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package gds
import (
"fmt"
"math"
"reflect"
"strconv"
"strings"
)
func fieldsToRecords(data any) ([]Record, error) {
records := []Record{}
v := reflect.ValueOf(data)
for i := range v.NumField() {
if v.Type().Field(i).Name == "Elements" {
for _, element := range v.Field(i).Interface().([]Element) {
newRecords, err := element.Records()
if err != nil {
return []Record{}, err
}
records = append(records, newRecords...)
}
} else if v.Type().Field(i).Name == "Structures" {
for _, structure := range v.Field(i).Interface().(map[string]*Structure) {
newRecords, err := structure.Records()
if err != nil {
return []Record{}, err
}
records = append(records, newRecords...)
}
} else {
data, err := gotypeToBytes(v.Field(i).Interface())
if err != nil {
return []Record{}, fmt.Errorf("could not convert field %s to record: %v", v.Type().Field(i).Name, err)
}
newRecord := Record{
Size: uint16(4 + len(data)),
Datatype: strings.ToUpper(v.Type().Field(i).Name),
Data: data,
}
records = append(records, newRecord)
}
}
return records, nil
}
// only used for testing
func recordsToBytes(records []Record) []byte {
var result []byte
for _, rec := range records {
result = append(result, rec.Bytes()...)
}
return result
}
func gotypeToBytes(value any) ([]byte, error) {
switch reflect.TypeOf(value) {
case reflect.TypeOf(int16(0)):
return []byte{byte(value.(int16) >> 8), byte(value.(int16))}, nil
case reflect.TypeOf(uint16(0)):
return []byte{byte(value.(uint16) >> 8), byte(value.(uint16))}, nil
case reflect.TypeOf(int32(0)):
return []byte{
byte(value.(int32) >> 24),
byte(value.(int32) >> 16),
byte(value.(int32) >> 8),
byte(value.(int32)),
}, nil
case reflect.TypeOf(float64(0)):
encodedValue, err := encodeReal(value.(float64))
return bitsToByteArray(encodedValue), err
case reflect.TypeOf(""):
bytes := []byte(value.(string))
if len(bytes)%2 == 1 {
bytes = append(bytes, byte(0))
}
return bytes, nil
case reflect.TypeOf([]int16{}):
var data []byte
var err error
returnSlice := []byte{}
for _, v := range value.([]int16) {
data, err = gotypeToBytes(v)
if err != nil {
return []byte{}, err
}
returnSlice = append(returnSlice, data...)
}
return returnSlice, nil
case reflect.TypeOf([]int32{}):
var data []byte
var err error
returnSlice := []byte{}
for _, v := range value.([]int32) {
data, err = gotypeToBytes(v)
if err != nil {
return []byte{}, err
}
returnSlice = append(returnSlice, data...)
}
return returnSlice, nil
case reflect.TypeOf([]float64{}):
var data []byte
var err error
returnSlice := []byte{}
for _, v := range value.([]float64) {
data, err = gotypeToBytes(v)
if err != nil {
return []byte{}, err
}
returnSlice = append(returnSlice, data...)
}
return returnSlice, nil
default:
return []byte{}, fmt.Errorf("could not convert gotype to bytes, datatype not supported by GDSII: %v", reflect.TypeOf(value))
}
}
func bitsToByteArray(i uint64) []byte {
return []byte{
byte(i >> 56),
byte(i >> 48),
byte(i >> 40),
byte(i >> 32),
byte(i >> 24),
byte(i >> 16),
byte(i >> 8),
byte(i),
}
}
// Convert IEEE754 float64 to 8-byