expected method are matched, then + the setup matches and is evaluated. + + + + + + Using this extensible infrastructure, you can easily replace the entire + set of matchers with your own. You can also avoid the + typical (and annoying) lengthy expressions that result when you have + multiple arguments that use generics. + + + The following is the complete example explained above: + + public static class Orders + { + [Matcher] + public static IEnumerable<Order> Contains(Order order) + { + return null; + } + + public static bool Contains(IEnumerable<Order> orders, Order order) + { + return orders.Contains(order); + } + } + + And the concrete test using this matcher: + + var order = new Order { ... }; + var mock = new Mock<IRepository<Order>>(); + + mock.Setup(x => x.Save(Orders.Contains(order))) + .Throws<ArgumentException>(); + + // use mock, invoke Save, and have the matcher filter. + + + + + + Matcher to treat static functions as matchers. + + mock.Setup(x => x.StringMethod(A.MagicString())); + + public static class A + { + [Matcher] + public static string MagicString() { return null; } + public static bool MagicString(string arg) + { + return arg == "magic"; + } + } + + Will succeed if: mock.Object.StringMethod("magic"); + and fail with any other call. + + + + + We need this non-generics base class so that + we can use from + generic code. + + + + + Options to customize the behavior of the mock. + + + + + Causes the mock to always throw + an exception for invocations that don't have a + corresponding setup. + + + + + Will never throw exceptions, returning default + values when necessary (null for reference types, + zero for value types or empty enumerables and arrays). + + + + + Default mock behavior, which equals . + + + + + A that returns an empty default value + for non-mockeable types, and mocks for all other types (interfaces and + non-sealed classes) that can be mocked. + + + + + Exception thrown by mocks when setups are not matched, + the mock is not properly setup, etc. + + + A distinct exception type is provided so that exceptions + thrown by the mock can be differentiated in tests that + expect other exceptions to be thrown (i.e. ArgumentException). + + Richer exception hierarchy/types are not provided as + tests typically should not catch or expect exceptions + from the mocks. These are typically the result of changes + in the tested class or its collaborators implementation, and + result in fixes in the mock setup so that they dissapear and + allow the test to pass. + + + + + + Indicates whether this exception is a verification fault raised by Verify() + + + + + Made internal as it's of no use for + consumers, but it's important for + our own tests. + + + + + Used by the mock factory to accumulate verification + failures. + + + + + Helper class to setup a full trace between many mocks + + + + + Initialize a trace setup + + + + + Allow sequence to be repeated + + + + + define nice api + + + + + Perform an expectation in the trace. + + + + + Provides legacy API members as extensions so that + existing code continues to compile, but new code + doesn't see then. + + + + + Obsolete. + + + + + Obsolete. + + + + + Obsolete. + + + + + Provides additional methods on mocks. + + + Provided as extension methods as they confuse the compiler + with the overloads taking Action. + + + + + Specifies a setup on the mocked type for a call to + to a property setter, regardless of its value. + + + If more than one setup is set for the same property setter, + the latest one wins and is the one that will be executed. + + Type of the property. Typically omitted as it can be inferred from the expression. + Type of the mock. + The target mock for the setup. + Lambda expression that specifies the property setter. + + + mock.SetupSet(x => x.Suspended); + + + + This method is not legacy, but must be on an extension method to avoid + confusing the compiler with the new Action syntax. + + + + + Verifies that a property has been set on the mock, regarless of its value. + + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed); + + + The invocation was not performed on the mock. + Expression to verify. + The mock instance. + Mocked type. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + Verifies that a property has been set on the mock, specifying a failure + error message. + + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed); + + + The invocation was not performed on the mock. + Expression to verify. + Message to show if verification fails. + The mock instance. + Mocked type. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + Verifies that a property has been set on the mock, regardless + of the value but only the specified number of times. + + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed); + + + The invocation was not performed on the mock. + The invocation was not call the times specified by + . + The mock instance. + Mocked type. + The number of times a method is allowed to be called. + Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + Verifies that a property has been set on the mock, regardless + of the value but only the specified number of times, and specifying a failure + error message. + + + This example assumes that the mock has been used, + and later we want to verify that a given invocation + with specific parameters was performed: + + var mock = new Mock<IWarehouse>(); + // exercise mock + //... + // Will throw if the test code didn't set the IsClosed property. + mock.VerifySet(warehouse => warehouse.IsClosed); + + + The invocation was not performed on the mock. + The invocation was not call the times specified by + . + The mock instance. + Mocked type. + The number of times a method is allowed to be called. + Message to show if verification fails. + Expression to verify. + Type of the property to verify. Typically omitted as it can + be inferred from the expression's return type. + + + + Allows setups to be specified for protected members by using their + name as a string, rather than strong-typing them which is not possible + due to their visibility. + + + + + Specifies a setup for a void method invocation with the given + , optionally specifying arguments for the method call. + + The name of the void method to be invoked. + The optional arguments for the invocation. If argument matchers are used, + remember to use rather than . + + + + Specifies a setup for an invocation on a property or a non void method with the given + , optionally specifying arguments for the method call. + + The name of the method or property to be invoked. + The optional arguments for the invocation. If argument matchers are used, + remember to use rather than . + The return type of the method or property. + + + + Specifies a setup for an invocation on a property getter with the given + . + + The name of the property. + The type of the property. + + + + Specifies a setup for an invocation on a property setter with the given + . + + The name of the property. + The property value. If argument matchers are used, + remember to use rather than . + The type of the property. + + + + Specifies a verify for a void method with the given , + optionally specifying arguments for the method call. Use in conjuntion with the default + . + + The invocation was not call the times specified by + . + The name of the void method to be verified. + The number of times a method is allowed to be called. + The optional arguments for the invocation. If argument matchers are used, + remember to use rather than . + + + + Specifies a verify for an invocation on a property or a non void method with the given + , optionally specifying arguments for the method call. + + The invocation was not call the times specified by + . + The name of the method or property to be invoked. + The optional arguments for the invocation. If argument matchers are used, + remember to use rather than . + The number of times a method is allowed to be called. + The type of return value from the expression. + + + + Specifies a verify for an invocation on a property getter with the given + . + The invocation was not call the times specified by + . + + The name of the property. + The number of times a method is allowed to be called. + The type of the property. + + + + Specifies a setup for an invocation on a property setter with the given + . + + The invocation was not call the times specified by + . + The name of the property. + The number of times a method is allowed to be called. + The property value. + The type of the property. If argument matchers are used, + remember to use rather than . + + + + Allows the specification of a matching condition for an + argument in a protected member setup, rather than a specific + argument value. "ItExpr" refers to the argument being matched. + + + Use this variant of argument matching instead of + for protected setups. + This class allows the setup to match a method invocation + with an arbitrary value, with a value in a specified range, or + even one that matches a given predicate, or null. + + + + + Matches a null value of the given type. + + + Required for protected mocks as the null value cannot be used + directly as it prevents proper method overload selection. + + + + // Throws an exception for a call to Remove with a null string value. + mock.Protected() + .Setup("Remove", ItExpr.IsNull<string>()) + .Throws(new InvalidOperationException()); + + + Type of the value. + + + + Matches any value of the given type. + + + Typically used when the actual argument value for a method + call is not relevant. + + + + // Throws an exception for a call to Remove with any string value. + mock.Protected() + .Setup("Remove", ItExpr.IsAny<string>()) + .Throws(new InvalidOperationException()); + + + Type of the value. + + + + Matches any value that satisfies the given predicate. + + Type of the argument to check. + The predicate used to match the method argument. + + Allows the specification of a predicate to perform matching + of method call arguments. + + + This example shows how to return the value 1 whenever the argument to the + Do method is an even number. + + mock.Protected() + .Setup("Do", ItExpr.Is<int>(i => i % 2 == 0)) + .Returns(1); + + This example shows how to throw an exception if the argument to the + method is a negative number: + + mock.Protected() + .Setup("GetUser", ItExpr.Is<int>(i => i < 0)) + .Throws(new ArgumentException()); + + + + + + Matches any value that is in the range specified. + + Type of the argument to check. + The lower bound of the range. + The upper bound of the range. + The kind of range. See . + + The following example shows how to expect a method call + with an integer argument within the 0..100 range. + + mock.Protected() + .Setup("HasInventory", + ItExpr.IsAny<string>(), + ItExpr.IsInRange(0, 100, Range.Inclusive)) + .Returns(false); + + + + + + Matches a string argument if it matches the given regular expression pattern. + + The pattern to use to match the string argument value. + + The following example shows how to expect a call to a method where the + string argument matches the given regular expression: + + mock.Protected() + .Setup("Check", ItExpr.IsRegex("[a-z]+")) + .Returns(1); + + + + + + Matches a string argument if it matches the given regular expression pattern. + + The pattern to use to match the string argument value. + The options used to interpret the pattern. + + The following example shows how to expect a call to a method where the + string argument matches the given regular expression, in a case insensitive way: + + mock.Protected() + .Setup("Check", ItExpr.IsRegex("[a-z]+", RegexOptions.IgnoreCase)) + .Returns(1); + + + + + + Enables the Protected() method on , + allowing setups to be set for protected members by using their + name as a string, rather than strong-typing them which is not possible + due to their visibility. + + + + + Enable protected setups for the mock. + + Mocked object type. Typically omitted as it can be inferred from the mock instance. + The mock to set the protected setups on. + + + + + + + + + + + + A strongly-typed resource class, for looking up localized strings, etc. + + + + + Returns the cached ResourceManager instance used by this class. + + + + + Overrides the current thread's CurrentUICulture property for all + resource lookups using this strongly typed resource class. + + + + + Looks up a localized string similar to Mock type has already been initialized by accessing its Object property. Adding interfaces must be done before that.. + + + + + Looks up a localized string similar to Value cannot be an empty string.. + + + + + Looks up a localized string similar to Can only add interfaces to the mock.. + + + + + Looks up a localized string similar to Can't set return value for void method {0}.. + + + + + Looks up a localized string similar to Constructor arguments cannot be passed for delegate mocks.. + + + + + Looks up a localized string similar to Constructor arguments cannot be passed for interface mocks.. + + + + + Looks up a localized string similar to A matching constructor for the given arguments was not found on the mocked type.. + + + + + Looks up a localized string similar to Could not locate event for attach or detach method {0}.. + + + + + Looks up a localized string similar to Expression {0} involves a field access, which is not supported. Use properties instead.. + + + + + Looks up a localized string similar to Type to mock must be an interface or an abstract or non-sealed class. . + + + + + Looks up a localized string similar to Cannot retrieve a mock with the given object type {0} as it's not the main type of the mock or any of its additional interfaces. + Please cast the argument to one of the supported types: {1}. + Remember that there's no generics covariance in the CLR, so your object must be one of these types in order for the call to succeed.. + + + + + Looks up a localized string similar to The equals ("==" or "=" in VB) and the conditional 'and' ("&&" or "AndAlso" in VB) operators are the only ones supported in the query specification expression. Unsupported expression: {0}. + + + + + Looks up a localized string similar to LINQ method '{0}' not supported.. + + + + + Looks up a localized string similar to Expression contains a call to a method which is not virtual (overridable in VB) or abstract. Unsupported expression: {0}. + + + + + Looks up a localized string similar to Member {0}.{1} does not exist.. + + + + + Looks up a localized string similar to Method {0}.{1} is public. Use strong-typed Expect overload instead: + mock.Setup(x => x.{1}()); + . + + + + + Looks up a localized string similar to {0} invocation failed with mock behavior {1}. + {2}. + + + + + Looks up a localized string similar to Expected only {0} calls to {1}.. + + + + + Looks up a localized string similar to Expected only one call to {0}.. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock at least {2} times, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock at least once, but was never performed: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock at most {3} times, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock at most once, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock between {2} and {3} times (Exclusive), but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock between {2} and {3} times (Inclusive), but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock exactly {2} times, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock should never have been performed, but was {4} times: {1}. + + + + + Looks up a localized string similar to {0} + Expected invocation on the mock once, but was {4} times: {1}. + + + + + Looks up a localized string similar to All invocations on the mock must have a corresponding setup.. + + + + + Looks up a localized string similar to Object instance was not created by Moq.. + + + + + Looks up a localized string similar to Out expression must evaluate to a constant value.. + + + + + Looks up a localized string similar to Property {0}.{1} does not have a getter.. + + + + + Looks up a localized string similar to Property {0}.{1} does not exist.. + + + + + Looks up a localized string similar to Property {0}.{1} is write-only.. + + + + + Looks up a localized string similar to Property {0}.{1} is read-only.. + + + + + Looks up a localized string similar to Property {0}.{1} does not have a setter.. + + + + + Looks up a localized string similar to Cannot raise a mocked event unless it has been associated (attached) to a concrete event in a mocked object.. + + + + + Looks up a localized string similar to Ref expression must evaluate to a constant value.. + + + + + Looks up a localized string similar to Invocation needs to return a value and therefore must have a corresponding setup that provides it.. + + + + + Looks up a localized string similar to A lambda expression is expected as the argument to It.Is<T>.. + + + + + Looks up a localized string similar to Invocation {0} should not have been made.. + + + + + Looks up a localized string similar to Expression is not a method invocation: {0}. + + + + + Looks up a localized string similar to Expression is not a property access: {0}. + + + + + Looks up a localized string similar to Expression is not a property setter invocation.. + + + + + Looks up a localized string similar to Expression references a method that does not belong to the mocked object: {0}. + + + + + Looks up a localized string similar to Invalid setup on a non-virtual (overridable in VB) member: {0}. + + + + + Looks up a localized string similar to Type {0} does not implement required interface {1}. + + + + + Looks up a localized string similar to Type {0} does not from required type {1}. + + + + + Looks up a localized string similar to To specify a setup for public property {0}.{1}, use the typed overloads, such as: + mock.Setup(x => x.{1}).Returns(value); + mock.SetupGet(x => x.{1}).Returns(value); //equivalent to previous one + mock.SetupSet(x => x.{1}).Callback(callbackDelegate); + . + + + + + Looks up a localized string similar to Unsupported expression: {0}. + + + + + Looks up a localized string similar to Only property accesses are supported in intermediate invocations on a setup. Unsupported expression {0}.. + + + + + Looks up a localized string similar to Expression contains intermediate property access {0}.{1} which is of type {2} and cannot be mocked. Unsupported expression {3}.. + + + + + Looks up a localized string similar to Setter expression cannot use argument matchers that receive parameters.. + + + + + Looks up a localized string similar to Member {0} is not supported for protected mocking.. + + + + + Looks up a localized string similar to Setter expression can only use static custom matchers.. + + + + + Looks up a localized string similar to The following setups were not matched: + {0}. + + + + + Looks up a localized string similar to Invalid verify on a non-virtual (overridable in VB) member: {0}. + + + + + Gets an autogenerated interface with a method on it that matches the signature of the specified + . + + + Such an interface can then be mocked, and a delegate pointed at the method on the mocked instance. + This is how we support delegate mocking. The factory caches such interfaces and reuses them + for repeated requests for the same delegate type. + + The delegate type for which an interface is required. + The method on the autogenerated interface. + + + + + + + + + + Kind of range to use in a filter specified through + . + + + + + The range includes the to and + from values. + + + + + The range does not include the to and + from values. + + + + + Helper for sequencing return values in the same method. + + + + + Return a sequence of values, once per call. + + + + + Defines the number of invocations allowed by a mocked method. + + + + + Specifies that a mocked method should be invoked times as minimum. + The minimun number of times.An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked one time as minimum. + An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked time as maximun. + The maximun number of times.An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked one time as maximun. + An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked between and + times. + The minimun number of times.The maximun number of times. + The kind of range. See . + An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked exactly times. + The times that a method or property can be called.An object defining the allowed number of invocations. + + + + Specifies that a mocked method should not be invoked. + An object defining the allowed number of invocations. + + + + Specifies that a mocked method should be invoked exactly one time. + An object defining the allowed number of invocations. + + + + Determines whether the specified is equal to this instance. + + The to compare with this instance. + + true if the specified is equal to this instance; otherwise, false. + + + + + Returns a hash code for this instance. + + A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. + + + + + Determines whether two specified objects have the same value. + + The first . + + The second . + + true if the value of left is the same as the value of right; otherwise, false. + + + + + Determines whether two specified objects have different values. + + The first . + + The second . + + true if the value of left is different from the value of right; otherwise, false. + + + + diff --git a/packages/NSubstitute.1.6.0.0/NSubstitute.1.6.0.0.nupkg b/packages/NSubstitute.1.6.0.0/NSubstitute.1.6.0.0.nupkg deleted file mode 100644 index ebffe8f..0000000 Binary files a/packages/NSubstitute.1.6.0.0/NSubstitute.1.6.0.0.nupkg and /dev/null differ diff --git a/packages/NSubstitute.1.6.0.0/lib/NET35/NSubstitute.dll b/packages/NSubstitute.1.6.0.0/lib/NET35/NSubstitute.dll deleted file mode 100644 index 3f613c9..0000000 Binary files a/packages/NSubstitute.1.6.0.0/lib/NET35/NSubstitute.dll and /dev/null differ diff --git a/packages/NSubstitute.1.6.0.0/lib/NET40/NSubstitute.dll b/packages/NSubstitute.1.6.0.0/lib/NET40/NSubstitute.dll deleted file mode 100644 index 4a5174a..0000000 Binary files a/packages/NSubstitute.1.6.0.0/lib/NET40/NSubstitute.dll and /dev/null differ diff --git a/packages/NSubstitute.1.6.0.0/BreakingChanges.txt b/packages/NSubstitute.1.6.1.0/BreakingChanges.txt similarity index 97% rename from packages/NSubstitute.1.6.0.0/BreakingChanges.txt rename to packages/NSubstitute.1.6.1.0/BreakingChanges.txt index dd5edd7..058159a 100644 --- a/packages/NSubstitute.1.6.0.0/BreakingChanges.txt +++ b/packages/NSubstitute.1.6.1.0/BreakingChanges.txt @@ -1,116 +1,116 @@ -================================================================================================ -1.5.0 Release -================================================================================================ - -The base object methods (Equals, GetHashCode and ToString) for substitute objects of classes that -extend those methods now return the result of calling the actual implementation of those methods -rather than the default value for the return type. This means that places where you relied on -.Equals returning false, .ToString returning null and .GetHashCode returning 0 because the actual -methods weren't called will now call the actual implementation. - -Reason: -Substitute objects of classes that overrode those methods that were used as parameters for -setting up return values or checking received calls weren't able to be directly used within the -call, e.g. instead of: - -someObject.SomeCall(aSubstitute).Returns(1); - -You previously needed to have: - -someObject.SomeCall(Arg.Is(a => a == aSubstitute)).Returns(1); - -However, now you can use the former, which is much more terse and consistent with the way other -Returns or Received calls work. - -This means that substitute objects will now always work like .NET objects rather than being -inconsistent when the class being substituted overrode any of those base object methods. - -Fix: -There is no workaround to change the behaviour of .Equals, .GetHashCode or .ToString. If you have -a use case to change the behaviour of these methods please lodge an issue at the NSubstitute -Github site. - ------------------------------------------------------------------------------------------------- - -In rare cases the new `Returns()` and `ReturnsForAnyArgs()` overloads can cause compilation to fail due to the call being ambiguous (CS0121). - -Reason: -The new overloads allow a sequence of callbacks to be used for return values. A common example is return several values, then throwing an exception. - -Fix: -Remove the ambiguity by explicitly casting the arguments types or by using lambda syntax. -e.g. sub.Call().Returns(x => null, x => null); - -================================================================================================ -1.4.0 Release -================================================================================================ - -Auto-substitute from substitutes of `Func` delegates (following the same rules as auto-subbing -for methods and properties). So the delegate returned from `Substitute.For>()` will -return a substitute of `IFoo`. This means some substitutes for delegates that used to return -null will now return a new substitute. - -Reason: -Reduced setup when substituting for `Func` delegates, and consistency with behaviour for -properties and methods. - -Fix: -Explicitly return null from substitute delegates when required for a test. -e.g. subFunc().Returns(x => null); - - -================================================================================================ -1.2.0 Release -================================================================================================ - -Auto-substitute for pure virtual classes (in addition to interfaces and delegate types), which -means some methods and properties on substitutes that used to return null by default will now -return a new substitute of that type. - -Reason: -Cut down the code required to configure substitute members that return interface-like types -(e.g. ASP.NET web abstractions like HttpContextBase) which are safe to create and proxy. - -Safe classes are those with all their public methods and properties defined as virtual or -abstract, and containing a default, parameterless constructor defined as public or protected. - -Fix: -Explicitly return null from methods and property getters when required for a test. -e.g. sub.Method().Returns(x => null); - - -================================================================================================ -0.9.5 Release -================================================================================================ - -Raise.Event(...) methods renamed to Raise.EventWith() signature would often conflict with the -Raise.Event() method which is used to raise all types of events. - -Raise.Event() will now always work for any event type, while -Raise.EventWith() can be used as a shortcut to raise -EventHandler-style events with a particular argument. - -Fix: -Replace Raise.Event() calls with equivalent Raise.EventWith() call. - ------------------------------------------------------------------------------------------------- -Raise.Action() methods removed - -Reason: -The Raise.Event() method can be used to raise all delegate events, including Actions. -Raise.Action() was removed so there is a consistent way of raising all delegate events. - -Fix: -- Replace Raise.Action() calls with Raise.Event(). -- Replace Raise.Action(T arg) calls with Raise.Event>(arg). -- Replace Raise.Action(T1 x, T2 y) calls with Raise.Event>(x, y). - - -================================================================================================ -0.9.0 Release -================================================================================================ - -No breaking changes. +================================================================================================ +1.5.0 Release +================================================================================================ + +The base object methods (Equals, GetHashCode and ToString) for substitute objects of classes that +extend those methods now return the result of calling the actual implementation of those methods +rather than the default value for the return type. This means that places where you relied on +.Equals returning false, .ToString returning null and .GetHashCode returning 0 because the actual +methods weren't called will now call the actual implementation. + +Reason: +Substitute objects of classes that overrode those methods that were used as parameters for +setting up return values or checking received calls weren't able to be directly used within the +call, e.g. instead of: + +someObject.SomeCall(aSubstitute).Returns(1); + +You previously needed to have: + +someObject.SomeCall(Arg.Is(a => a == aSubstitute)).Returns(1); + +However, now you can use the former, which is much more terse and consistent with the way other +Returns or Received calls work. + +This means that substitute objects will now always work like .NET objects rather than being +inconsistent when the class being substituted overrode any of those base object methods. + +Fix: +There is no workaround to change the behaviour of .Equals, .GetHashCode or .ToString. If you have +a use case to change the behaviour of these methods please lodge an issue at the NSubstitute +Github site. + +------------------------------------------------------------------------------------------------ + +In rare cases the new `Returns()` and `ReturnsForAnyArgs()` overloads can cause compilation to fail due to the call being ambiguous (CS0121). + +Reason: +The new overloads allow a sequence of callbacks to be used for return values. A common example is return several values, then throwing an exception. + +Fix: +Remove the ambiguity by explicitly casting the arguments types or by using lambda syntax. +e.g. sub.Call().Returns(x => null, x => null); + +================================================================================================ +1.4.0 Release +================================================================================================ + +Auto-substitute from substitutes of `Func` delegates (following the same rules as auto-subbing +for methods and properties). So the delegate returned from `Substitute.For>()` will +return a substitute of `IFoo`. This means some substitutes for delegates that used to return +null will now return a new substitute. + +Reason: +Reduced setup when substituting for `Func` delegates, and consistency with behaviour for +properties and methods. + +Fix: +Explicitly return null from substitute delegates when required for a test. +e.g. subFunc().Returns(x => null); + + +================================================================================================ +1.2.0 Release +================================================================================================ + +Auto-substitute for pure virtual classes (in addition to interfaces and delegate types), which +means some methods and properties on substitutes that used to return null by default will now +return a new substitute of that type. + +Reason: +Cut down the code required to configure substitute members that return interface-like types +(e.g. ASP.NET web abstractions like HttpContextBase) which are safe to create and proxy. + +Safe classes are those with all their public methods and properties defined as virtual or +abstract, and containing a default, parameterless constructor defined as public or protected. + +Fix: +Explicitly return null from methods and property getters when required for a test. +e.g. sub.Method().Returns(x => null); + + +================================================================================================ +0.9.5 Release +================================================================================================ + +Raise.Event(...) methods renamed to Raise.EventWith() signature would often conflict with the +Raise.Event() method which is used to raise all types of events. + +Raise.Event() will now always work for any event type, while +Raise.EventWith() can be used as a shortcut to raise +EventHandler-style events with a particular argument. + +Fix: +Replace Raise.Event() calls with equivalent Raise.EventWith() call. + +------------------------------------------------------------------------------------------------ +Raise.Action() methods removed + +Reason: +The Raise.Event() method can be used to raise all delegate events, including Actions. +Raise.Action() was removed so there is a consistent way of raising all delegate events. + +Fix: +- Replace Raise.Action() calls with Raise.Event(). +- Replace Raise.Action(T arg) calls with Raise.Event>(arg). +- Replace Raise.Action(T1 x, T2 y) calls with Raise.Event>(x, y). + + +================================================================================================ +0.9.0 Release +================================================================================================ + +No breaking changes. diff --git a/packages/NSubstitute.1.6.0.0/CHANGELOG.txt b/packages/NSubstitute.1.6.1.0/CHANGELOG.txt similarity index 95% rename from packages/NSubstitute.1.6.0.0/CHANGELOG.txt rename to packages/NSubstitute.1.6.1.0/CHANGELOG.txt index ca0de57..ebf21ae 100644 --- a/packages/NSubstitute.1.6.0.0/CHANGELOG.txt +++ b/packages/NSubstitute.1.6.1.0/CHANGELOG.txt @@ -1,103 +1,107 @@ -1.6.0 (April 2013) -* [NEW] .AndDoes() method for chaining a callback after a Returns(). (#98) -* [FIX] Handling calls with params argument of value types, thanks to Eric Winkler. -* [FIX] Can now substitute for interfaces implementing System.Windows.IDataObject, thanks to Johan Appelgren. -* [UPDATE] Improved XML doc comments, thanks to David Gardiner. - -1.5.0 (January 2013) -* [EXPERIMENTAL] Asserting ordered call sequences -* [FIX] Arg.Invoke with four arguments now passes fourth arg correctly (#88). Thanks to Ville Salonen (@VilleSalonen) for finding and patching this. -* [FIX] Substitute objects now use actual implementation for base object methods (Equals, GetHashCode, ToString). Thanks to Robert Moore (@robdmoore) for this contribution. (#77) -* [NEW] Auto-substitute for Task/Task. Task will use substitute rules that T would use. Thanks to Jake Ginnivan (@JakeGinnivan) for this contribution. -* [NEW] Match derived types for generic calls (#97). Thanks to Iain Ballard for this contribution. -* [NEW] Returns now supports passing multiple callbacks, which makes it easier to combine stubbing multiple return values followed by throwing an exception (#99). Thanks to Alexandr Nikitin for this contribution. - -1.4.3 (August 2012) -* [FIX] Updated to Castle.Core 3.1.0 to fix an issue proxying generic methods with a struct constraint (#83). - -1.4.2 (July 2012) -* [FIX] Issue using NET40 build on Mono (due to NET45 build tools incompatibility) - -1.4.1 (June 2012) -* [FIX] Fix matching Nullable arguments when arg value is null. Thanks to Magnus Olstad Hansen (@maggedotno) for this contribution. (#78) -* [UPDATE] Updated to Castle.Core 3.0.0. - -1.4.0 (May 2012) -* [NEW] [BREAKING] Auto-substitute for types returned from substitutes of delegates/Funcs (follows same auto-substitute rules as for methods and properties). Thanks to Sauli Tähkäpää for implementing this feature. (#52) -* [NEW] Show details of params arguments when displaying received calls. Thanks to Sauli Tähkäpää for implementing this feature. (#65) -* [FIX] Race condition between checking received calls and building the exception could cause nonsensical exception messages like "Expected 5, actually received 5" when called concurrently. (#64) - -1.3.0 (Nov 2011) -* [NEW] Support for Received(times) to assert a call was received a certain number of times. Thanks to Abi Bellamkonda for this contribution. (#63) -* [FIX] Improved support for calling substitutes from multiple threads. (#62) - -1.2.1 (Oct 2011) -* [FIX] Some combinations of Arg.Do and Returns() caused incorrect values to be returned. (#59) -* [UPDATE] WCF ServiceContractAttribute no longer applied to proxies. (#60) -* [FIX] Passing null could cause argument actions to fail. (#61) -* [FIX] Calls to virtual methods from constructors of classes being substituted for are no longer recorded, to prevent non-obvious behaviour when calling Returns() on an auto-substituted value. (#57) - -1.2.0 (Sep 2011) -* [NEW] Arg.Do() syntax for capturing arguments passed to a method and performing some action with them whenever the method is called. -* [NEW] Arg.Invoke() syntax for invoking callbacks passed as arguments to a method whenever the method is called. -* [NEW] Basic support for setting out/ref parameters. -* [FIX] Property behaviour for indexed properties (Issue #53) -* [UPDATE] [BREAKING] Auto-substitute for pure virtual classes, including common ASP.NET web abstractions. Use .Returns(x=>null) to explicitly return null from these members if required. Thanks to Tatham Oddie for original idea and patch, and Krzysztof Kozmic for suggesting and defining which classes would be safe to automatically proxy. -* [UPDATE] Changed layout of package for eventual support for multiple framework targets. -* [FIX] Failure to match calls with ref arguments using ReceivedWithAnyArgs(). -* [FIX] Incorrect ambiguous args exception when supplying value type arg specs for object arguments. - -1.1.0 (May 2011) -* [UPDATE] Updated to Castle.Core 2.5.3. -* [FIX] Fixed bug when raising a delegate event with a null argument. -* [FIX] CallInfo.Arg() now works more reliably, including for null arguments. -* [FIX] Better exception when accidentally calling substitute extension method with a null reference (e.g. foo.Received().Call() when foo is null) -* [UPDATE] Exceptions thrown in custom argument matchers (Arg.Is(x => ...)) will now silently fail to match the argument, rather than allowing exceptions to bubble up. -* [NEW] Support for test fixtures run in parallel. - -1.0.0 (Dec 2010) -* [FIX] Using Returns(null) for value types throws, rather than returning default(T). - -0.9.5 Release Candidate -* [FIX] Fixed bug when trying to return null from a call to a substitute. -* [FIX] Equals() for class substitutes fixed by not intercepting Object methods Equals(), ToString() and GetHashCode(). -* [NEW] Raise.Event() methods to raise any type of event, including delegates. -* [BREAKING] Raise.Action() methods removed. Use Raise.Event() (e.g. Raise.Event>()). -* [BREAKING] Renamed Raise.Event() methods to Raise.EventWith(). -* [UPDATE] Arg matchers can be specified using more specific, compatible type (Arg.Is(..) for arg of type object). -* [NEW] NSubstitute website and documentation http://nsubstitute.github.com -* [FIX] Formating for argument matchers that take predicate functions. -* [FIX] Match single argument matcher passed to params arg (#34) -* [FIX] Detect ambiguous arg matchers in additional case (#31) -* [FIX] Can modify event handler subscriptions from within event callback -* [UPDATE] Update to Castle.Core 2.5.2 -* [FIX] Can substitute for SynchronizationContext in .NET4 (fixed in Castle.Core) -* [NEW] NSubstitute available as NuPack package - -0.9.0 Beta 1 -* [FIX] Now handles argument specifiers used for params arguments correctly -* [UPDATE] Updated to Castle.Core 2.5 final. - -0.1.3 alpha 4 -* [NEW] Support auto/recursive substituting for members that return interfaces or delegates. -* [NEW] Support auto substituting for members that return arrays and strings (return empty values rather than null). -* [NEW] Raise.Event() will now attempt to construct arguments with default ctors, so in most cases they will not need to be explictly provided. -* [UPDATE] Added support for raising events with custom delegate types. -* [UPDATE] Formatting for event subscription and unsubscription calls in call received/not received exceptions. -* [UPDATE] Updated to pre-release build of Castle.Core 2.5 to get dynamic proxy to support modopts. -* [FIX] Throw correct exception when raising an event and event handler throws. (Fix by Rodrigo Perera) -* [FIX] Record call as received when it throws an exception from the When..Do callback. - -0.1.2 alpha 3 -* [NEW] Marked non-matching parameters in the actual calls listed for CallNotReceivedException messages. -* [NEW] Added WhenForAnyArgs..Do syntax for callbacks. -* [UPDATE] Updated arg matching to be smarter when matchers are not used for all args. -* [FIX] Fixed bug when substituting for delegates with multiple parameters. -* [FIX] Removed redundant cast operator which sometimes caused the compiler trouble in resolving Raise.Event(). - -0.1.1 alpha 2 -* [NEW] Added ReturnsForAnyArgs() extension methods -* [FIX] Compiled for Any CPU to run on x64 platforms - -0.1.0 alpha -* Initial release +1.6.1 (June 2013) +* [FIX] Detect and throw on type mismatches in Returns() caused by Returns(ConfigureOtherSub()). +* [FIX] Support raising exceptions that do not implement a serialisation constructor (#110). Thanks to Alexandr Nikitin for this contribution. + +1.6.0 (April 2013) +* [NEW] .AndDoes() method for chaining a callback after a Returns(). (#98) +* [FIX] Handling calls with params argument of value types, thanks to Eric Winkler. +* [FIX] Can now substitute for interfaces implementing System.Windows.IDataObject, thanks to Johan Appelgren. +* [UPDATE] Improved XML doc comments, thanks to David Gardiner. + +1.5.0 (January 2013) +* [EXPERIMENTAL] Asserting ordered call sequences +* [FIX] Arg.Invoke with four arguments now passes fourth arg correctly (#88). Thanks to Ville Salonen (@VilleSalonen) for finding and patching this. +* [FIX] Substitute objects now use actual implementation for base object methods (Equals, GetHashCode, ToString). Thanks to Robert Moore (@robdmoore) for this contribution. (#77) +* [NEW] Auto-substitute for Task/Task. Task will use substitute rules that T would use. Thanks to Jake Ginnivan (@JakeGinnivan) for this contribution. +* [NEW] Match derived types for generic calls (#97). Thanks to Iain Ballard for this contribution. +* [NEW] Returns now supports passing multiple callbacks, which makes it easier to combine stubbing multiple return values followed by throwing an exception (#99). Thanks to Alexandr Nikitin for this contribution. + +1.4.3 (August 2012) +* [FIX] Updated to Castle.Core 3.1.0 to fix an issue proxying generic methods with a struct constraint (#83). + +1.4.2 (July 2012) +* [FIX] Issue using NET40 build on Mono (due to NET45 build tools incompatibility) + +1.4.1 (June 2012) +* [FIX] Fix matching Nullable arguments when arg value is null. Thanks to Magnus Olstad Hansen (@maggedotno) for this contribution. (#78) +* [UPDATE] Updated to Castle.Core 3.0.0. + +1.4.0 (May 2012) +* [NEW] [BREAKING] Auto-substitute for types returned from substitutes of delegates/Funcs (follows same auto-substitute rules as for methods and properties). Thanks to Sauli Tähkäpää for implementing this feature. (#52) +* [NEW] Show details of params arguments when displaying received calls. Thanks to Sauli Tähkäpää for implementing this feature. (#65) +* [FIX] Race condition between checking received calls and building the exception could cause nonsensical exception messages like "Expected 5, actually received 5" when called concurrently. (#64) + +1.3.0 (Nov 2011) +* [NEW] Support for Received(times) to assert a call was received a certain number of times. Thanks to Abi Bellamkonda for this contribution. (#63) +* [FIX] Improved support for calling substitutes from multiple threads. (#62) + +1.2.1 (Oct 2011) +* [FIX] Some combinations of Arg.Do and Returns() caused incorrect values to be returned. (#59) +* [UPDATE] WCF ServiceContractAttribute no longer applied to proxies. (#60) +* [FIX] Passing null could cause argument actions to fail. (#61) +* [FIX] Calls to virtual methods from constructors of classes being substituted for are no longer recorded, to prevent non-obvious behaviour when calling Returns() on an auto-substituted value. (#57) + +1.2.0 (Sep 2011) +* [NEW] Arg.Do() syntax for capturing arguments passed to a method and performing some action with them whenever the method is called. +* [NEW] Arg.Invoke() syntax for invoking callbacks passed as arguments to a method whenever the method is called. +* [NEW] Basic support for setting out/ref parameters. +* [FIX] Property behaviour for indexed properties (Issue #53) +* [UPDATE] [BREAKING] Auto-substitute for pure virtual classes, including common ASP.NET web abstractions. Use .Returns(x=>null) to explicitly return null from these members if required. Thanks to Tatham Oddie for original idea and patch, and Krzysztof Kozmic for suggesting and defining which classes would be safe to automatically proxy. +* [UPDATE] Changed layout of package for eventual support for multiple framework targets. +* [FIX] Failure to match calls with ref arguments using ReceivedWithAnyArgs(). +* [FIX] Incorrect ambiguous args exception when supplying value type arg specs for object arguments. + +1.1.0 (May 2011) +* [UPDATE] Updated to Castle.Core 2.5.3. +* [FIX] Fixed bug when raising a delegate event with a null argument. +* [FIX] CallInfo.Arg() now works more reliably, including for null arguments. +* [FIX] Better exception when accidentally calling substitute extension method with a null reference (e.g. foo.Received().Call() when foo is null) +* [UPDATE] Exceptions thrown in custom argument matchers (Arg.Is(x => ...)) will now silently fail to match the argument, rather than allowing exceptions to bubble up. +* [NEW] Support for test fixtures run in parallel. + +1.0.0 (Dec 2010) +* [FIX] Using Returns(null) for value types throws, rather than returning default(T). + +0.9.5 Release Candidate +* [FIX] Fixed bug when trying to return null from a call to a substitute. +* [FIX] Equals() for class substitutes fixed by not intercepting Object methods Equals(), ToString() and GetHashCode(). +* [NEW] Raise.Event() methods to raise any type of event, including delegates. +* [BREAKING] Raise.Action() methods removed. Use Raise.Event() (e.g. Raise.Event>()). +* [BREAKING] Renamed Raise.Event() methods to Raise.EventWith(). +* [UPDATE] Arg matchers can be specified using more specific, compatible type (Arg.Is(..) for arg of type object). +* [NEW] NSubstitute website and documentation http://nsubstitute.github.com +* [FIX] Formating for argument matchers that take predicate functions. +* [FIX] Match single argument matcher passed to params arg (#34) +* [FIX] Detect ambiguous arg matchers in additional case (#31) +* [FIX] Can modify event handler subscriptions from within event callback +* [UPDATE] Update to Castle.Core 2.5.2 +* [FIX] Can substitute for SynchronizationContext in .NET4 (fixed in Castle.Core) +* [NEW] NSubstitute available as NuPack package + +0.9.0 Beta 1 +* [FIX] Now handles argument specifiers used for params arguments correctly +* [UPDATE] Updated to Castle.Core 2.5 final. + +0.1.3 alpha 4 +* [NEW] Support auto/recursive substituting for members that return interfaces or delegates. +* [NEW] Support auto substituting for members that return arrays and strings (return empty values rather than null). +* [NEW] Raise.Event() will now attempt to construct arguments with default ctors, so in most cases they will not need to be explictly provided. +* [UPDATE] Added support for raising events with custom delegate types. +* [UPDATE] Formatting for event subscription and unsubscription calls in call received/not received exceptions. +* [UPDATE] Updated to pre-release build of Castle.Core 2.5 to get dynamic proxy to support modopts. +* [FIX] Throw correct exception when raising an event and event handler throws. (Fix by Rodrigo Perera) +* [FIX] Record call as received when it throws an exception from the When..Do callback. + +0.1.2 alpha 3 +* [NEW] Marked non-matching parameters in the actual calls listed for CallNotReceivedException messages. +* [NEW] Added WhenForAnyArgs..Do syntax for callbacks. +* [UPDATE] Updated arg matching to be smarter when matchers are not used for all args. +* [FIX] Fixed bug when substituting for delegates with multiple parameters. +* [FIX] Removed redundant cast operator which sometimes caused the compiler trouble in resolving Raise.Event(). + +0.1.1 alpha 2 +* [NEW] Added ReturnsForAnyArgs() extension methods +* [FIX] Compiled for Any CPU to run on x64 platforms + +0.1.0 alpha +* Initial release diff --git a/packages/NSubstitute.1.6.0.0/LICENSE.txt b/packages/NSubstitute.1.6.1.0/LICENSE.txt similarity index 98% rename from packages/NSubstitute.1.6.0.0/LICENSE.txt rename to packages/NSubstitute.1.6.1.0/LICENSE.txt index 4d1337d..0bcd0dd 100644 --- a/packages/NSubstitute.1.6.0.0/LICENSE.txt +++ b/packages/NSubstitute.1.6.1.0/LICENSE.txt @@ -1,27 +1,27 @@ -Copyright (c) 2009 Anthony Egerton (nsubstitute@delfish.com) and David Tchepak (dave@davesquared.net) -All rights reserved. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - * Neither the names of the copyright holders nor the names of - contributors may be used to endorse or promote products derived from this - software without specific prior written permission. - -THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND -ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED -WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE -DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE -FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL -DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR -SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER -CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, -OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF -THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - +Copyright (c) 2009 Anthony Egerton (nsubstitute@delfish.com) and David Tchepak (dave@davesquared.net) +All rights reserved. + +Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + * Redistributions of source code must retain the above copyright notice, + this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + * Neither the names of the copyright holders nor the names of + contributors may be used to endorse or promote products derived from this + software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND +ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE +DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE +FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL +DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR +SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER +CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, +OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF +THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + [ http://www.opensource.org/licenses/bsd-license.php ] \ No newline at end of file diff --git a/packages/NSubstitute.1.6.1.0/NSubstitute.1.6.1.0.nupkg b/packages/NSubstitute.1.6.1.0/NSubstitute.1.6.1.0.nupkg new file mode 100644 index 0000000..f4a6297 Binary files /dev/null and b/packages/NSubstitute.1.6.1.0/NSubstitute.1.6.1.0.nupkg differ diff --git a/packages/NSubstitute.1.6.0.0/NSubstitute.1.6.0.0.nuspec b/packages/NSubstitute.1.6.1.0/NSubstitute.1.6.1.0.nuspec similarity index 95% rename from packages/NSubstitute.1.6.0.0/NSubstitute.1.6.0.0.nuspec rename to packages/NSubstitute.1.6.1.0/NSubstitute.1.6.1.0.nuspec index 07ba936..9db0354 100644 --- a/packages/NSubstitute.1.6.0.0/NSubstitute.1.6.0.0.nuspec +++ b/packages/NSubstitute.1.6.1.0/NSubstitute.1.6.1.0.nuspec @@ -1,15 +1,15 @@ - - - - NSubstitute - 1.6.0.0 - Anthony Egerton, David Tchepak - Anthony Egerton, David Tchepak - https://github.com/nsubstitute/NSubstitute/raw/master/LICENSE.txt - http://nsubstitute.github.com/ - http://nsubstitute.github.com/images/nsubstitute-100x100.png - false - NSubstitute is a friendly substitute for .NET mocking frameworks. It has a simple, succinct syntax to help developers write clearer tests. NSubstitute is designed for Arrange-Act-Assert (AAA) testing and with Test Driven Development (TDD) in mind. - mocking mocks testing unit-testing TDD AAA - + + + + NSubstitute + 1.6.1.0 + Anthony Egerton, David Tchepak + Anthony Egerton, David Tchepak + https://github.com/nsubstitute/NSubstitute/raw/master/LICENSE.txt + http://nsubstitute.github.com/ + http://nsubstitute.github.com/images/nsubstitute-100x100.png + false + NSubstitute is a friendly substitute for .NET mocking frameworks. It has a simple, succinct syntax to help developers write clearer tests. NSubstitute is designed for Arrange-Act-Assert (AAA) testing and with Test Driven Development (TDD) in mind. + mocking mocks testing unit-testing TDD AAA + \ No newline at end of file diff --git a/packages/NSubstitute.1.6.0.0/README.txt b/packages/NSubstitute.1.6.1.0/README.txt similarity index 97% rename from packages/NSubstitute.1.6.0.0/README.txt rename to packages/NSubstitute.1.6.1.0/README.txt index 8d7e842..400861f 100644 --- a/packages/NSubstitute.1.6.0.0/README.txt +++ b/packages/NSubstitute.1.6.1.0/README.txt @@ -1,119 +1,119 @@ -NSubstitute -======== - -Visit the [NSubstitute website](http://nsubstitute.github.com) for more information. - -### What is it? - -NSubstitute is designed as a friendly substitute for .NET mocking libraries. - -It is an attempt to satisfy our craving for a mocking library with a succinct syntax that helps us keep the focus on the intention of our tests, rather than on the configuration of our test doubles. We've tried to make the most frequently required operations obvious and easy to use, keeping less usual scenarios discoverable and accessible, and all the while maintaining as much natural language as possible. - -Perfect for those new to testing, and for others who would just like to to get their tests written with less noise and fewer lambdas. - -### Getting help - -If you have questions or feedback on NSubstitute, head on over to the [NSubstitute discussion group](http://groups.google.com/group/nsubstitute). - -### Basic use - -Let's say we have a basic calculator interface: - - - public interface ICalculator - { - int Add(int a, int b); - string Mode { get; set; } - event Action PoweringUp; - } - - - -We can ask NSubstitute to create a substitute instance for this type. We could ask for a stub, mock, fake, spy, test double etc., but why bother when we just want to substitute an instance we have some control over? - - - _calculator = Substitute.For(); - - -Now we can tell our substitute to return a value for a call: - - - _calculator.Add(1, 2).Returns(3); - Assert.That(_calculator.Add(1, 2), Is.EqualTo(3)); - - -We can check that our substitute received a call, and did not receive others: - - - _calculator.Add(1, 2); - _calculator.Received().Add(1, 2); - _calculator.DidNotReceive().Add(5, 7); - - -If our Received() assertion fails, NSubstitute tries to give us some help as to what the problem might be: - - - NSubstitute.Exceptions.ReceivedCallsException : Expected to receive a call matching: - Add(1, 2) - Actually received no matching calls. - Received 2 non-matching calls (non-matching arguments indicated with '*' characters): - Add(1, *5*) - Add(*4*, *7*) - -We can also work with properties using the Returns syntax we use for methods, or just stick with plain old property setters (for read/write properties): - - - _calculator.Mode.Returns("DEC"); - Assert.That(_calculator.Mode, Is.EqualTo("DEC")); - - _calculator.Mode = "HEX"; - Assert.That(_calculator.Mode, Is.EqualTo("HEX")); - - -NSubstitute supports argument matching for setting return values and asserting a call was received: - - - _calculator.Add(10, -5); - _calculator.Received().Add(10, Arg.Any()); - _calculator.Received().Add(10, Arg.Is(x => x < 0)); - - -We can use argument matching as well as passing a function to Returns() to get some more behaviour out of our substitute (possibly too much, but that's your call): - - - _calculator - .Add(Arg.Any(), Arg.Any()) - .Returns(x => (int)x[0] + (int)x[1]); - Assert.That(_calculator.Add(5, 10), Is.EqualTo(15)); - - -Returns() can also be called with multiple arguments to set up a sequence of return values. - - - _calculator.Mode.Returns("HEX", "DEC", "BIN"); - Assert.That(_calculator.Mode, Is.EqualTo("HEX")); - Assert.That(_calculator.Mode, Is.EqualTo("DEC")); - Assert.That(_calculator.Mode, Is.EqualTo("BIN")); - - -Finally, we can raise events on our substitutes (unfortunately C# dramatically restricts the extent to which this syntax can be cleaned up): - - - bool eventWasRaised = false; - _calculator.PoweringUp += () => eventWasRaised = true; - - _calculator.PoweringUp += Raise.Event(); - Assert.That(eventWasRaised); - - -### Building - -If you have Visual Studio 2008 or 2010 you should be able to compile NSubstitute and run the unit tests using the NUnit GUI or console test runner (see the ThirdParty directory). -To do full builds you'll also need Ruby and rake to run the rakefile. - -### NOTE: Framework Multi-Targeting - -[Brendan](https://github.com/shiftkey) is updating the build process to [support multiple framework versions](https://github.com/nsubstitute/NSubstitute/wiki/Silverlight-port), including Silverlight. See the [Silverlight port](https://github.com/nsubstitute/NSubstitute/wiki/Silverlight-port) wiki page for current status. - - - +NSubstitute +======== + +Visit the [NSubstitute website](http://nsubstitute.github.com) for more information. + +### What is it? + +NSubstitute is designed as a friendly substitute for .NET mocking libraries. + +It is an attempt to satisfy our craving for a mocking library with a succinct syntax that helps us keep the focus on the intention of our tests, rather than on the configuration of our test doubles. We've tried to make the most frequently required operations obvious and easy to use, keeping less usual scenarios discoverable and accessible, and all the while maintaining as much natural language as possible. + +Perfect for those new to testing, and for others who would just like to to get their tests written with less noise and fewer lambdas. + +### Getting help + +If you have questions or feedback on NSubstitute, head on over to the [NSubstitute discussion group](http://groups.google.com/group/nsubstitute). + +### Basic use + +Let's say we have a basic calculator interface: + + + public interface ICalculator + { + int Add(int a, int b); + string Mode { get; set; } + event Action PoweringUp; + } + + + +We can ask NSubstitute to create a substitute instance for this type. We could ask for a stub, mock, fake, spy, test double etc., but why bother when we just want to substitute an instance we have some control over? + + + _calculator = Substitute.For(); + + +Now we can tell our substitute to return a value for a call: + + + _calculator.Add(1, 2).Returns(3); + Assert.That(_calculator.Add(1, 2), Is.EqualTo(3)); + + +We can check that our substitute received a call, and did not receive others: + + + _calculator.Add(1, 2); + _calculator.Received().Add(1, 2); + _calculator.DidNotReceive().Add(5, 7); + + +If our Received() assertion fails, NSubstitute tries to give us some help as to what the problem might be: + + + NSubstitute.Exceptions.ReceivedCallsException : Expected to receive a call matching: + Add(1, 2) + Actually received no matching calls. + Received 2 non-matching calls (non-matching arguments indicated with '*' characters): + Add(1, *5*) + Add(*4*, *7*) + +We can also work with properties using the Returns syntax we use for methods, or just stick with plain old property setters (for read/write properties): + + + _calculator.Mode.Returns("DEC"); + Assert.That(_calculator.Mode, Is.EqualTo("DEC")); + + _calculator.Mode = "HEX"; + Assert.That(_calculator.Mode, Is.EqualTo("HEX")); + + +NSubstitute supports argument matching for setting return values and asserting a call was received: + + + _calculator.Add(10, -5); + _calculator.Received().Add(10, Arg.Any()); + _calculator.Received().Add(10, Arg.Is(x => x < 0)); + + +We can use argument matching as well as passing a function to Returns() to get some more behaviour out of our substitute (possibly too much, but that's your call): + + + _calculator + .Add(Arg.Any(), Arg.Any()) + .Returns(x => (int)x[0] + (int)x[1]); + Assert.That(_calculator.Add(5, 10), Is.EqualTo(15)); + + +Returns() can also be called with multiple arguments to set up a sequence of return values. + + + _calculator.Mode.Returns("HEX", "DEC", "BIN"); + Assert.That(_calculator.Mode, Is.EqualTo("HEX")); + Assert.That(_calculator.Mode, Is.EqualTo("DEC")); + Assert.That(_calculator.Mode, Is.EqualTo("BIN")); + + +Finally, we can raise events on our substitutes (unfortunately C# dramatically restricts the extent to which this syntax can be cleaned up): + + + bool eventWasRaised = false; + _calculator.PoweringUp += () => eventWasRaised = true; + + _calculator.PoweringUp += Raise.Event(); + Assert.That(eventWasRaised); + + +### Building + +If you have Visual Studio 2008 or 2010 you should be able to compile NSubstitute and run the unit tests using the NUnit GUI or console test runner (see the ThirdParty directory). +To do full builds you'll also need Ruby and rake to run the rakefile. + +### NOTE: Framework Multi-Targeting + +[Brendan](https://github.com/shiftkey) is updating the build process to [support multiple framework versions](https://github.com/nsubstitute/NSubstitute/wiki/Silverlight-port), including Silverlight. See the [Silverlight port](https://github.com/nsubstitute/NSubstitute/wiki/Silverlight-port) wiki page for current status. + + + diff --git a/packages/NSubstitute.1.6.0.0/acknowledgements.txt b/packages/NSubstitute.1.6.1.0/acknowledgements.txt similarity index 98% rename from packages/NSubstitute.1.6.0.0/acknowledgements.txt rename to packages/NSubstitute.1.6.1.0/acknowledgements.txt index 5f1cd35..c2e1132 100644 --- a/packages/NSubstitute.1.6.0.0/acknowledgements.txt +++ b/packages/NSubstitute.1.6.1.0/acknowledgements.txt @@ -1,56 +1,56 @@ -The aim of this file is to acknowledge the software projects that have been used to create NSubstitute, particularly those distributed as Open Source Software. They have been invaluable in helping us produce this software. - -# Software distributed with/compiled into NSubstitute - -## Castle.Core -NSubstitute is built on the Castle.Core library, particularly Castle.DynamicProxy which is used for generating proxies for types and intercepting calls made to them so that NSubstitute can record them. - -Castle.Core is maintained by the Castle Project [http://www.castleproject.org/] and is released under the Apache License, Version 2.0 [http://www.apache.org/licenses/LICENSE-2.0.html]. - -# Software used to help build NSubstitute - -## NUnit [http://www.nunit.org/] -NUnit is used for coding and running unit and integration tests for NSubstitute. It is distributed under an open source zlib/libpng based license [http://www.opensource.org/licenses/zlib-license.html]. - -## Rhino Mocks [http://www.ayende.com/projects/rhino-mocks.aspx] -Used for mocking parts of the NSubstitute mocking framework for testing. It is distributed under the BSD license [http://www.opensource.org/licenses/bsd-license.php]. - -## Moq [http://moq.me/] -Moq is not used in NSubstitute, but was a great source of inspiration. Moq pioneered Arrange-Act-Assert (AAA) mocking syntax for .NET, as well as removing the distinction between mocks and stubs, both of which have become important parts of NSubstitute. Moq is available under the BSD license [http://www.opensource.org/licenses/bsd-license.php]. - -## NuPack [http://nupack.codeplex.com/] -Used for packaging NSubstitute for distribution as a nu package. Distributed under the Apache License, Version 2.0 [http://www.apache.org/licenses/LICENSE-2.0.html]. - -## Jekyll [http://jekyllrb.com/] -Static website generator written in Ruby, used for NSubstitute's website and documentation. Distributed under the MIT license [http://www.opensource.org/licenses/bsd-license.php]. - -## SyntaxHighlighter [http://alexgorbatchev.com/SyntaxHighlighter/] -Open source, JavaScript, client-side code highlighter used for highlighting code samples on the NSubstitute website. Distributed under the MIT License [http://en.wikipedia.org/wiki/MIT_License] and the GPL [http://www.gnu.org/copyleft/lesser.html]. - -## Ruby (and libraries) [http://www.ruby-lang.org] -Ruby is used for NSubstitute's build. The rake library is used to run the build; custom Ruby code is used to extract and test code samples from documentation; rspec is used to test that Ruby code; Markdown is used for documentation; gems for installing all this stuff; RubyInstaller for Windows and DevKit for interop with Windows; and much more. Ruby is awesome, as are the many projects contributed to the Ruby community that make developers' lives awesome. - -Ruby is distributed under the Ruby license [http://www.ruby-lang.org/en/LICENSE.txt]. The libraries mentioned are available under a variety of licenses. Please see their websites for more information. - -## Microsoft .NET Framework [http://www.microsoft.com/net/] -NSubstitute is coded in C# and compiled using Microsoft .NET. It can also run and compile under Mono [http://www.mono-project.com], an open source implementation of the open .NET standards for C# and the CLI. - -Microsoft's .NET Framework is available under a EULA (and possibly other licenses like MS Reference Source License). -Mono is available under four open source licenses for different parts of the project (including MIT/X11, GPL, MS-Pl). These are described on the project site [http://www.mono-project.com/Licensing]. - -## Microsoft Ilmerge [http://research.microsoft.com/en-us/people/mbarnett/ilmerge.aspx] -Used for combining assemblies so NSubstitute can be distributed as a single DLL. Available for use under a EULA as described on the ilmerge site. - -## Microsoft Reactive Extensions for .NET (Rx) [http://msdn.microsoft.com/en-us/devlabs/ee794896] -Used to provide .NET 3.5 with some of the neat concurrency helper classes that ship with out of the box with .NET 4.0. Distributed under a EULA [http://msdn.microsoft.com/en-us/devlabs/ff394099]. - -## 7-Zip [http://www.7-zip.org/] -7-zip is used to ZIP up NSubstitute distributions as part of the automated build process. Distributed under a mixed GNU LGPL / unRAR licence [http://www.7-zip.org/license.txt]. - -# Other acknowledgements - -## Software developers -Yes, you! To everyone who has tried to get better at the craft and science of programming, especially those of you who have talked, tweeted, blogged, screencasted, and/or contributed software or ideas to the community. - -No software developers were harmed to any significant extent during the production of NSubstitute, although some had to get by on reduced sleep. - +The aim of this file is to acknowledge the software projects that have been used to create NSubstitute, particularly those distributed as Open Source Software. They have been invaluable in helping us produce this software. + +# Software distributed with/compiled into NSubstitute + +## Castle.Core +NSubstitute is built on the Castle.Core library, particularly Castle.DynamicProxy which is used for generating proxies for types and intercepting calls made to them so that NSubstitute can record them. + +Castle.Core is maintained by the Castle Project [http://www.castleproject.org/] and is released under the Apache License, Version 2.0 [http://www.apache.org/licenses/LICENSE-2.0.html]. + +# Software used to help build NSubstitute + +## NUnit [http://www.nunit.org/] +NUnit is used for coding and running unit and integration tests for NSubstitute. It is distributed under an open source zlib/libpng based license [http://www.opensource.org/licenses/zlib-license.html]. + +## Rhino Mocks [http://www.ayende.com/projects/rhino-mocks.aspx] +Used for mocking parts of the NSubstitute mocking framework for testing. It is distributed under the BSD license [http://www.opensource.org/licenses/bsd-license.php]. + +## Moq [http://moq.me/] +Moq is not used in NSubstitute, but was a great source of inspiration. Moq pioneered Arrange-Act-Assert (AAA) mocking syntax for .NET, as well as removing the distinction between mocks and stubs, both of which have become important parts of NSubstitute. Moq is available under the BSD license [http://www.opensource.org/licenses/bsd-license.php]. + +## NuPack [http://nupack.codeplex.com/] +Used for packaging NSubstitute for distribution as a nu package. Distributed under the Apache License, Version 2.0 [http://www.apache.org/licenses/LICENSE-2.0.html]. + +## Jekyll [http://jekyllrb.com/] +Static website generator written in Ruby, used for NSubstitute's website and documentation. Distributed under the MIT license [http://www.opensource.org/licenses/bsd-license.php]. + +## SyntaxHighlighter [http://alexgorbatchev.com/SyntaxHighlighter/] +Open source, JavaScript, client-side code highlighter used for highlighting code samples on the NSubstitute website. Distributed under the MIT License [http://en.wikipedia.org/wiki/MIT_License] and the GPL [http://www.gnu.org/copyleft/lesser.html]. + +## Ruby (and libraries) [http://www.ruby-lang.org] +Ruby is used for NSubstitute's build. The rake library is used to run the build; custom Ruby code is used to extract and test code samples from documentation; rspec is used to test that Ruby code; Markdown is used for documentation; gems for installing all this stuff; RubyInstaller for Windows and DevKit for interop with Windows; and much more. Ruby is awesome, as are the many projects contributed to the Ruby community that make developers' lives awesome. + +Ruby is distributed under the Ruby license [http://www.ruby-lang.org/en/LICENSE.txt]. The libraries mentioned are available under a variety of licenses. Please see their websites for more information. + +## Microsoft .NET Framework [http://www.microsoft.com/net/] +NSubstitute is coded in C# and compiled using Microsoft .NET. It can also run and compile under Mono [http://www.mono-project.com], an open source implementation of the open .NET standards for C# and the CLI. + +Microsoft's .NET Framework is available under a EULA (and possibly other licenses like MS Reference Source License). +Mono is available under four open source licenses for different parts of the project (including MIT/X11, GPL, MS-Pl). These are described on the project site [http://www.mono-project.com/Licensing]. + +## Microsoft Ilmerge [http://research.microsoft.com/en-us/people/mbarnett/ilmerge.aspx] +Used for combining assemblies so NSubstitute can be distributed as a single DLL. Available for use under a EULA as described on the ilmerge site. + +## Microsoft Reactive Extensions for .NET (Rx) [http://msdn.microsoft.com/en-us/devlabs/ee794896] +Used to provide .NET 3.5 with some of the neat concurrency helper classes that ship with out of the box with .NET 4.0. Distributed under a EULA [http://msdn.microsoft.com/en-us/devlabs/ff394099]. + +## 7-Zip [http://www.7-zip.org/] +7-zip is used to ZIP up NSubstitute distributions as part of the automated build process. Distributed under a mixed GNU LGPL / unRAR licence [http://www.7-zip.org/license.txt]. + +# Other acknowledgements + +## Software developers +Yes, you! To everyone who has tried to get better at the craft and science of programming, especially those of you who have talked, tweeted, blogged, screencasted, and/or contributed software or ideas to the community. + +No software developers were harmed to any significant extent during the production of NSubstitute, although some had to get by on reduced sleep. + diff --git a/packages/NSubstitute.1.6.0.0/lib/NET40/NSubstitute.XML b/packages/NSubstitute.1.6.1.0/lib/NET35/NSubstitute.XML similarity index 98% rename from packages/NSubstitute.1.6.0.0/lib/NET40/NSubstitute.XML rename to packages/NSubstitute.1.6.1.0/lib/NET35/NSubstitute.XML index ac80aa9..c2ae7dc 100644 --- a/packages/NSubstitute.1.6.0.0/lib/NET40/NSubstitute.XML +++ b/packages/NSubstitute.1.6.1.0/lib/NET35/NSubstitute.XML @@ -1,416 +1,416 @@ - - - - NSubstitute - - - - - Argument matchers used for specifying calls to substitutes. - - - - - Match any argument value compatible with type . - - - - - - - Match argument that is equal to . - - - - - - - - Match argument that satisfies . - If the throws an exception for an argument it will be treated as non-matching. - - - - - - - - Invoke any argument whenever a matching call is made to the substitute. - - - - - - Invoke any argument with specified argument whenever a matching call is made to the substitute. - - - - - - - - Invoke any argument with specified arguments whenever a matching call is made to the substitute. - - - - - - - - - - Invoke any argument with specified arguments whenever a matching call is made to the substitute. - - - - - - - - - - - - Invoke any argument with specified arguments whenever a matching call is made to the substitute. - - - - - - - - - - - - - - Invoke any argument with specified arguments whenever a matching call is made to the substitute. - - - Arguments to pass to delegate. - - - - - Capture any argument compatible with type and use it to call the function - whenever a matching call is made to the substitute. - - - - - - - - Provides a specification for arguments for use with . - Can additionally implement to give descriptions when arguments do not match. - - - - - Checks whether the satisfies the condition of the matcher. - If this throws an exception the argument will be treated as non-matching. - - - - - - - Describes how the does not match the condition specified by this class, or - if a detailed description can not be provided for the argument. - - - Description of the non-match, or if no description can be provided. - - - - Adds a callback to execute for matching calls. - - an action to call - - - - - Combines two enumerables into a new enumerable using the given selector. - - - - - - - - - - This implementation was sanity-checked against the - Edulinq implementation and - Eric Lippert's implementation. - - - - - Checks if the instance can be used when a is expected. - - - - - - - - Join the using . - - - - - - - - Delegates to ThreadLocal<T>, but wraps Value property access in try/catch to swallow ObjectDisposedExceptions. - These can occur if the Value property is accessed from the finalizer thread. Because we can't detect this, we'll - just swallow the exception (the finalizer thread won't be using any of the values from thread local storage anyway). - - - - - - *EXPERIMENTAL* Asserts the calls to the substitutes contained in the given Action were - received by these substitutes in the same order. Calls to property getters are not included - in the assertion. - - Action containing calls to substitutes in the expected order - - - - Provides a specification for arguments for use with . - Can additionally implement to give descriptions when arguments do not match. - - Matches arguments of type or compatible type. - - - - Checks whether the satisfies the condition of the matcher. - If this throws an exception the argument will be treated as non-matching. - - - - - - - Clears last call router on SubstitutionContext for routes that do not require it. - - - This is to help prevent static state bleeding over into future calls. - - - - - Raise an event for an EventHandler<TEventArgs> event with the provided and . - - - - - Raise an event for an EventHandler<TEventArgs> event with the substitute as the sender and the provided . - - - - - Raise an event for an EventHandler<EventArgsT> event with the substitute as the sender - and with a default instance of . - - - - - Raise an event for an EventHandler or EventHandler<EventArgs> event with the substitute - as the sender and with empty EventArgs. - - - - - Raise an event of type with the provided arguments. If no arguments are provided - NSubstitute will try and provide reasonble defaults. - - - - - Create a substitute for one or more types. For example: Substitute.For<ISomeType>() - - - - - Substitute for an interface or class. - Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members - can be recorded or have return values specified. - - The type of interface or class to substitute. - Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. - A substitute for the interface or class. - - - - Substitute for multiple interfaces or a class that implements an interface. At most one class can be specified. - Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members - can be recorded or have return values specified. - - The type of interface or class to substitute. - An additional interface or class (maximum of one class) the substitute should implement. - Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. - A substitute of type T1, that also implements T2. - - - - Substitute for multiple interfaces or a class that implements multiple interfaces. At most one class can be specified. - If additional interfaces are required use the overload. - Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members - can be recorded or have return values specified. - - The type of interface or class to substitute. - An additional interface or class (maximum of one class) the substitute should implement. - An additional interface or class (maximum of one class) the substitute should implement. - Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. - A substitute of type T1, that also implements T2 and T3. - - - - Substitute for multiple interfaces or a class that implements multiple interfaces. At most one class can be specified. - Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members - can be recorded or have return values specified. - - The types of interfaces or a type of class and multiple interfaces the substitute should implement. - Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. - A substitute implementing the specified types. - - - - Set a return value for this call. - - - - Value to return - Optionally return these values next - - - - - Set a return value for this call, calculated by the provided function. - - - - Function to calculate the return value - Optionally use these functions next - - - - - Set a return value for this call made with any arguments. - - - - Value to return - Optionally return these values next - - - - - Set a return value for this call made with any arguments, calculated by the provided function. - - - - Function to calculate the return value - Optionally use these functions next - - - - - Checks this substitute has received the following call. - - - - - - - - Checks this substitute has received the following call the required number of times. - - - - - - - - - Checks this substitute has not received the following call. - - - - - - - - Checks this substitute has received the following call with any arguments. - - - - - - - - Checks this substitute has received the following call with any arguments the required number of times. - - - - - - - - - Checks this substitute has not received the following call with any arguments. - - - - - - - - Forget all the calls this substitute has received. - - - - - Note that this will not clear any results set up for the substitute using Returns(). - - - - - Perform an action when this member is called. - Must be followed by to provide the callback. - - - - - - - - - Perform an action when this member is called with any arguments. - Must be followed by to provide the callback. - - - - - - - - - Returns the calls received by this substitute. - - - - - - - - Perform this action when called. - - - - - + + + + NSubstitute + + + + + Argument matchers used for specifying calls to substitutes. + + + + + Match any argument value compatible with type . + + + + + + + Match argument that is equal to . + + + + + + + + Match argument that satisfies . + If the throws an exception for an argument it will be treated as non-matching. + + + + + + + + Invoke any argument whenever a matching call is made to the substitute. + + + + + + Invoke any argument with specified argument whenever a matching call is made to the substitute. + + + + + + + + Invoke any argument with specified arguments whenever a matching call is made to the substitute. + + + + + + + + + + Invoke any argument with specified arguments whenever a matching call is made to the substitute. + + + + + + + + + + + + Invoke any argument with specified arguments whenever a matching call is made to the substitute. + + + + + + + + + + + + + + Invoke any argument with specified arguments whenever a matching call is made to the substitute. + + + Arguments to pass to delegate. + + + + + Capture any argument compatible with type and use it to call the function + whenever a matching call is made to the substitute. + + + + + + + + Provides a specification for arguments for use with . + Can additionally implement to give descriptions when arguments do not match. + + + + + Checks whether the satisfies the condition of the matcher. + If this throws an exception the argument will be treated as non-matching. + + + + + + + Describes how the does not match the condition specified by this class, or + if a detailed description can not be provided for the argument. + + + Description of the non-match, or if no description can be provided. + + + + Adds a callback to execute for matching calls. + + an action to call + + + + + Combines two enumerables into a new enumerable using the given selector. + + + + + + + + + + This implementation was sanity-checked against the + Edulinq implementation and + Eric Lippert's implementation. + + + + + Checks if the instance can be used when a is expected. + + + + + + + + Join the using . + + + + + + + + Delegates to ThreadLocal<T>, but wraps Value property access in try/catch to swallow ObjectDisposedExceptions. + These can occur if the Value property is accessed from the finalizer thread. Because we can't detect this, we'll + just swallow the exception (the finalizer thread won't be using any of the values from thread local storage anyway). + + + + + + *EXPERIMENTAL* Asserts the calls to the substitutes contained in the given Action were + received by these substitutes in the same order. Calls to property getters are not included + in the assertion. + + Action containing calls to substitutes in the expected order + + + + Provides a specification for arguments for use with . + Can additionally implement to give descriptions when arguments do not match. + + Matches arguments of type or compatible type. + + + + Checks whether the satisfies the condition of the matcher. + If this throws an exception the argument will be treated as non-matching. + + + + + + + Clears last call router on SubstitutionContext for routes that do not require it. + + + This is to help prevent static state bleeding over into future calls. + + + + + Raise an event for an EventHandler<TEventArgs> event with the provided and . + + + + + Raise an event for an EventHandler<TEventArgs> event with the substitute as the sender and the provided . + + + + + Raise an event for an EventHandler<EventArgsT> event with the substitute as the sender + and with a default instance of . + + + + + Raise an event for an EventHandler or EventHandler<EventArgs> event with the substitute + as the sender and with empty EventArgs. + + + + + Raise an event of type with the provided arguments. If no arguments are provided + NSubstitute will try and provide reasonble defaults. + + + + + Create a substitute for one or more types. For example: Substitute.For<ISomeType>() + + + + + Substitute for an interface or class. + Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members + can be recorded or have return values specified. + + The type of interface or class to substitute. + Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. + A substitute for the interface or class. + + + + Substitute for multiple interfaces or a class that implements an interface. At most one class can be specified. + Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members + can be recorded or have return values specified. + + The type of interface or class to substitute. + An additional interface or class (maximum of one class) the substitute should implement. + Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. + A substitute of type T1, that also implements T2. + + + + Substitute for multiple interfaces or a class that implements multiple interfaces. At most one class can be specified. + If additional interfaces are required use the overload. + Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members + can be recorded or have return values specified. + + The type of interface or class to substitute. + An additional interface or class (maximum of one class) the substitute should implement. + An additional interface or class (maximum of one class) the substitute should implement. + Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. + A substitute of type T1, that also implements T2 and T3. + + + + Substitute for multiple interfaces or a class that implements multiple interfaces. At most one class can be specified. + Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members + can be recorded or have return values specified. + + The types of interfaces or a type of class and multiple interfaces the substitute should implement. + Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. + A substitute implementing the specified types. + + + + Set a return value for this call. + + + + Value to return + Optionally return these values next + + + + + Set a return value for this call, calculated by the provided function. + + + + Function to calculate the return value + Optionally use these functions next + + + + + Set a return value for this call made with any arguments. + + + + Value to return + Optionally return these values next + + + + + Set a return value for this call made with any arguments, calculated by the provided function. + + + + Function to calculate the return value + Optionally use these functions next + + + + + Checks this substitute has received the following call. + + + + + + + + Checks this substitute has received the following call the required number of times. + + + + + + + + + Checks this substitute has not received the following call. + + + + + + + + Checks this substitute has received the following call with any arguments. + + + + + + + + Checks this substitute has received the following call with any arguments the required number of times. + + + + + + + + + Checks this substitute has not received the following call with any arguments. + + + + + + + + Forget all the calls this substitute has received. + + + + + Note that this will not clear any results set up for the substitute using Returns(). + + + + + Perform an action when this member is called. + Must be followed by to provide the callback. + + + + + + + + + Perform an action when this member is called with any arguments. + Must be followed by to provide the callback. + + + + + + + + + Returns the calls received by this substitute. + + + + + + + + Perform this action when called. + + + + + diff --git a/packages/NSubstitute.1.6.1.0/lib/NET35/NSubstitute.dll b/packages/NSubstitute.1.6.1.0/lib/NET35/NSubstitute.dll new file mode 100644 index 0000000..905aae5 Binary files /dev/null and b/packages/NSubstitute.1.6.1.0/lib/NET35/NSubstitute.dll differ diff --git a/packages/NSubstitute.1.6.0.0/lib/NET35/NSubstitute.XML b/packages/NSubstitute.1.6.1.0/lib/NET40/NSubstitute.XML similarity index 98% rename from packages/NSubstitute.1.6.0.0/lib/NET35/NSubstitute.XML rename to packages/NSubstitute.1.6.1.0/lib/NET40/NSubstitute.XML index ac80aa9..c2ae7dc 100644 --- a/packages/NSubstitute.1.6.0.0/lib/NET35/NSubstitute.XML +++ b/packages/NSubstitute.1.6.1.0/lib/NET40/NSubstitute.XML @@ -1,416 +1,416 @@ - - - - NSubstitute - - - - - Argument matchers used for specifying calls to substitutes. - - - - - Match any argument value compatible with type . - - - - - - - Match argument that is equal to . - - - - - - - - Match argument that satisfies . - If the throws an exception for an argument it will be treated as non-matching. - - - - - - - - Invoke any argument whenever a matching call is made to the substitute. - - - - - - Invoke any argument with specified argument whenever a matching call is made to the substitute. - - - - - - - - Invoke any argument with specified arguments whenever a matching call is made to the substitute. - - - - - - - - - - Invoke any argument with specified arguments whenever a matching call is made to the substitute. - - - - - - - - - - - - Invoke any argument with specified arguments whenever a matching call is made to the substitute. - - - - - - - - - - - - - - Invoke any argument with specified arguments whenever a matching call is made to the substitute. - - - Arguments to pass to delegate. - - - - - Capture any argument compatible with type and use it to call the function - whenever a matching call is made to the substitute. - - - - - - - - Provides a specification for arguments for use with . - Can additionally implement to give descriptions when arguments do not match. - - - - - Checks whether the satisfies the condition of the matcher. - If this throws an exception the argument will be treated as non-matching. - - - - - - - Describes how the does not match the condition specified by this class, or - if a detailed description can not be provided for the argument. - - - Description of the non-match, or if no description can be provided. - - - - Adds a callback to execute for matching calls. - - an action to call - - - - - Combines two enumerables into a new enumerable using the given selector. - - - - - - - - - - This implementation was sanity-checked against the - Edulinq implementation and - Eric Lippert's implementation. - - - - - Checks if the instance can be used when a is expected. - - - - - - - - Join the using . - - - - - - - - Delegates to ThreadLocal<T>, but wraps Value property access in try/catch to swallow ObjectDisposedExceptions. - These can occur if the Value property is accessed from the finalizer thread. Because we can't detect this, we'll - just swallow the exception (the finalizer thread won't be using any of the values from thread local storage anyway). - - - - - - *EXPERIMENTAL* Asserts the calls to the substitutes contained in the given Action were - received by these substitutes in the same order. Calls to property getters are not included - in the assertion. - - Action containing calls to substitutes in the expected order - - - - Provides a specification for arguments for use with . - Can additionally implement to give descriptions when arguments do not match. - - Matches arguments of type or compatible type. - - - - Checks whether the satisfies the condition of the matcher. - If this throws an exception the argument will be treated as non-matching. - - - - - - - Clears last call router on SubstitutionContext for routes that do not require it. - - - This is to help prevent static state bleeding over into future calls. - - - - - Raise an event for an EventHandler<TEventArgs> event with the provided and . - - - - - Raise an event for an EventHandler<TEventArgs> event with the substitute as the sender and the provided . - - - - - Raise an event for an EventHandler<EventArgsT> event with the substitute as the sender - and with a default instance of . - - - - - Raise an event for an EventHandler or EventHandler<EventArgs> event with the substitute - as the sender and with empty EventArgs. - - - - - Raise an event of type with the provided arguments. If no arguments are provided - NSubstitute will try and provide reasonble defaults. - - - - - Create a substitute for one or more types. For example: Substitute.For<ISomeType>() - - - - - Substitute for an interface or class. - Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members - can be recorded or have return values specified. - - The type of interface or class to substitute. - Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. - A substitute for the interface or class. - - - - Substitute for multiple interfaces or a class that implements an interface. At most one class can be specified. - Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members - can be recorded or have return values specified. - - The type of interface or class to substitute. - An additional interface or class (maximum of one class) the substitute should implement. - Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. - A substitute of type T1, that also implements T2. - - - - Substitute for multiple interfaces or a class that implements multiple interfaces. At most one class can be specified. - If additional interfaces are required use the overload. - Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members - can be recorded or have return values specified. - - The type of interface or class to substitute. - An additional interface or class (maximum of one class) the substitute should implement. - An additional interface or class (maximum of one class) the substitute should implement. - Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. - A substitute of type T1, that also implements T2 and T3. - - - - Substitute for multiple interfaces or a class that implements multiple interfaces. At most one class can be specified. - Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members - can be recorded or have return values specified. - - The types of interfaces or a type of class and multiple interfaces the substitute should implement. - Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. - A substitute implementing the specified types. - - - - Set a return value for this call. - - - - Value to return - Optionally return these values next - - - - - Set a return value for this call, calculated by the provided function. - - - - Function to calculate the return value - Optionally use these functions next - - - - - Set a return value for this call made with any arguments. - - - - Value to return - Optionally return these values next - - - - - Set a return value for this call made with any arguments, calculated by the provided function. - - - - Function to calculate the return value - Optionally use these functions next - - - - - Checks this substitute has received the following call. - - - - - - - - Checks this substitute has received the following call the required number of times. - - - - - - - - - Checks this substitute has not received the following call. - - - - - - - - Checks this substitute has received the following call with any arguments. - - - - - - - - Checks this substitute has received the following call with any arguments the required number of times. - - - - - - - - - Checks this substitute has not received the following call with any arguments. - - - - - - - - Forget all the calls this substitute has received. - - - - - Note that this will not clear any results set up for the substitute using Returns(). - - - - - Perform an action when this member is called. - Must be followed by to provide the callback. - - - - - - - - - Perform an action when this member is called with any arguments. - Must be followed by to provide the callback. - - - - - - - - - Returns the calls received by this substitute. - - - - - - - - Perform this action when called. - - - - - + + + + NSubstitute + + + + + Argument matchers used for specifying calls to substitutes. + + + + + Match any argument value compatible with type . + + + + + + + Match argument that is equal to . + + + + + + + + Match argument that satisfies . + If the throws an exception for an argument it will be treated as non-matching. + + + + + + + + Invoke any argument whenever a matching call is made to the substitute. + + + + + + Invoke any argument with specified argument whenever a matching call is made to the substitute. + + + + + + + + Invoke any argument with specified arguments whenever a matching call is made to the substitute. + + + + + + + + + + Invoke any argument with specified arguments whenever a matching call is made to the substitute. + + + + + + + + + + + + Invoke any argument with specified arguments whenever a matching call is made to the substitute. + + + + + + + + + + + + + + Invoke any argument with specified arguments whenever a matching call is made to the substitute. + + + Arguments to pass to delegate. + + + + + Capture any argument compatible with type and use it to call the function + whenever a matching call is made to the substitute. + + + + + + + + Provides a specification for arguments for use with . + Can additionally implement to give descriptions when arguments do not match. + + + + + Checks whether the satisfies the condition of the matcher. + If this throws an exception the argument will be treated as non-matching. + + + + + + + Describes how the does not match the condition specified by this class, or + if a detailed description can not be provided for the argument. + + + Description of the non-match, or if no description can be provided. + + + + Adds a callback to execute for matching calls. + + an action to call + + + + + Combines two enumerables into a new enumerable using the given selector. + + + + + + + + + + This implementation was sanity-checked against the + Edulinq implementation and + Eric Lippert's implementation. + + + + + Checks if the instance can be used when a is expected. + + + + + + + + Join the using . + + + + + + + + Delegates to ThreadLocal<T>, but wraps Value property access in try/catch to swallow ObjectDisposedExceptions. + These can occur if the Value property is accessed from the finalizer thread. Because we can't detect this, we'll + just swallow the exception (the finalizer thread won't be using any of the values from thread local storage anyway). + + + + + + *EXPERIMENTAL* Asserts the calls to the substitutes contained in the given Action were + received by these substitutes in the same order. Calls to property getters are not included + in the assertion. + + Action containing calls to substitutes in the expected order + + + + Provides a specification for arguments for use with . + Can additionally implement to give descriptions when arguments do not match. + + Matches arguments of type or compatible type. + + + + Checks whether the satisfies the condition of the matcher. + If this throws an exception the argument will be treated as non-matching. + + + + + + + Clears last call router on SubstitutionContext for routes that do not require it. + + + This is to help prevent static state bleeding over into future calls. + + + + + Raise an event for an EventHandler<TEventArgs> event with the provided and . + + + + + Raise an event for an EventHandler<TEventArgs> event with the substitute as the sender and the provided . + + + + + Raise an event for an EventHandler<EventArgsT> event with the substitute as the sender + and with a default instance of . + + + + + Raise an event for an EventHandler or EventHandler<EventArgs> event with the substitute + as the sender and with empty EventArgs. + + + + + Raise an event of type with the provided arguments. If no arguments are provided + NSubstitute will try and provide reasonble defaults. + + + + + Create a substitute for one or more types. For example: Substitute.For<ISomeType>() + + + + + Substitute for an interface or class. + Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members + can be recorded or have return values specified. + + The type of interface or class to substitute. + Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. + A substitute for the interface or class. + + + + Substitute for multiple interfaces or a class that implements an interface. At most one class can be specified. + Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members + can be recorded or have return values specified. + + The type of interface or class to substitute. + An additional interface or class (maximum of one class) the substitute should implement. + Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. + A substitute of type T1, that also implements T2. + + + + Substitute for multiple interfaces or a class that implements multiple interfaces. At most one class can be specified. + If additional interfaces are required use the overload. + Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members + can be recorded or have return values specified. + + The type of interface or class to substitute. + An additional interface or class (maximum of one class) the substitute should implement. + An additional interface or class (maximum of one class) the substitute should implement. + Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. + A substitute of type T1, that also implements T2 and T3. + + + + Substitute for multiple interfaces or a class that implements multiple interfaces. At most one class can be specified. + Be careful when specifying a class, as all non-virtual members will actually be executed. Only virtual members + can be recorded or have return values specified. + + The types of interfaces or a type of class and multiple interfaces the substitute should implement. + Arguments required to construct a class being substituted. Not required for interfaces or classes with default constructors. + A substitute implementing the specified types. + + + + Set a return value for this call. + + + + Value to return + Optionally return these values next + + + + + Set a return value for this call, calculated by the provided function. + + + + Function to calculate the return value + Optionally use these functions next + + + + + Set a return value for this call made with any arguments. + + + + Value to return + Optionally return these values next + + + + + Set a return value for this call made with any arguments, calculated by the provided function. + + + + Function to calculate the return value + Optionally use these functions next + + + + + Checks this substitute has received the following call. + + + + + + + + Checks this substitute has received the following call the required number of times. + + + + + + + + + Checks this substitute has not received the following call. + + + + + + + + Checks this substitute has received the following call with any arguments. + + + + + + + + Checks this substitute has received the following call with any arguments the required number of times. + + + + + + + + + Checks this substitute has not received the following call with any arguments. + + + + + + + + Forget all the calls this substitute has received. + + + + + Note that this will not clear any results set up for the substitute using Returns(). + + + + + Perform an action when this member is called. + Must be followed by to provide the callback. + + + + + + + + + Perform an action when this member is called with any arguments. + Must be followed by to provide the callback. + + + + + + + + + Returns the calls received by this substitute. + + + + + + + + Perform this action when called. + + + + + diff --git a/packages/NSubstitute.1.6.1.0/lib/NET40/NSubstitute.dll b/packages/NSubstitute.1.6.1.0/lib/NET40/NSubstitute.dll new file mode 100644 index 0000000..b3f6178 Binary files /dev/null and b/packages/NSubstitute.1.6.1.0/lib/NET40/NSubstitute.dll differ diff --git a/packages/RhinoMocks.3.6.1/lib/net/Rhino.Mocks.xml b/packages/RhinoMocks.3.6.1/lib/net/Rhino.Mocks.xml index b1f7638..d6ae366 100644 --- a/packages/RhinoMocks.3.6.1/lib/net/Rhino.Mocks.xml +++ b/packages/RhinoMocks.3.6.1/lib/net/Rhino.Mocks.xml @@ -1,5624 +1,5624 @@ - - - - Rhino.Mocks - - - - - Defines constraints and return values for arguments of a mock. - Only use Arg inside a method call on a mock that is recording. - Example: - ExpectCall( - mock.foo( - Arg<int>.Is.GreaterThan(2), - Arg<string>.Is.Anything - )); - Use Arg.Text for string specific constraints - Use Arg<ListClass>.List for list specific constraints - - - - - - Register the predicate as a constraint for the current call. - - The predicate. - default(T) - - Allow you to use code to create constraints - - demo.AssertWasCalled(x => x.Bar(Arg{string}.Matches(a => a.StartsWith("b") && a.Contains("ba")))); - - - - - - Define a complex constraint for this argument by passing several constraints - combined with operators. (Use Is in simple cases.) - Example: Arg<string>.Matches(Is.Equal("Hello") || Text.EndsWith("u")); - - Constraints using Is, Text and List - Dummy to satisfy the compiler - - - - Define a Ref argument. - - Constraints for this argument - value returned by the mock - - - - - Define a out parameter. Use it together with the keyword out and use the - Dummy field available by the return value. - Example: mock.foo( out Arg<string>.Out("hello").Dummy ); - - - - - - - Define a simple constraint for this argument. (Use Matches in simple cases.) - Example: - Arg<int>.Is.Anthing - Arg<string>.Is.Equal("hello") - - - - - Define Constraints on list arguments. - - - - - Use the Arg class (without generic) to define Text constraints - - - - - Evaluate an equal constraint for . - - The object the parameter should equal to - - - - Define constraints on text arguments. - - - - - Used to manage the static state of the Arg<T> class"/> - - - - - Resets the static state - - - - - Returns return values for the out and ref parameters - Note: the array returned has the size of the number of out and ref - argument definitions - - - - - - Returns the constraints for all arguments. - Out arguments have an Is.Anything constraint and are also in the list. - - - - - - What should BackToRecord clear - - - - - Retain all expectations and behaviors and return to mock - - - - - All expectations - - - - - Event subscribers for this instance - - - - - Methods that should be forwarded to the base class implementation - - - - - Properties that should behave like properties - - - - - Remove all the behavior of the object - - - - - Interface for constraints - - - - - Determines if the object pass the constraints - - - - - And operator for constraints - - - - - Not operator for constraints - - - - - Or operator for constraints - - - - - Allow overriding of || or && - - - - - - - Allow overriding of || or && - - - - - - - Gets the message for this constraint - - - - - - Constrain that the public field has a specified value - - - - - Constrain that the public field matches another constraint. - - - - - Creates a new instance. - - Name of the public field. - Constraint to place on the public field value. - - - - Creates a new instance, specifying a disambiguating - for the public field. - - The type that declares the public field, used to disambiguate between public fields. - Name of the public field. - Constraint to place on the public field value. - - - - Determines if the object passes the constraint. - - - - - Gets the message for this constraint - - - - - - Creates a new instance. - - Name of the public field. - Expected value. - - - - Creates a new instance, specifying a disambiguating - for the public field. - - The type that declares the public field, used to disambiguate between public fields. - Name of the public field. - Expected value. - - - - Constrain that the property has a specified value - - - - - Constrain that the property matches another constraint. - - - - - Creates a new instance. - - Name of the property. - Constraint to place on the property value. - - - - Creates a new instance, specifying a disambiguating - for the property. - - The type that declares the property, used to disambiguate between properties. - Name of the property. - Constraint to place on the property value. - - - - Determines if the object passes the constraint. - - - - - Gets the message for this constraint - - - - - - Creates a new instance. - - Name of the property. - Expected value. - - - - Creates a new instance, specifying a disambiguating - for the property. - - The type that declares the property, used to disambiguate between properties. - Name of the property. - Expected value. - - - - Constrain that the parameter must be of the specified type - - - - - Creates a new instance. - - Type. - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Constraint that determines whether an object is the same object as another. - - - - - Creates a new instance. - - Obj. - - - - Determines if the object passes the constraints. - - - - - Gets the message for this constraint. - - - - - Evaluate a parameter using constraints - - - - - Create new instance - - - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - A constraint based on lambda expression, we are using Expression{T} - because we want to be able to get good error reporting on that. - - - - - Initializes a new instance of the class. - - The expr. - - - - Determines if the object pass the constraints - - - - - - - Gets the message for this constraint - - - - - - Constrain that the list contains the same items as the parameter list - - - - - Creates a new instance. - - In list. - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Constrain that the parameter is one of the items in the list - - - - - Creates a new instance. - - In list. - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Constrain that the object is inside the parameter list - - - - - Creates a new instance. - - In list. - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Applies another AbstractConstraint to the collection count. - - - - - Creates a new instance. - - The constraint that should be applied to the collection count. - - - - Determines if the parameter conforms to this constraint. - - - - - Gets the message for this constraint. - - - - - Applies another AbstractConstraint to a specific list element. - - - - - Creates a new instance. - - The zero-based index of the list element. - The constraint that should be applied to the list element. - - - - Determines if the parameter conforms to this constraint. - - - - - Gets the message for this constraint - - - - - - Applies another AbstractConstraint to a specific generic keyed list element. - - - - - Creates a new instance. - - The key of the list element. - The constraint that should be applied to the list element. - - - - Determines if the parameter conforms to this constraint. - - - - - Gets the message for this constraint - - - - - - Constrains that all elements are in the parameter list - - - - - Initializes a new instance of the class. - - The these. - - - - Determines if the object pass the constraints - - - - - - - Gets the message for this constraint - - - - - - Combines two constraints, constraint pass if either is fine. - - - - - Creates a new instance. - - C1. - C2. - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Negate a constraint - - - - - Creates a new instance. - - C1. - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Combines two constraints - - - - - - Creates a new instance. - - C1. - C2. - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Constrain the argument to validate according to regex pattern - - - - - Creates a new instance. - - Pattern. - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Constraint that evaluate whatever an argument contains the specified string. - - - - - Creates a new instance. - - Inner string. - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Constraint that evaluate whatever an argument ends with the specified string - - - - - Creates a new instance. - - End. - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Constraint that evaluate whatever an argument start with the specified string - - - - - Creates a new instance. - - Start. - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Constraint that evaluate whatever an object equals another - - - - - Creates a new instance. - - Obj. - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Constraint that always returns true - - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Constraint that evaluate whatever a comparable is greater than another - - - - - Creates a new instance. - - - - - Determines if the object pass the constraints - - - - - Gets the message for this constraint - - - - - - Initializes a new constraint object. - - The expected object, The actual object is passed in as a parameter to the method - - - - Evaluate this constraint. - - The actual object that was passed in the method call to the mock. - True when the constraint is met, else false. - - - - Checks if the properties of the object - are the same as the properies of the object. - - The expected object - The actual object - True when both objects have the same values, else False. - - - - - - - - - This is the real heart of the beast. - - - - Used by CheckReferenceType to check all properties of the reference type. - - The expected object - The actual object - True when both objects have the same values, else False. - - - - Used by CheckReferenceType to check all fields of the reference type. - - The expected object - The actual object - True when both objects have the same values, else False. - - - - Checks the items of both collections - - The expected collection - - True if both collections contain the same items in the same order. - - - - Builds a propertyname from the Stack _properties like 'Order.Product.Price' - to be used in the error message. - - A nested property name. - - - - Rhino.Mocks uses this property to generate an error message. - - - A message telling the tester why the constraint failed. - - - - - Provides access to the constraintes defined in the class to be used in context - with the syntax. - - The type of the argument - - - - Evaluate a greater than constraint for . - - The object the parameter should be greater than - - - - Evaluate a less than constraint for . - - The object the parameter should be less than - - - - Evaluate a less than or equal constraint for . - - The object the parameter should be less than or equal to - - - - Evaluate a greater than or equal constraint for . - - The object the parameter should be greater than or equal to - - - - Evaluate an equal constraint for . - - The object the parameter should equal to - - - - Converts the object type to a better match if this is a primitive type. - - The obj. - - - - - Converts the object type to match. - - - Because of implicit conversions and the way ArgConstraints this method is needed to check - object type and potentially change the object type for a better "match" so that obj1.Equals(obj2) - will return the proper "answer" - - The obj. - - - - - Evaluate a not equal constraint for . - - The object the parameter should not equal to - - - - Evaluate a same as constraint. - - The object the parameter should the same as. - - - - Evaluate a not same as constraint. - - The object the parameter should not be the same as. - - - - Throws NotSupportedException. Don't use Equals to define constraints. Use Equal instead. - - - - - - - Serves as a hash function for a particular type. - - - A hash code for the current . - - - - - A constraints that accept anything - - - - - - A constraint that accept only nulls - - - - - - A constraint that accept only non null values - - - - - - A constraint that accept only value of the specified type. - The check is performed on the type that has been defined - as the argument type. - - - - - Provides access to the constraints defined in the class to be used in context - with the syntax. - - - - - Determines whether the specified object is in the parameter. - The parameter must be IEnumerable. - - Obj. - - - - - Determines whatever the parameter is in the collection. - - - - - Determines that the parameter collection is identical to the specified collection - - - - - Determines that the parameter collection has the specified number of elements. - - The constraint that should be applied to the collection count. - - - - Determines that an element of the parameter collections conforms to another AbstractConstraint. - - The zero-based index of the list element. - The constraint which should be applied to the list element. - - - - Determines that all elements of the specified collection are in the the parameter collection - - The collection to compare against - The constraint which should be applied to the list parameter. - - - - Throws NotSupportedException. Don't use Equals to define constraints. Use Equal instead. - - - - - - - Serves as a hash function for a particular type. - - - A hash code for the current . - - - - - Provides a dummy field to pass as out or ref argument. - - - - - - Dummy field to satisfy the compiler. Used for out and ref arguments. - - - - - Central location for constraints for object's public fields - - - - - Constrains the parameter to have a public field with the specified value - - Name of the public field. - Expected value. - - - - - Constrains the parameter to have a public field with the specified value. - - The type that declares the public field, used to disambiguate between public fields. - Name of the public field. - Expected value. - - - - - Constrains the parameter to have a public field satisfying a specified constraint. - - Name of the public field. - Constraint for the public field. - - - - Constrains the parameter to have a public field satisfying a specified constraint. - - The type that declares the public field, used to disambiguate between public fields. - Name of the public field. - Constraint for the public field. - - - - Determines whether the parameter has the specified public field and that it is null. - - Name of the public field. - - - - - Determines whether the parameter has the specified public field and that it is null. - - The type that declares the public field, used to disambiguate between public fields. - Name of the public field. - - - - - Determines whether the parameter has the specified public field and that it is not null. - - Name of the public field. - - - - - Determines whether the parameter has the specified public field and that it is not null. - - The type that declares the public field, used to disambiguate between public fields. - Name of the public field. - - - - - Central location for constraints - - - - - Evaluate a greater than constraint for . - - The object the parameter should be greater than - - - - Evaluate a less than constraint for . - - The object the parameter should be less than - - - - Evaluate a less than or equal constraint for . - - The object the parameter should be less than or equal to - - - - Evaluate a greater than or equal constraint for . - - The object the parameter should be greater than or equal to - - - - Evaluate an equal constraint for . - - The object the parameter should equal to - - - - Evaluate a not equal constraint for . - - The object the parameter should not equal to - - - - Evaluate a same as constraint. - - The object the parameter should the same as. - - - - Evaluate a not same as constraint. - - The object the parameter should not be the same as. - - - - A constraints that accept anything - - - - - - A constraint that accept only nulls - - - - - - A constraint that accept only non null values - - - - - - A constraint that accept only value of the specified type - - - - - A constraint that accept only value of the specified type - - - - - Evaluate a parameter using a predicate - - The predicate to use - - - - Central location for constraints about lists and collections - - - - - Determines whether the specified obj is in the parameter. - The parameter must be IEnumerable. - - Obj. - - - - - Determines whatever the parameter is in the collection. - - - - - Determines that the parameter collection is identical to the specified collection - - - - - Determines that the parameter collection has the specified number of elements. - - The constraint that should be applied to the collection count. - - - - Determines that an element of the parameter collections conforms to another AbstractConstraint. - - The zero-based index of the list element. - The constraint which should be applied to the list element. - - - - Determines that an element of the parameter collections conforms to another AbstractConstraint. - - The key of the element. - The constraint which should be applied to the element. - - - - Determines that all elements of the specified collection are in the the parameter collection - - The collection to compare against - The constraint which should be applied to the list parameter. - - - - Central location for constraints for object's properties - - - - - Constrains the parameter to have property with the specified value - - Name of the property. - Expected value. - - - - - Constrains the parameter to have property with the specified value. - - The type that declares the property, used to disambiguate between properties. - Name of the property. - Expected value. - - - - - Constrains the parameter to have a property satisfying a specified constraint. - - Name of the property. - Constraint for the property. - - - - Constrains the parameter to have a property satisfying a specified constraint. - - The type that declares the property, used to disambiguate between properties. - Name of the property. - Constraint for the property. - - - - Determines whether the parameter has the specified property and that it is null. - - Name of the property. - - - - - Determines whether the parameter has the specified property and that it is null. - - The type that declares the property, used to disambiguate between properties. - Name of the property. - - - - - Determines whether the parameter has the specified property and that it is not null. - - Name of the property. - - - - - Determines whether the parameter has the specified property and that it is not null. - - The type that declares the property, used to disambiguate between properties. - Name of the property. - - - - - constraints the parameter to have the exact same property values as the expected object. - - An object, of the same type as the parameter, whose properties are set with the expected values. - An instance of the constraint that will do the actual check. - - The parameter's public property values and public field values will be matched against the expected object's - public property values and public field values. The first mismatch will be reported and no further matching is done. - The matching is recursive for any property or field that has properties or fields of it's own. - Collections are supported through IEnumerable, which means the constraint will check if the actual and expected - collection contain the same values in the same order, where the values contained by the collection can have properties - and fields of their own that will be checked as well because of the recursive nature of this constraint. - - - - - Central location for all text related constraints - - - - - Constrain the argument to starts with the specified string - - - - - Constrain the argument to end with the specified string - - - - - Constrain the argument to contain the specified string - - - - - Constrain the argument to validate according to regex pattern - - - - - Provides access to the constraintes defined in the class to be used in context - with the syntax. - - - - - Constrain the argument to starts with the specified string - - - - - - Constrain the argument to end with the specified string - - - - - Constrain the argument to contain the specified string - - - - - Constrain the argument to validate according to regex pattern - - - - - Throws NotSupportedException. Don't use Equals to define constraints. Use Equal instead. - - - - - - - Serves as a hash function for a particular type. - - - A hash code for the current . - - - - - This class defines a lot of method signatures, which we will use - to allow compatability on net-2.0 - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - dummy - - - - - Allows expectations to be set on methods that should never be called. - For methods with void return value, you need to use LastCall or - DoNotExpect.Call() with a delegate. - - - - - Sets LastCall.Repeat.Never() on /any/ proxy on /any/ repository on the current thread. - This method if not safe for multi threading scenarios. - - - - - Accepts a delegate that will execute inside the method which - LastCall.Repeat.Never() will be applied to. - It is expected to be used with anonymous delegates / lambda expressions and only one - method should be called. - - - IService mockSrv = mocks.CreateMock(typeof(IService)) as IService; - DoNotExpect.Call(delegate{ mockSrv.Stop(); }); - ... - - - - - An expectaton violation was detected. - - - - - Creates a new instance. - - Message. - - - - Serialization constructor - - - - - Signals that an object was call on a mock repository which doesn't - belong to this mock repository or not a mock - - - - - Creates a new instance. - - Message. - - - - Serialization constructor - - - - - Allows to set expectation on methods that has return values. - For methods with void return value, you need to use LastCall - - - - - The method options for the last call on /any/ proxy on /any/ repository on the current thread. - This method if not safe for multi threading scenarios, use . - - - - - Accepts a delegate that will execute inside the method, and then return the resulting - instance. - It is expected to be used with anonymous delegates / lambda expressions and only one - method should be called. - - - IService mockSrv = mocks.CreateMock(typeof(IService)) as IService; - Expect.Call(delegate{ mockSrv.Start(); }).Throw(new NetworkException()); - ... - - - - - Get the method options for the last method call on the mockInstance. - - - - - A delegate that can be used to get better syntax on Expect.Call(delegate { foo.DoSomething(); }); - - - - - Abstract class that holds common information for - expectations. - - - - - Interface to validate that a method call is correct. - - - - - Validate the arguments for the method. - This method can be called numerous times, so be careful about side effects - - The arguments with which the method was called - - - - Add an actual method call to this expectation - - - - - Returns the return value or throw the exception and setup any output / ref parameters - that has been set. - - - - - Builds the verification failure message. - - - - - - Gets the error message. - - - - - - Range of expected calls - - - - - Number of call actually made for this method - - - - - If this expectation is still waiting for calls. - - - - - The return value for a method matching this expectation - - - - - Gets or sets the exception to throw on a method matching this expectation. - - - - - Gets a value indicating whether this instance's action is staisfied. - A staisfied instance means that there are no more requirements from - this method. A method with non void return value must register either - a return value or an exception to throw. - - - - - Gets the method this expectation is for. - - - - - Gets or sets what special condtions there are for this method - repeating. - - - - - Gets a value indicating whether this expectation was satisfied - - - - - Specify whatever this expectation has a return value set - You can't check ReturnValue for this because a valid return value include null. - - - - - An action to execute when the method is matched. - - - - - Set the out / ref parameters for the method call. - The indexing is zero based and ignores any non out/ref parameter. - It is possible not to pass all the parameters. This method can be called only once. - - - - - Documentation Message - - - - - Gets the invocation for this expectation - - The invocation. - - - - Occurs when the exceptation is match on a method call - - - - - Allow to set the return value in the future, if it was already set. - - - - - Number of actuall calls made that passed this expectation - - - - - Range of expected calls that should pass this expectation. - - - - - The return value for a method matching this expectation - - - - - The exception to throw on a method matching this expectation. - - - - - The method this expectation is for. - - - - - The return value for this method was set - - - - - Whether this method will repeat - unlimited number of times. - - - - - A delegate that will be run when the - expectation is matched. - - - - - The arguments that matched this expectation. - - - - - Documentation message - - - - - The method originalInvocation - - - - - Get the hash code - - - - - Add an actual actualMethodCall call to this expectation - - - - - Builds the verification failure message. - - - - - - Returns the return value or throw the exception and setup output / ref parameters - - - - - Validate the arguments for the method on the child methods - - The arguments with which the method was called - - - - Creates a new instance. - - The originalInvocation for this method, required because it contains the generic type infromation - Number of method calls for this expectations - - - - Creates a new instance. - - Expectation. - - - - Validate the arguments for the method on the child methods - - The arguments with which the method was called - - - - Determines if this object equal to obj - - - - - The error message for these arguments - - - - - Asserts that the delegate has the same parameters as the expectation's method call - - - - - Setter for the outpur / ref parameters for this expecataion. - Can only be set once. - - - - - Specify whether this expectation has a return value set - You can't check ReturnValue for this because a valid return value include null. - - - - - Gets the method this expectation is for. - - - - - Gets the originalInvocation for this expectation - - The originalInvocation. - - - - Gets or sets what special condtions there are for this method - - - - - Range of expected calls - - - - - Number of call actually made for this method - - - - - If this expectation is still waiting for calls. - - - - - Gets a value indicating whether this expectation was satisfied - - - - - The return value for a method matching this expectation - - - - - An action to execute when the method is matched. - - - - - Gets or sets the exception to throw on a method matching this expectation. - - - - - Gets a value indicating whether this instance's action is staisfied. - A staisfied instance means that there are no more requirements from - this method. A method with non void return value must register either - a return value or an exception to throw or an action to execute. - - - - - Documentation message - - - - - Occurs when the exceptation is match on a method call - - - - - Allow to set the return value in the future, if it was already set. - - - - - Gets the error message. - - - - - - Expectation that matches any arguments for the method. - - - - - Creates a new instance. - - Invocation for this expectation - Number of method calls for this expectations - - - - Creates a new instance. - - Expectation. - - - - Validate the arguments for the method. - - The arguments with which the method was called - - - - Determines if the object equal to expectation - - - - - Get the hash code - - - - - Gets the error message. - - - - - - Summary description for ArgsEqualExpectation. - - - - - Creates a new instance. - - Expected args. - The invocation for this expectation - Number of method calls for this expectations - - - - Validate the arguments for the method. - - The arguments with which the method was called - - - - Determines if the object equal to expectation - - - - - Get the hash code - - - - - Gets the error message. - - - - - - Get the expected args. - - - - - Call a specified callback to verify the expectation - - - - - Creates a new instance. - - Expectation. - Callback. - - - - Creates a new instance. - - Invocation for this expectation - Callback. - Number of method calls for this expectations - - - - Validate the arguments for the method on the child methods - - The arguments with which the method was called - - - - Determines if the object equal to expectation - - - - - Get the hash code - - - - - Gets the error message. - - - - - - Expect the method's arguments to match the contraints - - - - - Creates a new instance. - - Invocation for this expectation - Constraints. - Number of method calls for this expectations - - - - Creates a new instance. - - Expectation. - Constraints. - - - - Validate the arguments for the method. - - The arguments with which the method was called - - - - Determines if the object equal to expectation - - - - - Get the hash code - - - - - Gets the error message. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Summary for AndSpecification - - - - - - - - - - - - - - - - - - - - - - Summary description for FollowsEventNamingStandard - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Summary descritpion for NamedEventExistsOnDeclaringType - - - - - - - - - Doesn't log anything, just makes happy noises - - - - - Log expectations - allows to see what is going on inside Rhino Mocks - - - - - Logs the expectation as is was recorded - - The invocation. - The expectation. - - - - Logs the expectation as it was recorded - - The invocation. - The expectation. - - - - Logs the unexpected method call. - - The invocation. - The message. - - - - Logs the expectation as is was recorded - - The invocation. - The expectation. - - - - Logs the expectation as it was recorded - - The invocation. - The expectation. - - - - Logs the unexpected method call. - - The invocation. - The message. - - - - Operation on a remoting proxy - - - It is not possible to directly communicate to a real proxy via transparent proxy. - Transparent proxy impersonates a user type and only methods of that user type are callable. - The only methods that are guaranteed to exist on any transparent proxy are methods defined - in Object: namely ToString(), GetHashCode(), and Equals()). - - These three methods are the only way to tell the real proxy to do something. - Equals() is the most suitable of all, since it accepts an arbitrary object parameter. - The RemotingProxy code is built so that if it is compared to an IRemotingProxyOperation, - transparentProxy.Equals(operation) will call operation.Process(realProxy). - This way we can retrieve a real proxy from transparent proxy and perform - arbitrary operation on it. - - - - - Generates remoting proxies and provides utility functions - - - - - Create the proxy using remoting - - - - - Check whether an object is a transparent proxy with a RemotingProxy behind it - - Object to check - true if the object is a transparent proxy with a RemotingProxy instance behind it, false otherwise - We use Equals() method to communicate with the real proxy behind the object. - See IRemotingProxyOperation for more details - - - - Retrieve a mocked object from a transparent proxy - - Transparent proxy with a RemotingProxy instance behind it - Mocked object associated with the proxy - We use Equals() method to communicate with the real proxy behind the object. - See IRemotingProxyOperation for more details - - - - Implementation of IInvocation based on remoting proxy - - Some methods are marked NotSupported since they either don't make sense - for remoting proxies, or they are never called by Rhino Mocks - - - - Rudimetry implementation that simply logs methods calls as text. - - - - - Initializes a new instance of the class. - - The writer. - - - - Logs the expectation as it was recorded - - The invocation. - The expectation. - - - - Logs the expectation as it was recorded - - The invocation. - The expectation. - - - - Logs the unexpected method call. - - The invocation. - The message. - - - - Behave like a stub, all properties and events acts normally, methods calls - return default values by default (but can use expectations to set them up), etc. - - - - - Records all the expectations for a mock - - - - - Different actions on this mock - - - - - Add a method call for this state' mock. - - The invocation for this method - The method that was called - The arguments this method was called with - - - - Verify that this mock expectations have passed. - - - - - Verify that we can move to replay state and move - to the reply state. - - - - - Gets a mock state that match the original mock state of the object. - - - - - Get the options for the last method call - - - - - Set the exception to throw when Verify is called. - This is used to report exception that may have happened but where caught in the code. - This way, they are reported anyway when Verify() is called. - - - - - This method is called to indicate that a property behavior call. - This is done so we generate good error message in the common case of people using - Stubbed properties with Return(). - - - - - Gets the matching verify state for this state - - - - - Get the options for the last method call - - - - - Get the options for the last method call - - - - - Set the exception to throw when Verify is called. - This is used to report exception that may have happened but where caught in the code. - This way, they are reported anyway when Verify() is called. - - - - - This method is called to indicate that a property behavior call. - This is done so we generate good error message in the common case of people using - Stubbed properties with Return(). - - - - - Creates a new instance. - - Repository. - The proxy that generates the method calls - - - - Add a method call for this state' mock. - - The invocation for this method - The method that was called - The arguments this method was called with - - - - Verify that we can move to replay state and move - to the reply state. - - - - - Verify that we can move to replay state and move - to the reply state. - - - - - Verify that this mock expectations have passed. - - - - - Gets a mock state that match the original mock state of the object. - - - - - Asserts the previous method is closed (had an expectation set on it so we can replay it correctly) - - - - - Get the default call count range expectation - - - - - - Gets the last expectation. - - - - - Gets the total method calls count. - - - - - Get the options for the last method call - - - - - Gets the matching verify state for this state - - - - - Initializes a new instance of the class. - - The proxy that generates the method calls - Repository. - - - - We don't care much about expectations here, so we will remove the expectation if - it is not closed. - - - - - Verify that we can move to replay state and move - to the reply state. - - - - - - Get the default call count range expectation - - - - - - Validate expectations on recorded methods, but in general completely ignoring them. - Similar to except that it would return a - when BackToRecord is called. - - - - - Validate all expectations on a mock - - - - - The repository for this state - - - - - The proxy object for this state - - - - - Get the options for the last method call - - - - - Creates a new instance. - - The previous state for this method - - - - Add a method call for this state' mock. - - The invocation for this method - The method that was called - The arguments this method was called with - - - - Add a method call for this state' mock. - This allows derived method to cleanly get a the setupresult behavior while adding - their own. - - The invocation for this method - The method that was called - The arguments this method was called with - - - - Set the exception to throw when Verify is called. - This is used to report exception that may have happened but where caught in the code. - This way, they are reported anyway when Verify() is called. - - - - - not relevant - - - - - Verify that this mock expectations have passed. - - - - - Verify that we can move to replay state and move - to the reply state. - - - - - Gets a mock state that match the original mock state of the object. - - - - - Get the options for the last method call - - - - - Gets the matching verify state for this state - - - - - Initializes a new instance of the class. - - The previous state for this method - - - - Add a method call for this state' mock. - - The invocation for this method - The method that was called - The arguments this method was called with - - - - Gets a mock state that matches the original mock state of the object. - - - - - Write rhino mocks log info to the trace - - - - - Initializes a new instance of the class. - - - - - Initializes a new instance of the class. - - if set to true [log recorded]. - if set to true [log replayed]. - if set to true [log unexpected]. - - - - Logs the expectation as is was recorded - - The invocation. - The expectation. - - - - Logs the expectation as it was recorded - - The invocation. - The expectation. - - - - Logs the unexpected method call. - - The invocation. - The message. - - - - Writes log information as stack traces about rhino mocks activity - - - - - Allows to redirect output to a different location. - - - - - Logs the expectation as is was recorded - - The invocation. - The expectation. - - - - Logs the expectation as it was recorded - - The invocation. - The expectation. - - - - Logs the unexpected method call. - - The invocation. - The message. - - - - Marker interface used to indicate that this is a partial mock. - - - - - Options for CallOriginalMethod - - - - - No expectation is created, the method will be called directly - - - - - Normal expectation is created, but when the method is later called, it will also call the original method - - - - - This is a data structure that is used by - to pass - the current method to the relevant delegate - - - - - Initializes a new instance of the class. - - The invocation. - - - - Gets the args for this method invocation - - - - - Get the method that was caused this invocation - - - - - Gets or sets the return value for this method invocation - - The return value. - - - - Adds optional new usage: - using(mockRepository.Record()) { - Expect.Call(mock.Method()).Return(retVal); - } - using(mockRepository.Playback()) { - // Execute code - } - N.B. mockRepository.ReplayAll() and mockRepository.VerifyAll() - calls are taken care of by Record/Playback - - - Creates proxied instances of types. - - - - Generates a stub without needing a - Arguments for 's constructor - The of stub to create. - The stub - - - - Generates a stub without needing a - The of stub. - Arguments for the 's constructor. - The stub - - - - Generate a mock object without needing a - type of mock object to create. - Arguments for 's constructor - the mock object - - - - Generate a multi-mock object without needing a - The typeof object to generate a mock for. - A second interface to generate a multi-mock for. - Arguments for 's constructor - the multi-mock object - - - - Generate a multi-mock object without without needing a - The typeof object to generate a mock for. - An interface to generate a multi-mock for. - A second interface to generate a multi-mock for. - Arguments for 's constructor - the multi-mock object - - - - Creates a multi-mock without without needing a - The type of mock to create, this can be a class - Any extra interfaces to add to the multi-mock, these can only be interfaces. - Arguments for 's constructor - the multi-mock object - - - - Creates a strict mock without without needing a - Any arguments required for the 's constructor - The type of mock object to create. - The mock object with strict replay semantics - - - - Creates a strict multi-mock without needing a - Any arguments required for the 's constructor - The type of mock object to create, this can be a class. - An interface to generate a multi-mock for, this must be an interface! - The multi-mock object with strict replay semantics - - - - Creates a strict multi-mock without needing a - Any arguments required for the 's constructor - The type of mock object to create, this can be a class. - An interface to generate a multi-mock for, this must be an interface! - A second interface to generate a multi-mock for, this must be an interface! - The multi-mock object with strict replay semantics - - - - Creates a strict multi-mock without needing a - The type of mock object to create, this can be a class - Any extra interfaces to generate a multi-mock for, these must be interaces! - Any arguments for the 's constructor - The strict multi-mock object - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Generate a mock object with dynamic replay semantics and remoting without needing the mock repository - - - - - Generate a mock object with strict replay semantics and remoting without needing the mock repository - - - - Helper method to create a mock object without a repository instance and put the object back into replay mode. - The type of mock object to create - A delegate that uses a mock repository instance to create the underlying mock - The mock object in the replay mode. - - - - - - - - - - - - - - This is a map of types to ProxyGenerators. - - - - - This is used to record the last repository that has a method called on it. - - - - - this is used to get to the last proxy on this repository. - - - - - For mock delegates, maps the proxy instance from intercepted invocations - back to the delegate that was originally returned to client code, if any. - - - - - All the proxies in the mock repositories - - - - - This is here because we can't put it in any of the recorders, since repeatable methods - have no orderring, and if we try to handle them using the usual manner, we would get into - wierd situations where repeatable method that was defined in an orderring block doesn't - exists until we enter this block. - - - - - Creates a new instance. - - - - - Move the repository to ordered mode - - - - - Move the repository to un-ordered mode - - - - - Creates a mock for the specified type. - - Type. - Arguments for the class' constructor, if mocking a concrete class - - - - Creates a strict mock for the specified type. - - Type. - Arguments for the class' constructor, if mocking a concrete class - - - - Creates a remoting mock for the specified type. - - Type. - Arguments for the class' constructor, if mocking a concrete class - - - - Creates a strict remoting mock for the specified type. - - Type. - Arguments for the class' constructor, if mocking a concrete class - - - - Creates a remoting mock for the specified type. - - - Arguments for the class' constructor, if mocking a concrete class - - - - - Creates a strict remoting mock for the specified type. - - - Arguments for the class' constructor, if mocking a concrete class - - - - - Creates a mock from several types, with strict semantics. - Only may be a class. - - - - - Creates a strict mock from several types, with strict semantics. - Only may be a class. - - - - - Creates a mock from several types, with strict semantics. - Only may be a class. - - The main type to mock. - Extra interface types to mock. - Arguments for the class' constructor, if mocking a concrete class. - - - - Creates a strict mock from several types, with strict semantics. - Only may be a class. - - The main type to mock. - Extra interface types to mock. - Arguments for the class' constructor, if mocking a concrete class. - - - - Creates a mock from several types, with dynamic semantics. - Only may be a class. - - The main type to mock. - Extra interface types to mock. - - - - Creates a mock from several types, with dynamic semantics. - Only may be a class. - - The main type to mock. - Extra interface types to mock. - Arguments for the class' constructor, if mocking a concrete class. - - - Creates a dynamic mock for the specified type. - Type. - Arguments for the class' constructor, if mocking a concrete class - - - Creates a dynamic mock for the specified type. - Type. - Arguments for the class' constructor, if mocking a concrete class - - - Creates a dynamic mock for the specified type. - - Arguments for the class' constructor, if mocking a concrete class - - - - Creates a mock object that defaults to calling the class methods if no expectation is set on the method. - Type. - Arguments for the class' constructor. - - - Creates a mock object that defaults to calling the class methods. - Type. - Extra interface types to mock. - - - Creates a mock object that defaults to calling the class methods. - Type. - Extra interface types to mock. - Arguments for the class' constructor. - - - Creates a mock object using remoting proxies - Type to mock - must be MarshalByRefObject - Mock object - Proxy mock can mock non-virtual methods, but not static methods - Creates the mock state for this proxy - - - - Cause the mock state to change to replay, any further call is compared to the - ones that were called in the record state. - - This method *cannot* be called from inside an ordering. - the object to move to replay state - - - - Cause the mock state to change to replay, any further call is compared to the - ones that were called in the record state. - - the object to move to replay state - - - - Move the mocked object back to record state.You can (and it's recommended) to run {Verify()} before you use this method. - Will delete all current expectations! - - - - Move the mocked object back to record state. - Optionally, can delete all current expectations, but allows more granularity about how - it would behave with regard to the object state. - - - - - Verify that all the expectations for this object were fulfilled. - - the object to verify the expectations for - - - - Get the method options for the last call on - mockedInstance. - - The mock object - Method options for the last call - - - - Maps an invocation proxy back to the mock object instance that was originally - returned to client code which might have been a delegate to this proxy. - - The mock object proxy from the intercepted invocation - The mock object - - - This is provided to allow advance extention functionality, where Rhino Mocks standard functionality is not enough. - The type to mock - Delegate that create the first state of the mocked object (usualy the record state). - Additional types to be implemented, this can be only interfaces - optional arguments for the constructor - - - - - Method: GetMockedObject - Get an IProxy from a mocked object instance, or throws if the - object is not a mock object. - - - - - Method: GetMockedObjectOrNull - Get an IProxy from a mocked object instance, or null if the - object is not a mock object. - - - - Pops the recorder. - - - Pushes the recorder. - New recorder. - - - - All the mock objects in this repository will be moved - to record state. - - - - - All the mock objects in this repository will be moved - to record state. - - - - - Replay all the mocks from this repository - - - - - Verify all the mocks from this repository - - - - - Gets the proxy generator for a specific type. Having a single ProxyGenerator - with multiple types linearly degrades the performance so this implementation - keeps one ProxyGenerator per type. - - - - Set the exception to be thrown when verified is called. - - - - Creates a mock for the spesified type with strict mocking semantics. - Strict semantics means that any call that wasn't explicitly recorded is considered an error and would cause an exception to be thrown. - - Arguments for the class' constructor, if mocking a concrete class - - - - Creates a mock for the spesified type with strict mocking semantics. - Strict semantics means that any call that wasn't explicitly recorded is considered an error and would cause an exception to be thrown. - - Arguments for the class' constructor, if mocking a concrete class - - - - Creates a dynamic mock for the specified type. - - Arguments for the class' constructor, if mocking a concrete class - - - - Creates a mock object from several types. - - - - - Creates a strict mock object from several types. - - - - - Create a mock object from several types with dynamic semantics. - - - - - Create a mock object from several types with partial semantics. - - - - - Create a mock object from several types with strict semantics. - - Extra interface types to mock. - Arguments for the class' constructor, if mocking a concrete class - - - - Create a strict mock object from several types with strict semantics. - - Extra interface types to mock. - Arguments for the class' constructor, if mocking a concrete class - - - - Create a mock object from several types with dynamic semantics. - - Extra interface types to mock. - Arguments for the class' constructor, if mocking a concrete class - - - - Create a mock object from several types with partial semantics. - - Extra interface types to mock. - Arguments for the class' constructor, if mocking a concrete class - - - - Create a mock object with from a class that defaults to calling the class methods - - Arguments for the class' constructor, if mocking a concrete class - - - - Create a stub object, one that has properties and events ready for use, and - can have methods called on it. It requires an explicit step in order to create - an expectation for a stub. - - The arguments for constructor. - - - - Create a stub object, one that has properties and events ready for use, and - can have methods called on it. It requires an explicit step in order to create - an expectation for a stub. - - The type. - The arguments for constructor. - The stub - - - - Returns true if the passed mock is currently in replay mode. - - The mock to test. - True if the mock is in replay mode, false otherwise. - - - - Determines whether the specified proxy is a stub. - - The proxy. - - - - Register a call on a prperty behavior - - - - - - Gets the recorder. - - - - - - Gets the replayer for this repository. - - - - - - Gets the last proxy which had a method call. - - - - - Delegate: CreateMockState - This is used internally to cleanly handle the creation of different - RecordMockStates. - - - - - A set of extension methods that adds Arrange Act Assert mode to Rhino Mocks - - - - - Create an expectation on this mock for this action to occur - - - The mock. - The action. - - - - - Reset all expectations on this mock object - - - The mock. - - - - Reset the selected expectation on this mock object - - - The mock. - The options to reset the expectations on this mock. - - - - Cause the mock state to change to replay, any further call is compared to the - ones that were called in the record state. - - the mocked object to move to replay state - - - - Gets the mock repository for this specificied mock object - - - The mock. - - - - - Create an expectation on this mock for this action to occur - - - - The mock. - The action. - - - - - Tell the mock object to perform a certain action when a matching - method is called. - Does not create an expectation for this method. - - - The mock. - The action. - - - - - Tell the mock object to perform a certain action when a matching - method is called. - Does not create an expectation for this method. - - - - The mock. - The action. - - - - - Gets the arguments for calls made on this mock object and the method that was called - in the action. - - - The mock. - The action. - - - Here we will get all the arguments for all the calls made to DoSomething(int) - - var argsForCalls = foo54.GetArgumentsForCallsMadeOn(x => x.DoSomething(0)) - - - - - - Gets the arguments for calls made on this mock object and the method that was called - in the action and matches the given constraints - - - The mock. - The action. - The setup constraints. - - - Here we will get all the arguments for all the calls made to DoSomething(int) - - var argsForCalls = foo54.GetArgumentsForCallsMadeOn(x => x.DoSomething(0)) - - - - - - Asserts that a particular method was called on this mock object - - - The mock. - The action. - - - - Asserts that a particular method was called on this mock object that match - a particular constraint set. - - - The mock. - The action. - The setup constraints. - - - - Asserts that a particular method was called on this mock object that match - a particular constraint set. - - - The mock. - The action. - - - - Asserts that a particular method was called on this mock object that match - a particular constraint set. - - - The mock. - The action. - The setup constraints. - - - - Asserts that a particular method was NOT called on this mock object - - - The mock. - The action. - - - - Asserts that a particular method was NOT called on this mock object that match - a particular constraint set. - - - The mock. - The action. - The setup constraints. - - - - Asserts that a particular method was NOT called on this mock object - - - The mock. - The action. - - - - Asserts that a particular method was NOT called on this mock object - - - The mock. - The action. - The setup constraints. - - - - Finds the approprite implementation type of this item. - This is the class or an interface outside of the rhino mocks. - - The mocked obj. - - - - - Verifies all expectations on this mock object - - The mock object. - - - - Gets the event raiser for the event that was called in the action passed - - The type of the event source. - The mock object. - The event subscription. - - - - - Raise the specified event using the passed arguments. - The even is extracted from the passed labmda - - The type of the event source. - The mock object. - The event subscription. - The sender. - The instance containing the event data. - - - - Raise the specified event using the passed arguments. - The even is extracted from the passed labmda - - The type of the event source. - The mock object. - The event subscription. - The args. - - - TODO: Make this better! It currently breaks down when mocking classes or - ABC's that call other virtual methods which are getting intercepted too. I wish - we could just walk Expression{Action{Action{T}} to assert only a single - method is being made. - - The workaround is to not call foo.AssertWasCalled .. rather foo.VerifyAllExpectations() - The type of mock object - The mock repository - The actual mock object to assert expectations on. - - - - Fake type that disallow creating it. - Should have been System.Type, but we can't use it. - - - - - Utility class for dealing with messing generics scenarios. - - - - - There are issues with trying to get this to work correctly with open generic types, since this is an edge case, - I am letting the runtime handle it. - - - - - Gets the real type, including de-constructing and constructing the type of generic - methods parameters. - - The type. - The invocation. - - - - - Because we need to support complex types here (simple generics were handled above) we - need to be aware of the following scenarios: - List[T] and List[Foo[T]] - - - - - ExpectationsList - - - - - Dictionary - - - - - Dictionary class - - - - - Create a new instance of ProxyStateDictionary - - - - - Allows to call a method and immediately get it's options. - - - - - Interface to allow calling a method and immediately get it's options. - - - - - Get the method options for the call - - The method call should go here, the return value is ignored - - - - Creates a new instance. - - - - - Get the method options for the call - - The method call should go here, the return value is ignored - - - - Allows to call a method and immediately get it's options. - Set the expected number for the call to Any() - - - - - Creates a new instance. - - Proxy. - Mocked instance. - - - - Get the method options for the call - - The method call should go here, the return value is ignored - - - - This class is reponsible for taking a delegate and creating a wrapper - interface around it, so it can be mocked. - - - - - The scope for all the delegate interfaces create by this mock repository. - - - - - Gets a type with an "Invoke" method suitable for use as a target of the - specified delegate type. - - - - - - - Raise events for all subscribers for an event - - - - - Raise events for all subscribers for an event - - - - - Raise the event - - - - - The most common form for the event handler signature - - - - - Create an event raiser for the specified event on this instance. - - - - - Creates a new instance of EventRaiser - - - - - Raise the event - - - - - The most common signature for events - Here to allow intellisense to make better guesses about how - it should suggest parameters. - - - - - Allows to define what would happen when a method - is called. - - - - - Allows to define what would happen when a method - is called. - - - - - Set the return value for the method. - - The object the method will return - IRepeat that defines how many times the method will return this value - - - - Allow to override this return value in the future - - IRepeat that defines how many times the method will return this value - - - - Throws the specified exception when the method is called. - - Exception to throw - - - - Ignores the arguments for this method. Any argument will be matched - againt this method. - - - - - Add constraints for the method's arguments. - - - - - Set a callback method for the last call - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched - and allow to optionally modify the invocation as needed - - - - - Call the original method on the class, bypassing the mocking layers. - - - - - - Call the original method on the class, optionally bypassing the mocking layers. - - - - - - Use the property as a simple property, getting/setting the values without - causing mock expectations. - - - - - Expect last (property) call as property setting, ignore the argument given - - - - - - Expect last (property) call as property setting with a given argument. - - - - - - - Get an event raiser for the last subscribed event. - - - - - Set the parameter values for out and ref parameters. - This is done using zero based indexing, and _ignoring_ any non out/ref parameter. - - - - - Documentation message for the expectation - - Message - - - - Better syntax to define repeats. - - - - - Allows to specify the number of time for method calls - - - - - Repeat the method twice. - - - - - Repeat the method once. - - - - - Repeat the method at least once, then repeat as many time as it would like. - - - - - Repeat the method any number of times. - This has special affects in that this method would now ignore orderring. - - - - - Set the range to repeat an action. - - Min. - Max. - - - - Set the amount of times to repeat an action. - - - - - This method must not appear in the replay state. - This has special affects in that this method would now ignore orderring. - - - - - Creates a new instance. - - the repository for this expectation - the recorder for this proxy - the proxy for this expectation - Expectation. - - - - Add constraints for the method's arguments. - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Set the return value for the method. - - The object the method will return - IRepeat that defines how many times the method will return this value - - - - Set the return value for the method, but allow to override this return value in the future - - IRepeat that defines how many times the method will return this value - - - - Throws the specified exception when the method is called. - - Exception to throw - - - - Ignores the arguments for this method. Any argument will be matched - againt this method. - - - - - Call the original method on the class, bypassing the mocking layers. - - - - - - Call the original method on the class, optionally bypassing the mocking layers - - - - - - Use the property as a simple property, getting/setting the values without - causing mock expectations. - - - - - Expect last (property) call as property setting, ignore the argument given - - - - - - Expect last (property) call as property setting with a given argument. - - - - - - - Gets the event raiser for the last event - - - - - Set the parameter values for out and ref parameters. - This is done using zero based indexing, and _ignoring_ any non out/ref parameter. - - - - - Repeat the method twice. - - - - - Repeat the method once. - - - - - Repeat the method at least once, then repeat as many time as it would like. - - - - - This method must not appear in the replay state. - - - - - Documentation message for the expectation - - Message - - - - Repeat the method any number of times. - - - - - Set the range to repeat an action. - - Min. - Max. - - - - Set the amount of times to repeat an action. - - - - - Better syntax to define repeats. - - - - - This class will provide hash code for hashtables without needing - to call the GetHashCode() on the object, which may very well be mocked. - This class has no state so it is a singelton to avoid creating a lot of objects - that does the exact same thing. See flyweight patterns. - - - - - Get the hash code for a proxy object without calling GetHashCode() - on the object. - - - - - Compares two instances of mocked objects - - - - - Compare two mocked objects - - - - - The next hash code value for a mock object. - This is safe for multi threading. - - - - - The sole instance of - - - - - This is a dummy type that is used merely to give DynamicProxy the proxy instance that - it needs to create IProxy's types. - - - - - Interface to find the repository of a mocked object - - - - - Return true if it should call the original method on the object - instead of pass it to the message chain. - - The method to call - - - - Register a method to be called on the object directly - - - - - Register a property on the object that will behave as a simple property - - - - - Check if the method was registered as a property method. - - - - - Do get/set on the property, according to need. - - - - - Do add/remove on the event - - - - - Get the subscribers of a spesific event - - - - - Gets the declaring type of the method, taking into acccount the possible generic - parameters that it was created with. - - - - - Clears the state of the object, remove original calls, property behavior, subscribed events, etc. - - - - - Get all the method calls arguments that were made against this object with the specificed - method. - - - Only method calls in replay mode are counted - - - - - Records the method call - - - - - Mocks that are tied to this mock lifestyle - - - - - The unique hash code of this mock, which is not related - to the value of the GetHashCode() call on the object. - - - - - Gets the repository. - - - - - Gets the implemented types by this mocked object - - The implemented. - - - - Gets or sets the constructor arguments. - - The constructor arguments. - - - - The mocked instance that this is representing - - - - - Create a new instance of - - - - - Return true if it should call the original method on the object - instead of pass it to the message chain. - - The method to call - - - - Register a method to be called on the object directly - - - - - Register a property on the object that will behave as a simple property - Return true if there is already a value for the property - - - - - Check if the method was registered as a property method. - - - - - Do get/set on the property, according to need. - - - - - Do add/remove on the event - - - - - Get the subscribers of a spesific event - - - - - Gets the declaring type of the method, taking into acccount the possible generic - parameters that it was created with. - - - - - Get all the method calls arguments that were made against this object with the specificed - method. - - - - - Only method calls in replay mode are counted - - - - - Records the method call - - - - - - - Clears the state of the object, remove original calls, property behavior, subscribed events, etc. - - - - - Mocks that are tied to this mock lifestyle - - - - - The unique hash code of this proxy, which is not related - to the value of the GetHashCode() call on the object. - - - - - Gets the repository. - - - - - Gets or sets the constructor arguments. - - The constructor arguments. - - - - The mocked instance that this is representing - - - - - Gets the implemented types by this mocked object - - The implemented. - - - - Range for expected method calls - - - - - Creates a new instance. - - Min. - Max. - - - - Return the string representation of this range. - - - - - Gets or sets the min. - - - - - - Gets or sets the max. - - - - - - Records all the expectations for a mock and - return a ReplayDynamicMockState when Replay() - is called. - - - - - Creates a new instance. - - Repository. - The proxy that generates the method calls - - - - Verify that we can move to replay state and move - to the reply state. - - - - - Get the default call count range expectation - - - - - - Gets a mock state that match the original mock state of the object. - - - - - Records all the expectations for a mock and - return a ReplayPartialMockState when Replay() - is called. - - - - - Creates a new instance. - - Repository. - The proxy that generates the method calls - - - - Verify that we can move to replay state and move - to the reply state. - - - - - Gets a mock state that matches the original mock state of the object. - - - - - Options for special repeat option - - - - - This method can be called only as many times as the IMethodOptions.Expect allows. - - - - - This method should never be called - - - - - This method can be call any number of times - - - - - This method will call the original method - - - - - This method will call the original method, bypassing the mocking layer - - - - - This method will simulate simple property behavior - - - - - Validate all expectations on a mock and ignores calls to - any method that was not setup properly. - - - - - Creates a new instance. - - The previous state for this method - - - - Add a method call for this state' mock. - - The invocation for this method - The method that was called - The arguments this method was called with - - - - Gets a mock state that match the original mock state of the object. - - - - - Validate all expectations on a mock and ignores calls to - any method that was not setup properly. - - - - - Creates a new instance. - - The previous state for this method - - - - Add a method call for this state' mock. - - The invocation for this method - The method that was called - The arguments this method was called with - - - - Gets a mock state that match the original mock state of the object. - - - - - Summary description for RhinoInterceptor. - - - - - Creates a new instance. - - - - - Intercept a method call and direct it to the repository. - - - - - Validate arguments for methods - - - - - Validate that the passed argument is not null. - - The object to validate - The name of the argument - - If the obj is null, an ArgumentNullException with the passed name - is thrown. - - - - - Validate that the arguments are equal. - - Expected args. - Actual Args. - - - - Validate that the two arguments are equals, including validation for - when the arguments are collections, in which case it will validate their values. - - - - - This method is safe for use even if any of the objects is a mocked object - that override equals. - - - - - Throw an object already verified when accessed - - - - - Create a new instance of VerifiedMockState - - The previous mock state, used to get the initial record state - - - - Add a method call for this state' mock. - - The invocation for this method - The method that was called - The arguments this method was called with - - - - Verify that this mock expectations have passed. - - - - - Verify that we can move to replay state and move - to the reply state. - - - - - Gets a mock state that match the original mock state of the object. - - - - - Get the options for the last method call - - - - - Set the exception to throw when Verify is called. - This is used to report exception that may have happened but where caught in the code. - This way, they are reported anyway when Verify() is called. - - - - - not relevant - - - - - Gets the matching verify state for this state - - - - - Get the options for the last method call - - - - - Records the actions on all the mocks created by a repository. - - - - - Records the specified call with the specified args on the mocked object. - - - - - Get the expectation for this method on this object with this arguments - - - - - This check the methods that were setup using the SetupResult.For() - or LastCall.Repeat.Any() and that bypass the whole expectation model. - - - - - Gets the all expectations for a mocked object and method combination, - regardless of the expected arguments / callbacks / contraints. - - Mocked object. - Method. - List of all relevant expectation - - - - Gets the all expectations for proxy. - - Mocked object. - List of all relevant expectation - - - - Removes all the repeatable expectations for proxy. - - Mocked object. - - - - Replaces the old expectation with the new expectation for the specified proxy/method pair. - This replace ALL expectations that equal to old expectations. - - Proxy. - Method. - Old expectation. - New expectation. - - - - Adds the recorder and turn it into the active recorder. - - Recorder. - - - - Moves to previous recorder. - - - - - Gets the recorded expectation or null. - - - - - Gets the next expected calls string. - - - - - Moves to parent recorder. - - - - - Set the expectation so it can repeat any number of times. - - - - - Removes the expectation from the recorder - - - - - Clear the replayer to call (and all its chain of replayers) - This also removes it from the list of expectations, so it will never be considered again - - - - - Get the expectation for this method on this object with this arguments - - - - - Gets a value indicating whether this instance has expectations that weren't satisfied yet. - - - true if this instance has expectations; otherwise, false. - - - - - Allows to set various options for the last method call on - a specified object. - If the method has a return value, it's recommended to use Expect - - - - - Allows to get an interface to work on the last call. - - The mocked object - Interface that allows to set options for the last method call on this object - - - - Set the return value for the method. - - The object the method will return - IRepeat that defines how many times the method will return this value - - - - Set the return value for the method. This overload is needed for LastCall.Return(null) - - The object the method will return - IRepeat that defines how many times the method will return this value - - - - Throws the specified exception when the method is called. - - Exception to throw - - - - Ignores the arguments for this method. Any argument will be matched - againt this method. - - - - - Add constraints for the method's arguments. - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Set a callback method for the last call - - - - - Call the original method on the class, bypassing the mocking layers, for the last call. - - - - - Call the original method on the class, optionally bypassing the mocking layers, for the last call. - - - - - Set a delegate to be called when the expectation is matched. - The delegate return value will be returned from the expectation. - - - - - Gets an interface that will raise the last event when called. - - - - - Set the parameter values for out and ref parameters. - This is done using zero based indexing, and _ignoring_ any non out/ref parameter. - - - - - Documentation message for the expectation - - Message - - - - Use the property as a simple property, getting/setting the values without - causing mock expectations. - - - - - Better syntax to define repeats. - - - - - Base class for method recorders, handle delegating to inner recorder if needed. - - - - - List of the expected actions on for this recorder - The legal values are: - * Expectations - * Method Recorders - - - - - The current recorder. - - - - - The current replayer; - - - - - The parent recorder of this one, may be null. - - - - - This contains a list of all the replayers that should be ignored - for a spesific method call. A replayer gets into this list by calling - ClearReplayerToCall() on its parent. This list is Clear()ed on each new invocation. - - - - - All the repeatable methods calls. - - - - - Counts the recursion depth of the current expectation search stack - - - - - Creates a new instance. - - - - - Creates a new instance. - - Parent recorder. - Repeatable methods - - - - Records the specified call with the specified args on the mocked object. - - - - - Get the expectation for this method on this object with this arguments - - - - - Gets the all expectations for a mocked object and method combination, - regardless of the expected arguments / callbacks / contraints. - - Mocked object. - Method. - List of all relevant expectation - - - - Gets the all expectations for proxy. - - Mocked object. - List of all relevant expectation - - - - Replaces the old expectation with the new expectation for the specified proxy/method pair. - This replace ALL expectations that equal to old expectations. - - Proxy. - Method. - Old expectation. - New expectation. - - - - Remove the all repeatable expectations for proxy. - - Mocked object. - - - - Set the expectation so it can repeat any number of times. - - - - - Removes the expectation from the recorder - - - - - Adds the recorder and turn it into the active recorder. - - Recorder. - - - - Moves to previous recorder. - - - - - Moves to parent recorder. - - - - - Gets the recorded expectation or null. - - - - - Clear the replayer to call (and all its chain of replayers). - This also removes it from the list of expectations, so it will never be considered again - - - - - Get the expectation for this method on this object with this arguments - - - - - Gets the next expected calls string. - - - - - Handles the real getting of the recorded expectation or null. - - - - - Handle the real execution of this method for the derived class - - - - - Handle the real execution of this method for the derived class - - - - - Handle the real execution of this method for the derived class - - - - - Handle the real execution of this method for the derived class - - - - - Handle the real execution of this method for the derived class - - - - - Handle the real execution of this method for the derived class - - - - - Should this replayer be considered valid for this call? - - - - - This check the methods that were setup using the SetupResult.For() - or LastCall.Repeat.Any() and that bypass the whole expectation model. - - - - - Gets a value indicating whether this instance has expectations that weren't satisfied yet. - - - true if this instance has expectations; otherwise, false. - - - - - Handle the real execution of this method for the derived class - - - - - Ordered collection of methods, methods must arrive in specified order - in order to pass. - - - - - Unordered collection of method records, any expectation that exist - will be matched. - - - - - The parent recorder we have redirected to. - Useful for certain edge cases in orderring. - See: FieldProblem_Entropy for the details. - - - - - Creates a new instance. - - Parent recorder. - Repeatable methods - - - - Creates a new instance. - - - - - Records the specified call with the specified args on the mocked object. - - Mocked object. - Method. - Expectation. - - - - Get the expectation for this method on this object with this arguments - - Invocation for this method - Mocked object. - Method. - Args. - True is the call was recorded, false otherwise - - - - Gets the all expectations for a mocked object and method combination, - regardless of the expected arguments / callbacks / contraints. - - Mocked object. - Method. - List of all relevant expectation - - - - Gets the all expectations for proxy. - - Mocked object. - List of all relevant expectation - - - - Replaces the old expectation with the new expectation for the specified proxy/method pair. - This replace ALL expectations that equal to old expectations. - - Proxy. - Method. - Old expectation. - New expectation. - - - - Handle the real execution of this method for the derived class - - - - - Handles the real getting of the recorded expectation or null. - - - - - Handle the real execution of this method for the derived class - - - - - Gets the next expected calls string. - - - - - Create an exception for an unexpected method call. - - - - - Gets a value indicating whether this instance has expectations that weren't satisfied yet. - - - true if this instance has expectations; otherwise, false. - - - - - Creates a new instance. - - Parent recorder. - Repetable methods - - - - Creates a new instance. - - - - - Handles the real getting of the recorded expectation or null. - - - - - Get the expectation for this method on this object with this arguments - - - - - Gets the next expected calls string. - - - - - Hold an expectation for a method call on an object - - - - - Creates a new instance. - - Proxy. - Method. - Expectation. - - - - Determines if the object equal to this instance - - Obj. - - - - - Gets the hash code. - - - - - - Gets the proxy. - - - - - - Gets the method. - - - - - - Gets the expectation. - - - - - - Holds a pair of mocked object and a method - and allows to compare them against each other. - This allows us to have a distinction between mockOne.MyMethod() and - mockTwo.MyMethod()... - - - - - Creates a new instance. - - Proxy. - Method. - - - - Determines whatever obj equals to this instance. - ProxyMethodPairs are equal when they point to the same /instance/ of - an object, and to the same method. - - Obj. - - - - - Gets the hash code. - - - - - - Gets the proxy. - - - - - - Gets the method. - - - - - - Change the recorder from ordered to unordered and vice versa - - - - - Creates a new instance. - - - - - Disposes this instance. - - - - - Accessor for the current mocker - - - - - The current mocker - - - - - Used for [assembly: InternalsVisibleTo(RhinoMocks.StrongName)] - Used for [assembly: InternalsVisibleTo(RhinoMocks.NormalName)] - - - - - Strong name for the Dynamic Proxy assemblies. Used for InternalsVisibleTo specification. - - - - - Normal name for dynamic proxy assemblies. Used for InternalsVisibleTo specification. - - - - - Logs all method calls for methods - - - - - Setup method calls to repeat any number of times. - - - - - Get the method options and set the last method call to repeat - any number of times. - This also means that the method would transcend ordering - - - - - Get the method options for the last method call on the mockInstance and set it - to repeat any number of times. - This also means that the method would transcend ordering - - - - - Utility class for working with method calls. - - - - - Return the string representation of a method call and its arguments. - - The method - The method arguments - Invocation of the method, used to get the generics arguments - Delegate to format the parameter - The string representation of this method call - - - - Return the string representation of a method call and its arguments. - - The invocation of the method, used to get the generic parameters - The method - The method arguments - The string representation of this method call - - - - Delegate to format the argument for the string representation of - the method call. - - - - - Utility to get the default value for a type - - - - - The default value for a type. - Null for reference types and void - 0 for value types. - First element for enums - Note that we need to get the value even for opened generic types, such as those from - generic methods. - - Type. - The invocation. - the default value - - - - Allows easier access to MockRepository, works closely with Mocker.Current to - allow access to a context where the mock repository is automatially verified at - the end of the code block. - - - - - Initialize a code block where Mocker.Current is initialized. - At the end of the code block, all the expectation will be verified. - This overload will create a new MockRepository. - - The code that will be executed under the mock context - - - - Initialize a code block where Mocker.Current is initialized. - At the end of the code block, all the expectation will be verified. - This overload will create a new MockRepository. - - The mock repository to use, at the end of the code block, VerifyAll() will be called on the repository. - The code that will be executed under the mock context - - - - Create a FluentMocker - - The mock repository to use. - - - - A method with no arguments and no return value that will be called under the mock context. - - - - - FluentMocker implements some kind of fluent interface attempt - for saying "With the Mocks [mocks], Expecting (in same order) [things] verify [that]." - - - - - Interface to verify previously defined expectations - - - - - Verifies if a piece of code - - - - - Defines unordered expectations - - A delegate describing the expectations - an IMockVerifier - - - - Defines ordered expectations - - A delegate describing the expectations - an IMockVerifier - - - - Verifies previously defined expectations - - - - - This delegate is compatible with the System.Func{T,R} signature - We have to define our own to get compatability with 2.0 - - - - - This attribute is here so we can get better Pex integration - Using this means that Pex will not try to inspect the work of - the actual proxies being generated by Rhino Mocks - - - - + + + + Rhino.Mocks + + + + + Defines constraints and return values for arguments of a mock. + Only use Arg inside a method call on a mock that is recording. + Example: + ExpectCall( + mock.foo( + Arg<int>.Is.GreaterThan(2), + Arg<string>.Is.Anything + )); + Use Arg.Text for string specific constraints + Use Arg<ListClass>.List for list specific constraints + + + + + + Register the predicate as a constraint for the current call. + + The predicate. + default(T) + + Allow you to use code to create constraints + + demo.AssertWasCalled(x => x.Bar(Arg{string}.Matches(a => a.StartsWith("b") && a.Contains("ba")))); + + + + + + Define a complex constraint for this argument by passing several constraints + combined with operators. (Use Is in simple cases.) + Example: Arg<string>.Matches(Is.Equal("Hello") || Text.EndsWith("u")); + + Constraints using Is, Text and List + Dummy to satisfy the compiler + + + + Define a Ref argument. + + Constraints for this argument + value returned by the mock + + + + + Define a out parameter. Use it together with the keyword out and use the + Dummy field available by the return value. + Example: mock.foo( out Arg<string>.Out("hello").Dummy ); + + + + + + + Define a simple constraint for this argument. (Use Matches in simple cases.) + Example: + Arg<int>.Is.Anthing + Arg<string>.Is.Equal("hello") + + + + + Define Constraints on list arguments. + + + + + Use the Arg class (without generic) to define Text constraints + + + + + Evaluate an equal constraint for . + + The object the parameter should equal to + + + + Define constraints on text arguments. + + + + + Used to manage the static state of the Arg<T> class"/> + + + + + Resets the static state + + + + + Returns return values for the out and ref parameters + Note: the array returned has the size of the number of out and ref + argument definitions + + + + + + Returns the constraints for all arguments. + Out arguments have an Is.Anything constraint and are also in the list. + + + + + + What should BackToRecord clear + + + + + Retain all expectations and behaviors and return to mock + + + + + All expectations + + + + + Event subscribers for this instance + + + + + Methods that should be forwarded to the base class implementation + + + + + Properties that should behave like properties + + + + + Remove all the behavior of the object + + + + + Interface for constraints + + + + + Determines if the object pass the constraints + + + + + And operator for constraints + + + + + Not operator for constraints + + + + + Or operator for constraints + + + + + Allow overriding of || or && + + + + + + + Allow overriding of || or && + + + + + + + Gets the message for this constraint + + + + + + Constrain that the public field has a specified value + + + + + Constrain that the public field matches another constraint. + + + + + Creates a new instance. + + Name of the public field. + Constraint to place on the public field value. + + + + Creates a new instance, specifying a disambiguating + for the public field. + + The type that declares the public field, used to disambiguate between public fields. + Name of the public field. + Constraint to place on the public field value. + + + + Determines if the object passes the constraint. + + + + + Gets the message for this constraint + + + + + + Creates a new instance. + + Name of the public field. + Expected value. + + + + Creates a new instance, specifying a disambiguating + for the public field. + + The type that declares the public field, used to disambiguate between public fields. + Name of the public field. + Expected value. + + + + Constrain that the property has a specified value + + + + + Constrain that the property matches another constraint. + + + + + Creates a new instance. + + Name of the property. + Constraint to place on the property value. + + + + Creates a new instance, specifying a disambiguating + for the property. + + The type that declares the property, used to disambiguate between properties. + Name of the property. + Constraint to place on the property value. + + + + Determines if the object passes the constraint. + + + + + Gets the message for this constraint + + + + + + Creates a new instance. + + Name of the property. + Expected value. + + + + Creates a new instance, specifying a disambiguating + for the property. + + The type that declares the property, used to disambiguate between properties. + Name of the property. + Expected value. + + + + Constrain that the parameter must be of the specified type + + + + + Creates a new instance. + + Type. + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Constraint that determines whether an object is the same object as another. + + + + + Creates a new instance. + + Obj. + + + + Determines if the object passes the constraints. + + + + + Gets the message for this constraint. + + + + + Evaluate a parameter using constraints + + + + + Create new instance + + + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + A constraint based on lambda expression, we are using Expression{T} + because we want to be able to get good error reporting on that. + + + + + Initializes a new instance of the class. + + The expr. + + + + Determines if the object pass the constraints + + + + + + + Gets the message for this constraint + + + + + + Constrain that the list contains the same items as the parameter list + + + + + Creates a new instance. + + In list. + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Constrain that the parameter is one of the items in the list + + + + + Creates a new instance. + + In list. + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Constrain that the object is inside the parameter list + + + + + Creates a new instance. + + In list. + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Applies another AbstractConstraint to the collection count. + + + + + Creates a new instance. + + The constraint that should be applied to the collection count. + + + + Determines if the parameter conforms to this constraint. + + + + + Gets the message for this constraint. + + + + + Applies another AbstractConstraint to a specific list element. + + + + + Creates a new instance. + + The zero-based index of the list element. + The constraint that should be applied to the list element. + + + + Determines if the parameter conforms to this constraint. + + + + + Gets the message for this constraint + + + + + + Applies another AbstractConstraint to a specific generic keyed list element. + + + + + Creates a new instance. + + The key of the list element. + The constraint that should be applied to the list element. + + + + Determines if the parameter conforms to this constraint. + + + + + Gets the message for this constraint + + + + + + Constrains that all elements are in the parameter list + + + + + Initializes a new instance of the class. + + The these. + + + + Determines if the object pass the constraints + + + + + + + Gets the message for this constraint + + + + + + Combines two constraints, constraint pass if either is fine. + + + + + Creates a new instance. + + C1. + C2. + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Negate a constraint + + + + + Creates a new instance. + + C1. + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Combines two constraints + + + + + + Creates a new instance. + + C1. + C2. + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Constrain the argument to validate according to regex pattern + + + + + Creates a new instance. + + Pattern. + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Constraint that evaluate whatever an argument contains the specified string. + + + + + Creates a new instance. + + Inner string. + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Constraint that evaluate whatever an argument ends with the specified string + + + + + Creates a new instance. + + End. + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Constraint that evaluate whatever an argument start with the specified string + + + + + Creates a new instance. + + Start. + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Constraint that evaluate whatever an object equals another + + + + + Creates a new instance. + + Obj. + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Constraint that always returns true + + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Constraint that evaluate whatever a comparable is greater than another + + + + + Creates a new instance. + + + + + Determines if the object pass the constraints + + + + + Gets the message for this constraint + + + + + + Initializes a new constraint object. + + The expected object, The actual object is passed in as a parameter to the method + + + + Evaluate this constraint. + + The actual object that was passed in the method call to the mock. + True when the constraint is met, else false. + + + + Checks if the properties of the object + are the same as the properies of the object. + + The expected object + The actual object + True when both objects have the same values, else False. + + + + + + + + + This is the real heart of the beast. + + + + Used by CheckReferenceType to check all properties of the reference type. + + The expected object + The actual object + True when both objects have the same values, else False. + + + + Used by CheckReferenceType to check all fields of the reference type. + + The expected object + The actual object + True when both objects have the same values, else False. + + + + Checks the items of both collections + + The expected collection + + True if both collections contain the same items in the same order. + + + + Builds a propertyname from the Stack _properties like 'Order.Product.Price' + to be used in the error message. + + A nested property name. + + + + Rhino.Mocks uses this property to generate an error message. + + + A message telling the tester why the constraint failed. + + + + + Provides access to the constraintes defined in the class to be used in context + with the syntax. + + The type of the argument + + + + Evaluate a greater than constraint for . + + The object the parameter should be greater than + + + + Evaluate a less than constraint for . + + The object the parameter should be less than + + + + Evaluate a less than or equal constraint for . + + The object the parameter should be less than or equal to + + + + Evaluate a greater than or equal constraint for . + + The object the parameter should be greater than or equal to + + + + Evaluate an equal constraint for . + + The object the parameter should equal to + + + + Converts the object type to a better match if this is a primitive type. + + The obj. + + + + + Converts the object type to match. + + + Because of implicit conversions and the way ArgConstraints this method is needed to check + object type and potentially change the object type for a better "match" so that obj1.Equals(obj2) + will return the proper "answer" + + The obj. + + + + + Evaluate a not equal constraint for . + + The object the parameter should not equal to + + + + Evaluate a same as constraint. + + The object the parameter should the same as. + + + + Evaluate a not same as constraint. + + The object the parameter should not be the same as. + + + + Throws NotSupportedException. Don't use Equals to define constraints. Use Equal instead. + + + + + + + Serves as a hash function for a particular type. + + + A hash code for the current . + + + + + A constraints that accept anything + + + + + + A constraint that accept only nulls + + + + + + A constraint that accept only non null values + + + + + + A constraint that accept only value of the specified type. + The check is performed on the type that has been defined + as the argument type. + + + + + Provides access to the constraints defined in the class to be used in context + with the syntax. + + + + + Determines whether the specified object is in the parameter. + The parameter must be IEnumerable. + + Obj. + + + + + Determines whatever the parameter is in the collection. + + + + + Determines that the parameter collection is identical to the specified collection + + + + + Determines that the parameter collection has the specified number of elements. + + The constraint that should be applied to the collection count. + + + + Determines that an element of the parameter collections conforms to another AbstractConstraint. + + The zero-based index of the list element. + The constraint which should be applied to the list element. + + + + Determines that all elements of the specified collection are in the the parameter collection + + The collection to compare against + The constraint which should be applied to the list parameter. + + + + Throws NotSupportedException. Don't use Equals to define constraints. Use Equal instead. + + + + + + + Serves as a hash function for a particular type. + + + A hash code for the current . + + + + + Provides a dummy field to pass as out or ref argument. + + + + + + Dummy field to satisfy the compiler. Used for out and ref arguments. + + + + + Central location for constraints for object's public fields + + + + + Constrains the parameter to have a public field with the specified value + + Name of the public field. + Expected value. + + + + + Constrains the parameter to have a public field with the specified value. + + The type that declares the public field, used to disambiguate between public fields. + Name of the public field. + Expected value. + + + + + Constrains the parameter to have a public field satisfying a specified constraint. + + Name of the public field. + Constraint for the public field. + + + + Constrains the parameter to have a public field satisfying a specified constraint. + + The type that declares the public field, used to disambiguate between public fields. + Name of the public field. + Constraint for the public field. + + + + Determines whether the parameter has the specified public field and that it is null. + + Name of the public field. + + + + + Determines whether the parameter has the specified public field and that it is null. + + The type that declares the public field, used to disambiguate between public fields. + Name of the public field. + + + + + Determines whether the parameter has the specified public field and that it is not null. + + Name of the public field. + + + + + Determines whether the parameter has the specified public field and that it is not null. + + The type that declares the public field, used to disambiguate between public fields. + Name of the public field. + + + + + Central location for constraints + + + + + Evaluate a greater than constraint for . + + The object the parameter should be greater than + + + + Evaluate a less than constraint for . + + The object the parameter should be less than + + + + Evaluate a less than or equal constraint for . + + The object the parameter should be less than or equal to + + + + Evaluate a greater than or equal constraint for . + + The object the parameter should be greater than or equal to + + + + Evaluate an equal constraint for . + + The object the parameter should equal to + + + + Evaluate a not equal constraint for . + + The object the parameter should not equal to + + + + Evaluate a same as constraint. + + The object the parameter should the same as. + + + + Evaluate a not same as constraint. + + The object the parameter should not be the same as. + + + + A constraints that accept anything + + + + + + A constraint that accept only nulls + + + + + + A constraint that accept only non null values + + + + + + A constraint that accept only value of the specified type + + + + + A constraint that accept only value of the specified type + + + + + Evaluate a parameter using a predicate + + The predicate to use + + + + Central location for constraints about lists and collections + + + + + Determines whether the specified obj is in the parameter. + The parameter must be IEnumerable. + + Obj. + + + + + Determines whatever the parameter is in the collection. + + + + + Determines that the parameter collection is identical to the specified collection + + + + + Determines that the parameter collection has the specified number of elements. + + The constraint that should be applied to the collection count. + + + + Determines that an element of the parameter collections conforms to another AbstractConstraint. + + The zero-based index of the list element. + The constraint which should be applied to the list element. + + + + Determines that an element of the parameter collections conforms to another AbstractConstraint. + + The key of the element. + The constraint which should be applied to the element. + + + + Determines that all elements of the specified collection are in the the parameter collection + + The collection to compare against + The constraint which should be applied to the list parameter. + + + + Central location for constraints for object's properties + + + + + Constrains the parameter to have property with the specified value + + Name of the property. + Expected value. + + + + + Constrains the parameter to have property with the specified value. + + The type that declares the property, used to disambiguate between properties. + Name of the property. + Expected value. + + + + + Constrains the parameter to have a property satisfying a specified constraint. + + Name of the property. + Constraint for the property. + + + + Constrains the parameter to have a property satisfying a specified constraint. + + The type that declares the property, used to disambiguate between properties. + Name of the property. + Constraint for the property. + + + + Determines whether the parameter has the specified property and that it is null. + + Name of the property. + + + + + Determines whether the parameter has the specified property and that it is null. + + The type that declares the property, used to disambiguate between properties. + Name of the property. + + + + + Determines whether the parameter has the specified property and that it is not null. + + Name of the property. + + + + + Determines whether the parameter has the specified property and that it is not null. + + The type that declares the property, used to disambiguate between properties. + Name of the property. + + + + + constraints the parameter to have the exact same property values as the expected object. + + An object, of the same type as the parameter, whose properties are set with the expected values. + An instance of the constraint that will do the actual check. + + The parameter's public property values and public field values will be matched against the expected object's + public property values and public field values. The first mismatch will be reported and no further matching is done. + The matching is recursive for any property or field that has properties or fields of it's own. + Collections are supported through IEnumerable, which means the constraint will check if the actual and expected + collection contain the same values in the same order, where the values contained by the collection can have properties + and fields of their own that will be checked as well because of the recursive nature of this constraint. + + + + + Central location for all text related constraints + + + + + Constrain the argument to starts with the specified string + + + + + Constrain the argument to end with the specified string + + + + + Constrain the argument to contain the specified string + + + + + Constrain the argument to validate according to regex pattern + + + + + Provides access to the constraintes defined in the class to be used in context + with the syntax. + + + + + Constrain the argument to starts with the specified string + + + + + + Constrain the argument to end with the specified string + + + + + Constrain the argument to contain the specified string + + + + + Constrain the argument to validate according to regex pattern + + + + + Throws NotSupportedException. Don't use Equals to define constraints. Use Equal instead. + + + + + + + Serves as a hash function for a particular type. + + + A hash code for the current . + + + + + This class defines a lot of method signatures, which we will use + to allow compatability on net-2.0 + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + dummy + + + + + Allows expectations to be set on methods that should never be called. + For methods with void return value, you need to use LastCall or + DoNotExpect.Call() with a delegate. + + + + + Sets LastCall.Repeat.Never() on /any/ proxy on /any/ repository on the current thread. + This method if not safe for multi threading scenarios. + + + + + Accepts a delegate that will execute inside the method which + LastCall.Repeat.Never() will be applied to. + It is expected to be used with anonymous delegates / lambda expressions and only one + method should be called. + + + IService mockSrv = mocks.CreateMock(typeof(IService)) as IService; + DoNotExpect.Call(delegate{ mockSrv.Stop(); }); + ... + + + + + An expectaton violation was detected. + + + + + Creates a new instance. + + Message. + + + + Serialization constructor + + + + + Signals that an object was call on a mock repository which doesn't + belong to this mock repository or not a mock + + + + + Creates a new instance. + + Message. + + + + Serialization constructor + + + + + Allows to set expectation on methods that has return values. + For methods with void return value, you need to use LastCall + + + + + The method options for the last call on /any/ proxy on /any/ repository on the current thread. + This method if not safe for multi threading scenarios, use . + + + + + Accepts a delegate that will execute inside the method, and then return the resulting + instance. + It is expected to be used with anonymous delegates / lambda expressions and only one + method should be called. + + + IService mockSrv = mocks.CreateMock(typeof(IService)) as IService; + Expect.Call(delegate{ mockSrv.Start(); }).Throw(new NetworkException()); + ... + + + + + Get the method options for the last method call on the mockInstance. + + + + + A delegate that can be used to get better syntax on Expect.Call(delegate { foo.DoSomething(); }); + + + + + Abstract class that holds common information for + expectations. + + + + + Interface to validate that a method call is correct. + + + + + Validate the arguments for the method. + This method can be called numerous times, so be careful about side effects + + The arguments with which the method was called + + + + Add an actual method call to this expectation + + + + + Returns the return value or throw the exception and setup any output / ref parameters + that has been set. + + + + + Builds the verification failure message. + + + + + + Gets the error message. + + + + + + Range of expected calls + + + + + Number of call actually made for this method + + + + + If this expectation is still waiting for calls. + + + + + The return value for a method matching this expectation + + + + + Gets or sets the exception to throw on a method matching this expectation. + + + + + Gets a value indicating whether this instance's action is staisfied. + A staisfied instance means that there are no more requirements from + this method. A method with non void return value must register either + a return value or an exception to throw. + + + + + Gets the method this expectation is for. + + + + + Gets or sets what special condtions there are for this method + repeating. + + + + + Gets a value indicating whether this expectation was satisfied + + + + + Specify whatever this expectation has a return value set + You can't check ReturnValue for this because a valid return value include null. + + + + + An action to execute when the method is matched. + + + + + Set the out / ref parameters for the method call. + The indexing is zero based and ignores any non out/ref parameter. + It is possible not to pass all the parameters. This method can be called only once. + + + + + Documentation Message + + + + + Gets the invocation for this expectation + + The invocation. + + + + Occurs when the exceptation is match on a method call + + + + + Allow to set the return value in the future, if it was already set. + + + + + Number of actuall calls made that passed this expectation + + + + + Range of expected calls that should pass this expectation. + + + + + The return value for a method matching this expectation + + + + + The exception to throw on a method matching this expectation. + + + + + The method this expectation is for. + + + + + The return value for this method was set + + + + + Whether this method will repeat + unlimited number of times. + + + + + A delegate that will be run when the + expectation is matched. + + + + + The arguments that matched this expectation. + + + + + Documentation message + + + + + The method originalInvocation + + + + + Get the hash code + + + + + Add an actual actualMethodCall call to this expectation + + + + + Builds the verification failure message. + + + + + + Returns the return value or throw the exception and setup output / ref parameters + + + + + Validate the arguments for the method on the child methods + + The arguments with which the method was called + + + + Creates a new instance. + + The originalInvocation for this method, required because it contains the generic type infromation + Number of method calls for this expectations + + + + Creates a new instance. + + Expectation. + + + + Validate the arguments for the method on the child methods + + The arguments with which the method was called + + + + Determines if this object equal to obj + + + + + The error message for these arguments + + + + + Asserts that the delegate has the same parameters as the expectation's method call + + + + + Setter for the outpur / ref parameters for this expecataion. + Can only be set once. + + + + + Specify whether this expectation has a return value set + You can't check ReturnValue for this because a valid return value include null. + + + + + Gets the method this expectation is for. + + + + + Gets the originalInvocation for this expectation + + The originalInvocation. + + + + Gets or sets what special condtions there are for this method + + + + + Range of expected calls + + + + + Number of call actually made for this method + + + + + If this expectation is still waiting for calls. + + + + + Gets a value indicating whether this expectation was satisfied + + + + + The return value for a method matching this expectation + + + + + An action to execute when the method is matched. + + + + + Gets or sets the exception to throw on a method matching this expectation. + + + + + Gets a value indicating whether this instance's action is staisfied. + A staisfied instance means that there are no more requirements from + this method. A method with non void return value must register either + a return value or an exception to throw or an action to execute. + + + + + Documentation message + + + + + Occurs when the exceptation is match on a method call + + + + + Allow to set the return value in the future, if it was already set. + + + + + Gets the error message. + + + + + + Expectation that matches any arguments for the method. + + + + + Creates a new instance. + + Invocation for this expectation + Number of method calls for this expectations + + + + Creates a new instance. + + Expectation. + + + + Validate the arguments for the method. + + The arguments with which the method was called + + + + Determines if the object equal to expectation + + + + + Get the hash code + + + + + Gets the error message. + + + + + + Summary description for ArgsEqualExpectation. + + + + + Creates a new instance. + + Expected args. + The invocation for this expectation + Number of method calls for this expectations + + + + Validate the arguments for the method. + + The arguments with which the method was called + + + + Determines if the object equal to expectation + + + + + Get the hash code + + + + + Gets the error message. + + + + + + Get the expected args. + + + + + Call a specified callback to verify the expectation + + + + + Creates a new instance. + + Expectation. + Callback. + + + + Creates a new instance. + + Invocation for this expectation + Callback. + Number of method calls for this expectations + + + + Validate the arguments for the method on the child methods + + The arguments with which the method was called + + + + Determines if the object equal to expectation + + + + + Get the hash code + + + + + Gets the error message. + + + + + + Expect the method's arguments to match the contraints + + + + + Creates a new instance. + + Invocation for this expectation + Constraints. + Number of method calls for this expectations + + + + Creates a new instance. + + Expectation. + Constraints. + + + + Validate the arguments for the method. + + The arguments with which the method was called + + + + Determines if the object equal to expectation + + + + + Get the hash code + + + + + Gets the error message. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Summary for AndSpecification + + + + + + + + + + + + + + + + + + + + + + Summary description for FollowsEventNamingStandard + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Summary descritpion for NamedEventExistsOnDeclaringType + + + + + + + + + Doesn't log anything, just makes happy noises + + + + + Log expectations - allows to see what is going on inside Rhino Mocks + + + + + Logs the expectation as is was recorded + + The invocation. + The expectation. + + + + Logs the expectation as it was recorded + + The invocation. + The expectation. + + + + Logs the unexpected method call. + + The invocation. + The message. + + + + Logs the expectation as is was recorded + + The invocation. + The expectation. + + + + Logs the expectation as it was recorded + + The invocation. + The expectation. + + + + Logs the unexpected method call. + + The invocation. + The message. + + + + Operation on a remoting proxy + + + It is not possible to directly communicate to a real proxy via transparent proxy. + Transparent proxy impersonates a user type and only methods of that user type are callable. + The only methods that are guaranteed to exist on any transparent proxy are methods defined + in Object: namely ToString(), GetHashCode(), and Equals()). + + These three methods are the only way to tell the real proxy to do something. + Equals() is the most suitable of all, since it accepts an arbitrary object parameter. + The RemotingProxy code is built so that if it is compared to an IRemotingProxyOperation, + transparentProxy.Equals(operation) will call operation.Process(realProxy). + This way we can retrieve a real proxy from transparent proxy and perform + arbitrary operation on it. + + + + + Generates remoting proxies and provides utility functions + + + + + Create the proxy using remoting + + + + + Check whether an object is a transparent proxy with a RemotingProxy behind it + + Object to check + true if the object is a transparent proxy with a RemotingProxy instance behind it, false otherwise + We use Equals() method to communicate with the real proxy behind the object. + See IRemotingProxyOperation for more details + + + + Retrieve a mocked object from a transparent proxy + + Transparent proxy with a RemotingProxy instance behind it + Mocked object associated with the proxy + We use Equals() method to communicate with the real proxy behind the object. + See IRemotingProxyOperation for more details + + + + Implementation of IInvocation based on remoting proxy + + Some methods are marked NotSupported since they either don't make sense + for remoting proxies, or they are never called by Rhino Mocks + + + + Rudimetry implementation that simply logs methods calls as text. + + + + + Initializes a new instance of the class. + + The writer. + + + + Logs the expectation as it was recorded + + The invocation. + The expectation. + + + + Logs the expectation as it was recorded + + The invocation. + The expectation. + + + + Logs the unexpected method call. + + The invocation. + The message. + + + + Behave like a stub, all properties and events acts normally, methods calls + return default values by default (but can use expectations to set them up), etc. + + + + + Records all the expectations for a mock + + + + + Different actions on this mock + + + + + Add a method call for this state' mock. + + The invocation for this method + The method that was called + The arguments this method was called with + + + + Verify that this mock expectations have passed. + + + + + Verify that we can move to replay state and move + to the reply state. + + + + + Gets a mock state that match the original mock state of the object. + + + + + Get the options for the last method call + + + + + Set the exception to throw when Verify is called. + This is used to report exception that may have happened but where caught in the code. + This way, they are reported anyway when Verify() is called. + + + + + This method is called to indicate that a property behavior call. + This is done so we generate good error message in the common case of people using + Stubbed properties with Return(). + + + + + Gets the matching verify state for this state + + + + + Get the options for the last method call + + + + + Get the options for the last method call + + + + + Set the exception to throw when Verify is called. + This is used to report exception that may have happened but where caught in the code. + This way, they are reported anyway when Verify() is called. + + + + + This method is called to indicate that a property behavior call. + This is done so we generate good error message in the common case of people using + Stubbed properties with Return(). + + + + + Creates a new instance. + + Repository. + The proxy that generates the method calls + + + + Add a method call for this state' mock. + + The invocation for this method + The method that was called + The arguments this method was called with + + + + Verify that we can move to replay state and move + to the reply state. + + + + + Verify that we can move to replay state and move + to the reply state. + + + + + Verify that this mock expectations have passed. + + + + + Gets a mock state that match the original mock state of the object. + + + + + Asserts the previous method is closed (had an expectation set on it so we can replay it correctly) + + + + + Get the default call count range expectation + + + + + + Gets the last expectation. + + + + + Gets the total method calls count. + + + + + Get the options for the last method call + + + + + Gets the matching verify state for this state + + + + + Initializes a new instance of the class. + + The proxy that generates the method calls + Repository. + + + + We don't care much about expectations here, so we will remove the expectation if + it is not closed. + + + + + Verify that we can move to replay state and move + to the reply state. + + + + + + Get the default call count range expectation + + + + + + Validate expectations on recorded methods, but in general completely ignoring them. + Similar to except that it would return a + when BackToRecord is called. + + + + + Validate all expectations on a mock + + + + + The repository for this state + + + + + The proxy object for this state + + + + + Get the options for the last method call + + + + + Creates a new instance. + + The previous state for this method + + + + Add a method call for this state' mock. + + The invocation for this method + The method that was called + The arguments this method was called with + + + + Add a method call for this state' mock. + This allows derived method to cleanly get a the setupresult behavior while adding + their own. + + The invocation for this method + The method that was called + The arguments this method was called with + + + + Set the exception to throw when Verify is called. + This is used to report exception that may have happened but where caught in the code. + This way, they are reported anyway when Verify() is called. + + + + + not relevant + + + + + Verify that this mock expectations have passed. + + + + + Verify that we can move to replay state and move + to the reply state. + + + + + Gets a mock state that match the original mock state of the object. + + + + + Get the options for the last method call + + + + + Gets the matching verify state for this state + + + + + Initializes a new instance of the class. + + The previous state for this method + + + + Add a method call for this state' mock. + + The invocation for this method + The method that was called + The arguments this method was called with + + + + Gets a mock state that matches the original mock state of the object. + + + + + Write rhino mocks log info to the trace + + + + + Initializes a new instance of the class. + + + + + Initializes a new instance of the class. + + if set to true [log recorded]. + if set to true [log replayed]. + if set to true [log unexpected]. + + + + Logs the expectation as is was recorded + + The invocation. + The expectation. + + + + Logs the expectation as it was recorded + + The invocation. + The expectation. + + + + Logs the unexpected method call. + + The invocation. + The message. + + + + Writes log information as stack traces about rhino mocks activity + + + + + Allows to redirect output to a different location. + + + + + Logs the expectation as is was recorded + + The invocation. + The expectation. + + + + Logs the expectation as it was recorded + + The invocation. + The expectation. + + + + Logs the unexpected method call. + + The invocation. + The message. + + + + Marker interface used to indicate that this is a partial mock. + + + + + Options for CallOriginalMethod + + + + + No expectation is created, the method will be called directly + + + + + Normal expectation is created, but when the method is later called, it will also call the original method + + + + + This is a data structure that is used by + to pass + the current method to the relevant delegate + + + + + Initializes a new instance of the class. + + The invocation. + + + + Gets the args for this method invocation + + + + + Get the method that was caused this invocation + + + + + Gets or sets the return value for this method invocation + + The return value. + + + + Adds optional new usage: + using(mockRepository.Record()) { + Expect.Call(mock.Method()).Return(retVal); + } + using(mockRepository.Playback()) { + // Execute code + } + N.B. mockRepository.ReplayAll() and mockRepository.VerifyAll() + calls are taken care of by Record/Playback + + + Creates proxied instances of types. + + + + Generates a stub without needing a + Arguments for 's constructor + The of stub to create. + The stub + + + + Generates a stub without needing a + The of stub. + Arguments for the 's constructor. + The stub + + + + Generate a mock object without needing a + type of mock object to create. + Arguments for 's constructor + the mock object + + + + Generate a multi-mock object without needing a + The typeof object to generate a mock for. + A second interface to generate a multi-mock for. + Arguments for 's constructor + the multi-mock object + + + + Generate a multi-mock object without without needing a + The typeof object to generate a mock for. + An interface to generate a multi-mock for. + A second interface to generate a multi-mock for. + Arguments for 's constructor + the multi-mock object + + + + Creates a multi-mock without without needing a + The type of mock to create, this can be a class + Any extra interfaces to add to the multi-mock, these can only be interfaces. + Arguments for 's constructor + the multi-mock object + + + + Creates a strict mock without without needing a + Any arguments required for the 's constructor + The type of mock object to create. + The mock object with strict replay semantics + + + + Creates a strict multi-mock without needing a + Any arguments required for the 's constructor + The type of mock object to create, this can be a class. + An interface to generate a multi-mock for, this must be an interface! + The multi-mock object with strict replay semantics + + + + Creates a strict multi-mock without needing a + Any arguments required for the 's constructor + The type of mock object to create, this can be a class. + An interface to generate a multi-mock for, this must be an interface! + A second interface to generate a multi-mock for, this must be an interface! + The multi-mock object with strict replay semantics + + + + Creates a strict multi-mock without needing a + The type of mock object to create, this can be a class + Any extra interfaces to generate a multi-mock for, these must be interaces! + Any arguments for the 's constructor + The strict multi-mock object + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Generate a mock object with dynamic replay semantics and remoting without needing the mock repository + + + + + Generate a mock object with strict replay semantics and remoting without needing the mock repository + + + + Helper method to create a mock object without a repository instance and put the object back into replay mode. + The type of mock object to create + A delegate that uses a mock repository instance to create the underlying mock + The mock object in the replay mode. + + + + + + + + + + + + + + This is a map of types to ProxyGenerators. + + + + + This is used to record the last repository that has a method called on it. + + + + + this is used to get to the last proxy on this repository. + + + + + For mock delegates, maps the proxy instance from intercepted invocations + back to the delegate that was originally returned to client code, if any. + + + + + All the proxies in the mock repositories + + + + + This is here because we can't put it in any of the recorders, since repeatable methods + have no orderring, and if we try to handle them using the usual manner, we would get into + wierd situations where repeatable method that was defined in an orderring block doesn't + exists until we enter this block. + + + + + Creates a new instance. + + + + + Move the repository to ordered mode + + + + + Move the repository to un-ordered mode + + + + + Creates a mock for the specified type. + + Type. + Arguments for the class' constructor, if mocking a concrete class + + + + Creates a strict mock for the specified type. + + Type. + Arguments for the class' constructor, if mocking a concrete class + + + + Creates a remoting mock for the specified type. + + Type. + Arguments for the class' constructor, if mocking a concrete class + + + + Creates a strict remoting mock for the specified type. + + Type. + Arguments for the class' constructor, if mocking a concrete class + + + + Creates a remoting mock for the specified type. + + + Arguments for the class' constructor, if mocking a concrete class + + + + + Creates a strict remoting mock for the specified type. + + + Arguments for the class' constructor, if mocking a concrete class + + + + + Creates a mock from several types, with strict semantics. + Only may be a class. + + + + + Creates a strict mock from several types, with strict semantics. + Only may be a class. + + + + + Creates a mock from several types, with strict semantics. + Only may be a class. + + The main type to mock. + Extra interface types to mock. + Arguments for the class' constructor, if mocking a concrete class. + + + + Creates a strict mock from several types, with strict semantics. + Only may be a class. + + The main type to mock. + Extra interface types to mock. + Arguments for the class' constructor, if mocking a concrete class. + + + + Creates a mock from several types, with dynamic semantics. + Only may be a class. + + The main type to mock. + Extra interface types to mock. + + + + Creates a mock from several types, with dynamic semantics. + Only may be a class. + + The main type to mock. + Extra interface types to mock. + Arguments for the class' constructor, if mocking a concrete class. + + + Creates a dynamic mock for the specified type. + Type. + Arguments for the class' constructor, if mocking a concrete class + + + Creates a dynamic mock for the specified type. + Type. + Arguments for the class' constructor, if mocking a concrete class + + + Creates a dynamic mock for the specified type. + + Arguments for the class' constructor, if mocking a concrete class + + + + Creates a mock object that defaults to calling the class methods if no expectation is set on the method. + Type. + Arguments for the class' constructor. + + + Creates a mock object that defaults to calling the class methods. + Type. + Extra interface types to mock. + + + Creates a mock object that defaults to calling the class methods. + Type. + Extra interface types to mock. + Arguments for the class' constructor. + + + Creates a mock object using remoting proxies + Type to mock - must be MarshalByRefObject + Mock object + Proxy mock can mock non-virtual methods, but not static methods + Creates the mock state for this proxy + + + + Cause the mock state to change to replay, any further call is compared to the + ones that were called in the record state. + + This method *cannot* be called from inside an ordering. + the object to move to replay state + + + + Cause the mock state to change to replay, any further call is compared to the + ones that were called in the record state. + + the object to move to replay state + + + + Move the mocked object back to record state.You can (and it's recommended) to run {Verify()} before you use this method. + Will delete all current expectations! + + + + Move the mocked object back to record state. + Optionally, can delete all current expectations, but allows more granularity about how + it would behave with regard to the object state. + + + + + Verify that all the expectations for this object were fulfilled. + + the object to verify the expectations for + + + + Get the method options for the last call on + mockedInstance. + + The mock object + Method options for the last call + + + + Maps an invocation proxy back to the mock object instance that was originally + returned to client code which might have been a delegate to this proxy. + + The mock object proxy from the intercepted invocation + The mock object + + + This is provided to allow advance extention functionality, where Rhino Mocks standard functionality is not enough. + The type to mock + Delegate that create the first state of the mocked object (usualy the record state). + Additional types to be implemented, this can be only interfaces + optional arguments for the constructor + + + + + Method: GetMockedObject + Get an IProxy from a mocked object instance, or throws if the + object is not a mock object. + + + + + Method: GetMockedObjectOrNull + Get an IProxy from a mocked object instance, or null if the + object is not a mock object. + + + + Pops the recorder. + + + Pushes the recorder. + New recorder. + + + + All the mock objects in this repository will be moved + to record state. + + + + + All the mock objects in this repository will be moved + to record state. + + + + + Replay all the mocks from this repository + + + + + Verify all the mocks from this repository + + + + + Gets the proxy generator for a specific type. Having a single ProxyGenerator + with multiple types linearly degrades the performance so this implementation + keeps one ProxyGenerator per type. + + + + Set the exception to be thrown when verified is called. + + + + Creates a mock for the spesified type with strict mocking semantics. + Strict semantics means that any call that wasn't explicitly recorded is considered an error and would cause an exception to be thrown. + + Arguments for the class' constructor, if mocking a concrete class + + + + Creates a mock for the spesified type with strict mocking semantics. + Strict semantics means that any call that wasn't explicitly recorded is considered an error and would cause an exception to be thrown. + + Arguments for the class' constructor, if mocking a concrete class + + + + Creates a dynamic mock for the specified type. + + Arguments for the class' constructor, if mocking a concrete class + + + + Creates a mock object from several types. + + + + + Creates a strict mock object from several types. + + + + + Create a mock object from several types with dynamic semantics. + + + + + Create a mock object from several types with partial semantics. + + + + + Create a mock object from several types with strict semantics. + + Extra interface types to mock. + Arguments for the class' constructor, if mocking a concrete class + + + + Create a strict mock object from several types with strict semantics. + + Extra interface types to mock. + Arguments for the class' constructor, if mocking a concrete class + + + + Create a mock object from several types with dynamic semantics. + + Extra interface types to mock. + Arguments for the class' constructor, if mocking a concrete class + + + + Create a mock object from several types with partial semantics. + + Extra interface types to mock. + Arguments for the class' constructor, if mocking a concrete class + + + + Create a mock object with from a class that defaults to calling the class methods + + Arguments for the class' constructor, if mocking a concrete class + + + + Create a stub object, one that has properties and events ready for use, and + can have methods called on it. It requires an explicit step in order to create + an expectation for a stub. + + The arguments for constructor. + + + + Create a stub object, one that has properties and events ready for use, and + can have methods called on it. It requires an explicit step in order to create + an expectation for a stub. + + The type. + The arguments for constructor. + The stub + + + + Returns true if the passed mock is currently in replay mode. + + The mock to test. + True if the mock is in replay mode, false otherwise. + + + + Determines whether the specified proxy is a stub. + + The proxy. + + + + Register a call on a prperty behavior + + + + + + Gets the recorder. + + + + + + Gets the replayer for this repository. + + + + + + Gets the last proxy which had a method call. + + + + + Delegate: CreateMockState + This is used internally to cleanly handle the creation of different + RecordMockStates. + + + + + A set of extension methods that adds Arrange Act Assert mode to Rhino Mocks + + + + + Create an expectation on this mock for this action to occur + + + The mock. + The action. + + + + + Reset all expectations on this mock object + + + The mock. + + + + Reset the selected expectation on this mock object + + + The mock. + The options to reset the expectations on this mock. + + + + Cause the mock state to change to replay, any further call is compared to the + ones that were called in the record state. + + the mocked object to move to replay state + + + + Gets the mock repository for this specificied mock object + + + The mock. + + + + + Create an expectation on this mock for this action to occur + + + + The mock. + The action. + + + + + Tell the mock object to perform a certain action when a matching + method is called. + Does not create an expectation for this method. + + + The mock. + The action. + + + + + Tell the mock object to perform a certain action when a matching + method is called. + Does not create an expectation for this method. + + + + The mock. + The action. + + + + + Gets the arguments for calls made on this mock object and the method that was called + in the action. + + + The mock. + The action. + + + Here we will get all the arguments for all the calls made to DoSomething(int) + + var argsForCalls = foo54.GetArgumentsForCallsMadeOn(x => x.DoSomething(0)) + + + + + + Gets the arguments for calls made on this mock object and the method that was called + in the action and matches the given constraints + + + The mock. + The action. + The setup constraints. + + + Here we will get all the arguments for all the calls made to DoSomething(int) + + var argsForCalls = foo54.GetArgumentsForCallsMadeOn(x => x.DoSomething(0)) + + + + + + Asserts that a particular method was called on this mock object + + + The mock. + The action. + + + + Asserts that a particular method was called on this mock object that match + a particular constraint set. + + + The mock. + The action. + The setup constraints. + + + + Asserts that a particular method was called on this mock object that match + a particular constraint set. + + + The mock. + The action. + + + + Asserts that a particular method was called on this mock object that match + a particular constraint set. + + + The mock. + The action. + The setup constraints. + + + + Asserts that a particular method was NOT called on this mock object + + + The mock. + The action. + + + + Asserts that a particular method was NOT called on this mock object that match + a particular constraint set. + + + The mock. + The action. + The setup constraints. + + + + Asserts that a particular method was NOT called on this mock object + + + The mock. + The action. + + + + Asserts that a particular method was NOT called on this mock object + + + The mock. + The action. + The setup constraints. + + + + Finds the approprite implementation type of this item. + This is the class or an interface outside of the rhino mocks. + + The mocked obj. + + + + + Verifies all expectations on this mock object + + The mock object. + + + + Gets the event raiser for the event that was called in the action passed + + The type of the event source. + The mock object. + The event subscription. + + + + + Raise the specified event using the passed arguments. + The even is extracted from the passed labmda + + The type of the event source. + The mock object. + The event subscription. + The sender. + The instance containing the event data. + + + + Raise the specified event using the passed arguments. + The even is extracted from the passed labmda + + The type of the event source. + The mock object. + The event subscription. + The args. + + + TODO: Make this better! It currently breaks down when mocking classes or + ABC's that call other virtual methods which are getting intercepted too. I wish + we could just walk Expression{Action{Action{T}} to assert only a single + method is being made. + + The workaround is to not call foo.AssertWasCalled .. rather foo.VerifyAllExpectations() + The type of mock object + The mock repository + The actual mock object to assert expectations on. + + + + Fake type that disallow creating it. + Should have been System.Type, but we can't use it. + + + + + Utility class for dealing with messing generics scenarios. + + + + + There are issues with trying to get this to work correctly with open generic types, since this is an edge case, + I am letting the runtime handle it. + + + + + Gets the real type, including de-constructing and constructing the type of generic + methods parameters. + + The type. + The invocation. + + + + + Because we need to support complex types here (simple generics were handled above) we + need to be aware of the following scenarios: + List[T] and List[Foo[T]] + + + + + ExpectationsList + + + + + Dictionary + + + + + Dictionary class + + + + + Create a new instance of ProxyStateDictionary + + + + + Allows to call a method and immediately get it's options. + + + + + Interface to allow calling a method and immediately get it's options. + + + + + Get the method options for the call + + The method call should go here, the return value is ignored + + + + Creates a new instance. + + + + + Get the method options for the call + + The method call should go here, the return value is ignored + + + + Allows to call a method and immediately get it's options. + Set the expected number for the call to Any() + + + + + Creates a new instance. + + Proxy. + Mocked instance. + + + + Get the method options for the call + + The method call should go here, the return value is ignored + + + + This class is reponsible for taking a delegate and creating a wrapper + interface around it, so it can be mocked. + + + + + The scope for all the delegate interfaces create by this mock repository. + + + + + Gets a type with an "Invoke" method suitable for use as a target of the + specified delegate type. + + + + + + + Raise events for all subscribers for an event + + + + + Raise events for all subscribers for an event + + + + + Raise the event + + + + + The most common form for the event handler signature + + + + + Create an event raiser for the specified event on this instance. + + + + + Creates a new instance of EventRaiser + + + + + Raise the event + + + + + The most common signature for events + Here to allow intellisense to make better guesses about how + it should suggest parameters. + + + + + Allows to define what would happen when a method + is called. + + + + + Allows to define what would happen when a method + is called. + + + + + Set the return value for the method. + + The object the method will return + IRepeat that defines how many times the method will return this value + + + + Allow to override this return value in the future + + IRepeat that defines how many times the method will return this value + + + + Throws the specified exception when the method is called. + + Exception to throw + + + + Ignores the arguments for this method. Any argument will be matched + againt this method. + + + + + Add constraints for the method's arguments. + + + + + Set a callback method for the last call + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched + and allow to optionally modify the invocation as needed + + + + + Call the original method on the class, bypassing the mocking layers. + + + + + + Call the original method on the class, optionally bypassing the mocking layers. + + + + + + Use the property as a simple property, getting/setting the values without + causing mock expectations. + + + + + Expect last (property) call as property setting, ignore the argument given + + + + + + Expect last (property) call as property setting with a given argument. + + + + + + + Get an event raiser for the last subscribed event. + + + + + Set the parameter values for out and ref parameters. + This is done using zero based indexing, and _ignoring_ any non out/ref parameter. + + + + + Documentation message for the expectation + + Message + + + + Better syntax to define repeats. + + + + + Allows to specify the number of time for method calls + + + + + Repeat the method twice. + + + + + Repeat the method once. + + + + + Repeat the method at least once, then repeat as many time as it would like. + + + + + Repeat the method any number of times. + This has special affects in that this method would now ignore orderring. + + + + + Set the range to repeat an action. + + Min. + Max. + + + + Set the amount of times to repeat an action. + + + + + This method must not appear in the replay state. + This has special affects in that this method would now ignore orderring. + + + + + Creates a new instance. + + the repository for this expectation + the recorder for this proxy + the proxy for this expectation + Expectation. + + + + Add constraints for the method's arguments. + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Set the return value for the method. + + The object the method will return + IRepeat that defines how many times the method will return this value + + + + Set the return value for the method, but allow to override this return value in the future + + IRepeat that defines how many times the method will return this value + + + + Throws the specified exception when the method is called. + + Exception to throw + + + + Ignores the arguments for this method. Any argument will be matched + againt this method. + + + + + Call the original method on the class, bypassing the mocking layers. + + + + + + Call the original method on the class, optionally bypassing the mocking layers + + + + + + Use the property as a simple property, getting/setting the values without + causing mock expectations. + + + + + Expect last (property) call as property setting, ignore the argument given + + + + + + Expect last (property) call as property setting with a given argument. + + + + + + + Gets the event raiser for the last event + + + + + Set the parameter values for out and ref parameters. + This is done using zero based indexing, and _ignoring_ any non out/ref parameter. + + + + + Repeat the method twice. + + + + + Repeat the method once. + + + + + Repeat the method at least once, then repeat as many time as it would like. + + + + + This method must not appear in the replay state. + + + + + Documentation message for the expectation + + Message + + + + Repeat the method any number of times. + + + + + Set the range to repeat an action. + + Min. + Max. + + + + Set the amount of times to repeat an action. + + + + + Better syntax to define repeats. + + + + + This class will provide hash code for hashtables without needing + to call the GetHashCode() on the object, which may very well be mocked. + This class has no state so it is a singelton to avoid creating a lot of objects + that does the exact same thing. See flyweight patterns. + + + + + Get the hash code for a proxy object without calling GetHashCode() + on the object. + + + + + Compares two instances of mocked objects + + + + + Compare two mocked objects + + + + + The next hash code value for a mock object. + This is safe for multi threading. + + + + + The sole instance of + + + + + This is a dummy type that is used merely to give DynamicProxy the proxy instance that + it needs to create IProxy's types. + + + + + Interface to find the repository of a mocked object + + + + + Return true if it should call the original method on the object + instead of pass it to the message chain. + + The method to call + + + + Register a method to be called on the object directly + + + + + Register a property on the object that will behave as a simple property + + + + + Check if the method was registered as a property method. + + + + + Do get/set on the property, according to need. + + + + + Do add/remove on the event + + + + + Get the subscribers of a spesific event + + + + + Gets the declaring type of the method, taking into acccount the possible generic + parameters that it was created with. + + + + + Clears the state of the object, remove original calls, property behavior, subscribed events, etc. + + + + + Get all the method calls arguments that were made against this object with the specificed + method. + + + Only method calls in replay mode are counted + + + + + Records the method call + + + + + Mocks that are tied to this mock lifestyle + + + + + The unique hash code of this mock, which is not related + to the value of the GetHashCode() call on the object. + + + + + Gets the repository. + + + + + Gets the implemented types by this mocked object + + The implemented. + + + + Gets or sets the constructor arguments. + + The constructor arguments. + + + + The mocked instance that this is representing + + + + + Create a new instance of + + + + + Return true if it should call the original method on the object + instead of pass it to the message chain. + + The method to call + + + + Register a method to be called on the object directly + + + + + Register a property on the object that will behave as a simple property + Return true if there is already a value for the property + + + + + Check if the method was registered as a property method. + + + + + Do get/set on the property, according to need. + + + + + Do add/remove on the event + + + + + Get the subscribers of a spesific event + + + + + Gets the declaring type of the method, taking into acccount the possible generic + parameters that it was created with. + + + + + Get all the method calls arguments that were made against this object with the specificed + method. + + + + + Only method calls in replay mode are counted + + + + + Records the method call + + + + + + + Clears the state of the object, remove original calls, property behavior, subscribed events, etc. + + + + + Mocks that are tied to this mock lifestyle + + + + + The unique hash code of this proxy, which is not related + to the value of the GetHashCode() call on the object. + + + + + Gets the repository. + + + + + Gets or sets the constructor arguments. + + The constructor arguments. + + + + The mocked instance that this is representing + + + + + Gets the implemented types by this mocked object + + The implemented. + + + + Range for expected method calls + + + + + Creates a new instance. + + Min. + Max. + + + + Return the string representation of this range. + + + + + Gets or sets the min. + + + + + + Gets or sets the max. + + + + + + Records all the expectations for a mock and + return a ReplayDynamicMockState when Replay() + is called. + + + + + Creates a new instance. + + Repository. + The proxy that generates the method calls + + + + Verify that we can move to replay state and move + to the reply state. + + + + + Get the default call count range expectation + + + + + + Gets a mock state that match the original mock state of the object. + + + + + Records all the expectations for a mock and + return a ReplayPartialMockState when Replay() + is called. + + + + + Creates a new instance. + + Repository. + The proxy that generates the method calls + + + + Verify that we can move to replay state and move + to the reply state. + + + + + Gets a mock state that matches the original mock state of the object. + + + + + Options for special repeat option + + + + + This method can be called only as many times as the IMethodOptions.Expect allows. + + + + + This method should never be called + + + + + This method can be call any number of times + + + + + This method will call the original method + + + + + This method will call the original method, bypassing the mocking layer + + + + + This method will simulate simple property behavior + + + + + Validate all expectations on a mock and ignores calls to + any method that was not setup properly. + + + + + Creates a new instance. + + The previous state for this method + + + + Add a method call for this state' mock. + + The invocation for this method + The method that was called + The arguments this method was called with + + + + Gets a mock state that match the original mock state of the object. + + + + + Validate all expectations on a mock and ignores calls to + any method that was not setup properly. + + + + + Creates a new instance. + + The previous state for this method + + + + Add a method call for this state' mock. + + The invocation for this method + The method that was called + The arguments this method was called with + + + + Gets a mock state that match the original mock state of the object. + + + + + Summary description for RhinoInterceptor. + + + + + Creates a new instance. + + + + + Intercept a method call and direct it to the repository. + + + + + Validate arguments for methods + + + + + Validate that the passed argument is not null. + + The object to validate + The name of the argument + + If the obj is null, an ArgumentNullException with the passed name + is thrown. + + + + + Validate that the arguments are equal. + + Expected args. + Actual Args. + + + + Validate that the two arguments are equals, including validation for + when the arguments are collections, in which case it will validate their values. + + + + + This method is safe for use even if any of the objects is a mocked object + that override equals. + + + + + Throw an object already verified when accessed + + + + + Create a new instance of VerifiedMockState + + The previous mock state, used to get the initial record state + + + + Add a method call for this state' mock. + + The invocation for this method + The method that was called + The arguments this method was called with + + + + Verify that this mock expectations have passed. + + + + + Verify that we can move to replay state and move + to the reply state. + + + + + Gets a mock state that match the original mock state of the object. + + + + + Get the options for the last method call + + + + + Set the exception to throw when Verify is called. + This is used to report exception that may have happened but where caught in the code. + This way, they are reported anyway when Verify() is called. + + + + + not relevant + + + + + Gets the matching verify state for this state + + + + + Get the options for the last method call + + + + + Records the actions on all the mocks created by a repository. + + + + + Records the specified call with the specified args on the mocked object. + + + + + Get the expectation for this method on this object with this arguments + + + + + This check the methods that were setup using the SetupResult.For() + or LastCall.Repeat.Any() and that bypass the whole expectation model. + + + + + Gets the all expectations for a mocked object and method combination, + regardless of the expected arguments / callbacks / contraints. + + Mocked object. + Method. + List of all relevant expectation + + + + Gets the all expectations for proxy. + + Mocked object. + List of all relevant expectation + + + + Removes all the repeatable expectations for proxy. + + Mocked object. + + + + Replaces the old expectation with the new expectation for the specified proxy/method pair. + This replace ALL expectations that equal to old expectations. + + Proxy. + Method. + Old expectation. + New expectation. + + + + Adds the recorder and turn it into the active recorder. + + Recorder. + + + + Moves to previous recorder. + + + + + Gets the recorded expectation or null. + + + + + Gets the next expected calls string. + + + + + Moves to parent recorder. + + + + + Set the expectation so it can repeat any number of times. + + + + + Removes the expectation from the recorder + + + + + Clear the replayer to call (and all its chain of replayers) + This also removes it from the list of expectations, so it will never be considered again + + + + + Get the expectation for this method on this object with this arguments + + + + + Gets a value indicating whether this instance has expectations that weren't satisfied yet. + + + true if this instance has expectations; otherwise, false. + + + + + Allows to set various options for the last method call on + a specified object. + If the method has a return value, it's recommended to use Expect + + + + + Allows to get an interface to work on the last call. + + The mocked object + Interface that allows to set options for the last method call on this object + + + + Set the return value for the method. + + The object the method will return + IRepeat that defines how many times the method will return this value + + + + Set the return value for the method. This overload is needed for LastCall.Return(null) + + The object the method will return + IRepeat that defines how many times the method will return this value + + + + Throws the specified exception when the method is called. + + Exception to throw + + + + Ignores the arguments for this method. Any argument will be matched + againt this method. + + + + + Add constraints for the method's arguments. + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Set a callback method for the last call + + + + + Call the original method on the class, bypassing the mocking layers, for the last call. + + + + + Call the original method on the class, optionally bypassing the mocking layers, for the last call. + + + + + Set a delegate to be called when the expectation is matched. + The delegate return value will be returned from the expectation. + + + + + Gets an interface that will raise the last event when called. + + + + + Set the parameter values for out and ref parameters. + This is done using zero based indexing, and _ignoring_ any non out/ref parameter. + + + + + Documentation message for the expectation + + Message + + + + Use the property as a simple property, getting/setting the values without + causing mock expectations. + + + + + Better syntax to define repeats. + + + + + Base class for method recorders, handle delegating to inner recorder if needed. + + + + + List of the expected actions on for this recorder + The legal values are: + * Expectations + * Method Recorders + + + + + The current recorder. + + + + + The current replayer; + + + + + The parent recorder of this one, may be null. + + + + + This contains a list of all the replayers that should be ignored + for a spesific method call. A replayer gets into this list by calling + ClearReplayerToCall() on its parent. This list is Clear()ed on each new invocation. + + + + + All the repeatable methods calls. + + + + + Counts the recursion depth of the current expectation search stack + + + + + Creates a new instance. + + + + + Creates a new instance. + + Parent recorder. + Repeatable methods + + + + Records the specified call with the specified args on the mocked object. + + + + + Get the expectation for this method on this object with this arguments + + + + + Gets the all expectations for a mocked object and method combination, + regardless of the expected arguments / callbacks / contraints. + + Mocked object. + Method. + List of all relevant expectation + + + + Gets the all expectations for proxy. + + Mocked object. + List of all relevant expectation + + + + Replaces the old expectation with the new expectation for the specified proxy/method pair. + This replace ALL expectations that equal to old expectations. + + Proxy. + Method. + Old expectation. + New expectation. + + + + Remove the all repeatable expectations for proxy. + + Mocked object. + + + + Set the expectation so it can repeat any number of times. + + + + + Removes the expectation from the recorder + + + + + Adds the recorder and turn it into the active recorder. + + Recorder. + + + + Moves to previous recorder. + + + + + Moves to parent recorder. + + + + + Gets the recorded expectation or null. + + + + + Clear the replayer to call (and all its chain of replayers). + This also removes it from the list of expectations, so it will never be considered again + + + + + Get the expectation for this method on this object with this arguments + + + + + Gets the next expected calls string. + + + + + Handles the real getting of the recorded expectation or null. + + + + + Handle the real execution of this method for the derived class + + + + + Handle the real execution of this method for the derived class + + + + + Handle the real execution of this method for the derived class + + + + + Handle the real execution of this method for the derived class + + + + + Handle the real execution of this method for the derived class + + + + + Handle the real execution of this method for the derived class + + + + + Should this replayer be considered valid for this call? + + + + + This check the methods that were setup using the SetupResult.For() + or LastCall.Repeat.Any() and that bypass the whole expectation model. + + + + + Gets a value indicating whether this instance has expectations that weren't satisfied yet. + + + true if this instance has expectations; otherwise, false. + + + + + Handle the real execution of this method for the derived class + + + + + Ordered collection of methods, methods must arrive in specified order + in order to pass. + + + + + Unordered collection of method records, any expectation that exist + will be matched. + + + + + The parent recorder we have redirected to. + Useful for certain edge cases in orderring. + See: FieldProblem_Entropy for the details. + + + + + Creates a new instance. + + Parent recorder. + Repeatable methods + + + + Creates a new instance. + + + + + Records the specified call with the specified args on the mocked object. + + Mocked object. + Method. + Expectation. + + + + Get the expectation for this method on this object with this arguments + + Invocation for this method + Mocked object. + Method. + Args. + True is the call was recorded, false otherwise + + + + Gets the all expectations for a mocked object and method combination, + regardless of the expected arguments / callbacks / contraints. + + Mocked object. + Method. + List of all relevant expectation + + + + Gets the all expectations for proxy. + + Mocked object. + List of all relevant expectation + + + + Replaces the old expectation with the new expectation for the specified proxy/method pair. + This replace ALL expectations that equal to old expectations. + + Proxy. + Method. + Old expectation. + New expectation. + + + + Handle the real execution of this method for the derived class + + + + + Handles the real getting of the recorded expectation or null. + + + + + Handle the real execution of this method for the derived class + + + + + Gets the next expected calls string. + + + + + Create an exception for an unexpected method call. + + + + + Gets a value indicating whether this instance has expectations that weren't satisfied yet. + + + true if this instance has expectations; otherwise, false. + + + + + Creates a new instance. + + Parent recorder. + Repetable methods + + + + Creates a new instance. + + + + + Handles the real getting of the recorded expectation or null. + + + + + Get the expectation for this method on this object with this arguments + + + + + Gets the next expected calls string. + + + + + Hold an expectation for a method call on an object + + + + + Creates a new instance. + + Proxy. + Method. + Expectation. + + + + Determines if the object equal to this instance + + Obj. + + + + + Gets the hash code. + + + + + + Gets the proxy. + + + + + + Gets the method. + + + + + + Gets the expectation. + + + + + + Holds a pair of mocked object and a method + and allows to compare them against each other. + This allows us to have a distinction between mockOne.MyMethod() and + mockTwo.MyMethod()... + + + + + Creates a new instance. + + Proxy. + Method. + + + + Determines whatever obj equals to this instance. + ProxyMethodPairs are equal when they point to the same /instance/ of + an object, and to the same method. + + Obj. + + + + + Gets the hash code. + + + + + + Gets the proxy. + + + + + + Gets the method. + + + + + + Change the recorder from ordered to unordered and vice versa + + + + + Creates a new instance. + + + + + Disposes this instance. + + + + + Accessor for the current mocker + + + + + The current mocker + + + + + Used for [assembly: InternalsVisibleTo(RhinoMocks.StrongName)] + Used for [assembly: InternalsVisibleTo(RhinoMocks.NormalName)] + + + + + Strong name for the Dynamic Proxy assemblies. Used for InternalsVisibleTo specification. + + + + + Normal name for dynamic proxy assemblies. Used for InternalsVisibleTo specification. + + + + + Logs all method calls for methods + + + + + Setup method calls to repeat any number of times. + + + + + Get the method options and set the last method call to repeat + any number of times. + This also means that the method would transcend ordering + + + + + Get the method options for the last method call on the mockInstance and set it + to repeat any number of times. + This also means that the method would transcend ordering + + + + + Utility class for working with method calls. + + + + + Return the string representation of a method call and its arguments. + + The method + The method arguments + Invocation of the method, used to get the generics arguments + Delegate to format the parameter + The string representation of this method call + + + + Return the string representation of a method call and its arguments. + + The invocation of the method, used to get the generic parameters + The method + The method arguments + The string representation of this method call + + + + Delegate to format the argument for the string representation of + the method call. + + + + + Utility to get the default value for a type + + + + + The default value for a type. + Null for reference types and void + 0 for value types. + First element for enums + Note that we need to get the value even for opened generic types, such as those from + generic methods. + + Type. + The invocation. + the default value + + + + Allows easier access to MockRepository, works closely with Mocker.Current to + allow access to a context where the mock repository is automatially verified at + the end of the code block. + + + + + Initialize a code block where Mocker.Current is initialized. + At the end of the code block, all the expectation will be verified. + This overload will create a new MockRepository. + + The code that will be executed under the mock context + + + + Initialize a code block where Mocker.Current is initialized. + At the end of the code block, all the expectation will be verified. + This overload will create a new MockRepository. + + The mock repository to use, at the end of the code block, VerifyAll() will be called on the repository. + The code that will be executed under the mock context + + + + Create a FluentMocker + + The mock repository to use. + + + + A method with no arguments and no return value that will be called under the mock context. + + + + + FluentMocker implements some kind of fluent interface attempt + for saying "With the Mocks [mocks], Expecting (in same order) [things] verify [that]." + + + + + Interface to verify previously defined expectations + + + + + Verifies if a piece of code + + + + + Defines unordered expectations + + A delegate describing the expectations + an IMockVerifier + + + + Defines ordered expectations + + A delegate describing the expectations + an IMockVerifier + + + + Verifies previously defined expectations + + + + + This delegate is compatible with the System.Func{T,R} signature + We have to define our own to get compatability with 2.0 + + + + + This attribute is here so we can get better Pex integration + Using this means that Pex will not try to inspect the work of + the actual proxies being generated by Rhino Mocks + + + + diff --git a/source/developwithpassion.specification.specs/developwithpassion.specification.specs.csproj b/source/developwithpassion.specification.specs/developwithpassion.specification.specs.csproj index 1df19d7..f89e6e1 100755 --- a/source/developwithpassion.specification.specs/developwithpassion.specification.specs.csproj +++ b/source/developwithpassion.specification.specs/developwithpassion.specification.specs.csproj @@ -1,119 +1,115 @@ - - - - Debug - AnyCPU - 8.0.30703 - 2.0 - {4FC95825-0068-4538-9420-CC66D052234D} - Library - Properties - developwithpassion.specification.specs - developwithpassion.specification.specs - v4.0 - 512 - - - true - full - false - bin\Debug\ - DEBUG;TRACE - prompt - 4 - - - pdbonly - true - bin\Release\ - TRACE - prompt - 4 - - - - False - ..\..\packages\Machine.Fakes.1.4.0\lib\net40\Machine.Fakes.dll - - - False - ..\..\packages\Machine.Fakes.RhinoMocks.1.4.0\lib\net40\Machine.Fakes.Adapters.RhinoMocks.dll - - - False - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.dll - - - False - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.Clr4.dll - - - ..\..\packages\RhinoMocks.3.6.1\lib\net\Rhino.Mocks.dll - - - - - - - - - - Properties\SharedAssemblyInfo.cs - - - Properties\VersionInfo.cs - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - {DF8F3D71-574A-4910-B409-8849A8C9FF45} - developwithpassion.specifications.rhinomocks - - - {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} - developwithpassion.specifications - - - - - - - - - - + + + + Debug + AnyCPU + 8.0.30703 + 2.0 + {4FC95825-0068-4538-9420-CC66D052234D} + Library + Properties + developwithpassion.specification.specs + developwithpassion.specification.specs + v4.0 + 512 + + + true + full + false + bin\Debug\ + DEBUG;TRACE + prompt + 4 + + + pdbonly + true + bin\Release\ + TRACE + prompt + 4 + + + + ..\..\packages\Machine.Fakes.1.8.0\lib\net40\Machine.Fakes.dll + + + ..\..\packages\Machine.Fakes.RhinoMocks.1.8.0\lib\net40\Machine.Fakes.Adapters.RhinoMocks.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.Clr4.dll + + + ..\..\packages\RhinoMocks.3.6.1\lib\net\Rhino.Mocks.dll + + + + + + + + + + Properties\SharedAssemblyInfo.cs + + + Properties\VersionInfo.cs + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + {DF8F3D71-574A-4910-B409-8849A8C9FF45} + developwithpassion.specifications.rhinomocks + + + {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} + developwithpassion.specifications + + + + + + + + + + + --> \ No newline at end of file diff --git a/source/developwithpassion.specification.specs/packages.config b/source/developwithpassion.specification.specs/packages.config index 31b354b..9fe22bb 100755 --- a/source/developwithpassion.specification.specs/packages.config +++ b/source/developwithpassion.specification.specs/packages.config @@ -1,7 +1,7 @@ - - - - - - + + + + + + \ No newline at end of file diff --git a/source/developwithpassion.specifications.examples/developwithpassion.specifications.examples.csproj b/source/developwithpassion.specifications.examples/developwithpassion.specifications.examples.csproj index 5d6b899..dda9d31 100755 --- a/source/developwithpassion.specifications.examples/developwithpassion.specifications.examples.csproj +++ b/source/developwithpassion.specifications.examples/developwithpassion.specifications.examples.csproj @@ -1,94 +1,92 @@ - - - - Debug - AnyCPU - 8.0.30703 - 2.0 - {8FF41374-0BEE-48A0-AEE5-E8499A5DFDC6} - Library - Properties - developwithpassion.specifications.examples - developwithpassion.specifications.examples - v4.0 - 512 - - - true - full - false - bin\Debug\ - DEBUG;TRACE - prompt - 4 - - - pdbonly - true - bin\Release\ - TRACE - prompt - 4 - - - - False - ..\..\packages\Machine.Fakes.1.4.0\lib\net40\Machine.Fakes.dll - - - ..\..\packages\Machine.Fakes.RhinoMocks.0.5.1\lib\net40\Machine.Fakes.Adapters.RhinoMocks.dll - - - False - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.dll - - - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.Clr4.dll - - - ..\..\packages\RhinoMocks.3.6.1\lib\net\Rhino.Mocks.dll - - - - - - - - - - - - - - - - - - - - - - - - - {4FC95825-0068-4538-9420-CC66D052234D} - developwithpassion.specification.specs - - - {DF8F3D71-574A-4910-B409-8849A8C9FF45} - developwithpassion.specifications.rhinomocks - - - {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} - developwithpassion.specifications - - - + + + + Debug + AnyCPU + 8.0.30703 + 2.0 + {8FF41374-0BEE-48A0-AEE5-E8499A5DFDC6} + Library + Properties + developwithpassion.specifications.examples + developwithpassion.specifications.examples + v4.0 + 512 + + + true + full + false + bin\Debug\ + DEBUG;TRACE + prompt + 4 + + + pdbonly + true + bin\Release\ + TRACE + prompt + 4 + + + + ..\..\packages\Machine.Fakes.1.8.0\lib\net40\Machine.Fakes.dll + + + ..\..\packages\Machine.Fakes.RhinoMocks.1.8.0\lib\net40\Machine.Fakes.Adapters.RhinoMocks.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.Clr4.dll + + + ..\..\packages\RhinoMocks.3.6.1\lib\net\Rhino.Mocks.dll + + + + + + + + + + + + + + + + + + + + + + + + + {4FC95825-0068-4538-9420-CC66D052234D} + developwithpassion.specification.specs + + + {DF8F3D71-574A-4910-B409-8849A8C9FF45} + developwithpassion.specifications.rhinomocks + + + {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} + developwithpassion.specifications + + + + --> \ No newline at end of file diff --git a/source/developwithpassion.specifications.fakeiteasy/developwithpassion.specifications.fakeiteasy.csproj b/source/developwithpassion.specifications.fakeiteasy/developwithpassion.specifications.fakeiteasy.csproj index 9fcf98c..30de32c 100755 --- a/source/developwithpassion.specifications.fakeiteasy/developwithpassion.specifications.fakeiteasy.csproj +++ b/source/developwithpassion.specifications.fakeiteasy/developwithpassion.specifications.fakeiteasy.csproj @@ -1,79 +1,74 @@ - - - - Debug - AnyCPU - 8.0.30703 - 2.0 - {73F7E057-D96B-462E-AA0A-581C3DE15292} - Library - Properties - developwithpassion.specifications.fakeiteasy - developwithpassion.specifications.fakeiteasy - v4.0 - 512 - - - true - full - false - bin\Debug\ - DEBUG;TRACE - prompt - 4 - - - pdbonly - true - bin\Release\ - TRACE - prompt - 4 - - - - False - ..\..\packages\FakeItEasy.1.11.0\lib\net40\FakeItEasy.dll - - - False - ..\..\packages\Machine.Fakes.1.4.0\lib\net40\Machine.Fakes.dll - - - False - ..\..\packages\Machine.Fakes.FakeItEasy.1.4.0\lib\net40\Machine.Fakes.Adapters.FakeItEasy.dll - - - False - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.dll - - - False - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.Clr4.dll - - - - - - - - - - - - {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} - developwithpassion.specifications - - - - - - + + + + Debug + AnyCPU + 8.0.30703 + 2.0 + {73F7E057-D96B-462E-AA0A-581C3DE15292} + Library + Properties + developwithpassion.specifications.fakeiteasy + developwithpassion.specifications.fakeiteasy + v4.0 + 512 + + + true + full + false + bin\Debug\ + DEBUG;TRACE + prompt + 4 + + + pdbonly + true + bin\Release\ + TRACE + prompt + 4 + + + + ..\..\packages\FakeItEasy.1.14.0\lib\net40\FakeItEasy.dll + + + ..\..\packages\Machine.Fakes.1.8.0\lib\net40\Machine.Fakes.dll + + + ..\..\packages\Machine.Fakes.FakeItEasy.1.8.0\lib\net40\Machine.Fakes.Adapters.FakeItEasy.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.Clr4.dll + + + + + + + + + + + + {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} + developwithpassion.specifications + + + + + + + --> \ No newline at end of file diff --git a/source/developwithpassion.specifications.fakeiteasy/packages.config b/source/developwithpassion.specifications.fakeiteasy/packages.config index d576bca..73bbc3a 100755 --- a/source/developwithpassion.specifications.fakeiteasy/packages.config +++ b/source/developwithpassion.specifications.fakeiteasy/packages.config @@ -1,7 +1,7 @@ - - - - - - + + + + + + \ No newline at end of file diff --git a/source/developwithpassion.specifications.moq/developwithpassion.specifications.moq.csproj b/source/developwithpassion.specifications.moq/developwithpassion.specifications.moq.csproj index 231143c..ac4bb26 100755 --- a/source/developwithpassion.specifications.moq/developwithpassion.specifications.moq.csproj +++ b/source/developwithpassion.specifications.moq/developwithpassion.specifications.moq.csproj @@ -1,78 +1,74 @@ - - - - Debug - AnyCPU - 8.0.30703 - 2.0 - {9EB1A32F-C6BB-41D5-BF31-92330FE176A9} - Library - Properties - developwithpassion.specifications.moq - developwithpassion.specifications.moq - v4.0 - 512 - - - true - full - false - bin\Debug\ - DEBUG;TRACE - prompt - 4 - - - pdbonly - true - bin\Release\ - TRACE - prompt - 4 - - - - False - ..\..\packages\Machine.Fakes.1.4.0\lib\net40\Machine.Fakes.dll - - - False - ..\..\packages\Machine.Fakes.Moq.1.4.0\lib\net40\Machine.Fakes.Adapters.Moq.dll - - - False - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.dll - - - False - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.Clr4.dll - - - ..\..\packages\Moq.4.0.10827\lib\NET40\Moq.dll - - - - - - - - - - - - - - - {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} - developwithpassion.specifications - - - + + + + Debug + AnyCPU + 8.0.30703 + 2.0 + {9EB1A32F-C6BB-41D5-BF31-92330FE176A9} + Library + Properties + developwithpassion.specifications.moq + developwithpassion.specifications.moq + v4.0 + 512 + + + true + full + false + bin\Debug\ + DEBUG;TRACE + prompt + 4 + + + pdbonly + true + bin\Release\ + TRACE + prompt + 4 + + + + ..\..\packages\Machine.Fakes.1.8.0\lib\net40\Machine.Fakes.dll + + + ..\..\packages\Machine.Fakes.Moq.1.8.0\lib\net40\Machine.Fakes.Adapters.Moq.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.Clr4.dll + + + ..\..\packages\Moq.4.1.1309.1617\lib\net40\Moq.dll + + + + + + + + + + + + + + + {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} + developwithpassion.specifications + + + + --> \ No newline at end of file diff --git a/source/developwithpassion.specifications.moq/packages.config b/source/developwithpassion.specifications.moq/packages.config index 0926c59..6c1423f 100755 --- a/source/developwithpassion.specifications.moq/packages.config +++ b/source/developwithpassion.specifications.moq/packages.config @@ -1,7 +1,7 @@ - - - - - - + + + + + + \ No newline at end of file diff --git a/source/developwithpassion.specifications.nsubstitue/developwithpassion.specifications.nsubstitue.csproj b/source/developwithpassion.specifications.nsubstitue/developwithpassion.specifications.nsubstitue.csproj index d3f2bac..f6904d1 100755 --- a/source/developwithpassion.specifications.nsubstitue/developwithpassion.specifications.nsubstitue.csproj +++ b/source/developwithpassion.specifications.nsubstitue/developwithpassion.specifications.nsubstitue.csproj @@ -1,79 +1,74 @@ - - - - Debug - AnyCPU - 8.0.30703 - 2.0 - {4DCF4B13-B16B-4735-81A1-0C4B701C61E6} - Library - Properties - developwithpassion.specifications.nsubstitue - developwithpassion.specifications.nsubstitue - v4.0 - 512 - - - true - full - false - bin\Debug\ - DEBUG;TRACE - prompt - 4 - - - pdbonly - true - bin\Release\ - TRACE - prompt - 4 - - - - False - ..\..\packages\Machine.Fakes.1.4.0\lib\net40\Machine.Fakes.dll - - - False - ..\..\packages\Machine.Fakes.NSubstitute.1.4.0\lib\net40\Machine.Fakes.Adapters.NSubstitute.dll - - - False - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.dll - - - False - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.Clr4.dll - - - False - ..\..\packages\NSubstitute.1.6.0.0\lib\NET40\NSubstitute.dll - - - - - - - - - - - - {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} - developwithpassion.specifications - - - - - - + + + + Debug + AnyCPU + 8.0.30703 + 2.0 + {4DCF4B13-B16B-4735-81A1-0C4B701C61E6} + Library + Properties + developwithpassion.specifications.nsubstitue + developwithpassion.specifications.nsubstitue + v4.0 + 512 + + + true + full + false + bin\Debug\ + DEBUG;TRACE + prompt + 4 + + + pdbonly + true + bin\Release\ + TRACE + prompt + 4 + + + + ..\..\packages\Machine.Fakes.1.8.0\lib\net40\Machine.Fakes.dll + + + ..\..\packages\Machine.Fakes.NSubstitute.1.8.0\lib\net40\Machine.Fakes.Adapters.NSubstitute.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.Clr4.dll + + + ..\..\packages\NSubstitute.1.6.1.0\lib\NET40\NSubstitute.dll + + + + + + + + + + + + {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} + developwithpassion.specifications + + + + + + + --> \ No newline at end of file diff --git a/source/developwithpassion.specifications.nsubstitue/packages.config b/source/developwithpassion.specifications.nsubstitue/packages.config index b6de887..1707f8a 100755 --- a/source/developwithpassion.specifications.nsubstitue/packages.config +++ b/source/developwithpassion.specifications.nsubstitue/packages.config @@ -1,7 +1,7 @@ - - - - - - + + + + + + \ No newline at end of file diff --git a/source/developwithpassion.specifications.rhinomocks/developwithpassion.specifications.rhinomocks.csproj b/source/developwithpassion.specifications.rhinomocks/developwithpassion.specifications.rhinomocks.csproj index 27ecfca..abcdb0a 100755 --- a/source/developwithpassion.specifications.rhinomocks/developwithpassion.specifications.rhinomocks.csproj +++ b/source/developwithpassion.specifications.rhinomocks/developwithpassion.specifications.rhinomocks.csproj @@ -1,84 +1,80 @@ - - - - Debug - AnyCPU - 8.0.30703 - 2.0 - {DF8F3D71-574A-4910-B409-8849A8C9FF45} - Library - Properties - developwithpassion.specifications.rhinomocks - developwithpassion.specifications.rhinomocks - v4.0 - 512 - - - true - full - false - bin\Debug\ - DEBUG;TRACE - prompt - 4 - - - pdbonly - true - bin\Release\ - TRACE - prompt - 4 - - - - False - ..\..\packages\Machine.Fakes.1.4.0\lib\net40\Machine.Fakes.dll - - - False - ..\..\packages\Machine.Fakes.RhinoMocks.1.4.0\lib\net40\Machine.Fakes.Adapters.RhinoMocks.dll - - - False - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.dll - - - False - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.Clr4.dll - - - ..\..\packages\RhinoMocks.3.6.1\lib\net\Rhino.Mocks.dll - - - - - - - - Properties\SharedAssemblyInfo.cs - - - Properties\VersionInfo.cs - - - - - - - {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} - developwithpassion.specifications - - - - - - + + + + Debug + AnyCPU + 8.0.30703 + 2.0 + {DF8F3D71-574A-4910-B409-8849A8C9FF45} + Library + Properties + developwithpassion.specifications.rhinomocks + developwithpassion.specifications.rhinomocks + v4.0 + 512 + + + true + full + false + bin\Debug\ + DEBUG;TRACE + prompt + 4 + + + pdbonly + true + bin\Release\ + TRACE + prompt + 4 + + + + ..\..\packages\Machine.Fakes.1.8.0\lib\net40\Machine.Fakes.dll + + + ..\..\packages\Machine.Fakes.RhinoMocks.1.8.0\lib\net40\Machine.Fakes.Adapters.RhinoMocks.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.Clr4.dll + + + ..\..\packages\RhinoMocks.3.6.1\lib\net\Rhino.Mocks.dll + + + + + + + + Properties\SharedAssemblyInfo.cs + + + Properties\VersionInfo.cs + + + + + + + {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} + developwithpassion.specifications + + + + + + + --> \ No newline at end of file diff --git a/source/developwithpassion.specifications.rhinomocks/packages.config b/source/developwithpassion.specifications.rhinomocks/packages.config index 31b354b..9fe22bb 100755 --- a/source/developwithpassion.specifications.rhinomocks/packages.config +++ b/source/developwithpassion.specifications.rhinomocks/packages.config @@ -1,7 +1,7 @@ - - - - - - + + + + + + \ No newline at end of file diff --git a/source/developwithpassion.specifications/developwithpassion.specifications.csproj b/source/developwithpassion.specifications/developwithpassion.specifications.csproj index ac5db71..b8eb118 100755 --- a/source/developwithpassion.specifications/developwithpassion.specifications.csproj +++ b/source/developwithpassion.specifications/developwithpassion.specifications.csproj @@ -1,137 +1,134 @@ - - - - Debug - AnyCPU - 8.0.30703 - 2.0 - {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} - Library - Properties - developwithpassion.specifications - developwithpassion.specifications - v4.0 - 512 - - - true - full - false - bin\Debug\ - DEBUG;TRACE - prompt - 4 - - - pdbonly - true - bin\Release\ - TRACE - prompt - 4 - - - - ..\..\packages\Castle.Core.3.2.0\lib\net40-client\Castle.Core.dll - - - False - ..\..\packages\Machine.Fakes.1.4.0\lib\net40\Machine.Fakes.dll - - - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.dll - True - - - False - ..\..\packages\Machine.Specifications.0.5.12\lib\net40\Machine.Specifications.Clr4.dll - - - - - - - - Properties\SharedAssemblyInfo.cs - - - Properties\VersionInfo.cs - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - + + + + Debug + AnyCPU + 8.0.30703 + 2.0 + {67B140E2-D8BF-4266-9F1F-0C17ADF59BF0} + Library + Properties + developwithpassion.specifications + developwithpassion.specifications + v4.0 + 512 + + + true + full + false + bin\Debug\ + DEBUG;TRACE + prompt + 4 + + + pdbonly + true + bin\Release\ + TRACE + prompt + 4 + + + + ..\..\packages\Castle.Core.3.2.1\lib\net40-client\Castle.Core.dll + + + ..\..\packages\Machine.Fakes.1.8.0\lib\net40\Machine.Fakes.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.dll + + + ..\..\packages\Machine.Specifications.0.5.16\lib\net40\Machine.Specifications.Clr4.dll + + + + + + + + Properties\SharedAssemblyInfo.cs + + + Properties\VersionInfo.cs + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + --> \ No newline at end of file diff --git a/source/developwithpassion.specifications/packages.config b/source/developwithpassion.specifications/packages.config index 2f92c08..7091a3f 100755 --- a/source/developwithpassion.specifications/packages.config +++ b/source/developwithpassion.specifications/packages.config @@ -1,7 +1,7 @@ - - - - - - + + + + + + \ No newline at end of file diff --git a/source/shared/SharedAssemblyInfo.cs b/source/shared/SharedAssemblyInfo.cs index 752a846..be63c1c 100755 --- a/source/shared/SharedAssemblyInfo.cs +++ b/source/shared/SharedAssemblyInfo.cs @@ -1,6 +1,6 @@ -using System.Reflection; - -[assembly: AssemblyCompany("Develop With Passion®")] -[assembly: AssemblyProduct("developwithpassion.specifications")] -[assembly: AssemblyCopyright("Copyright © Develop With Passion® 2010, 2011")] -[assembly: AssemblyTrademark("")] +using System.Reflection; + +[assembly: AssemblyCompany("Develop With Passion®")] +[assembly: AssemblyProduct("developwithpassion.specifications")] +[assembly: AssemblyCopyright("Copyright © Develop With Passion® 2010, 2011")] +[assembly: AssemblyTrademark("")] diff --git a/source/shared/SharedVersionInfo.cs b/source/shared/SharedVersionInfo.cs index 7d3a3b7..826614e 100755 --- a/source/shared/SharedVersionInfo.cs +++ b/source/shared/SharedVersionInfo.cs @@ -1,5 +1,5 @@ -using System.Reflection; - -[assembly: AssemblyVersion("0.5.9.1")] -[assembly: AssemblyFileVersion("0.5.9.1")] -[assembly: AssemblyInformationalVersion("0.5.9.1")] +using System.Reflection; + +[assembly: AssemblyVersion("0.5.9.1")] +[assembly: AssemblyFileVersion("0.5.9.1")] +[assembly: AssemblyInformationalVersion("0.5.9.1")]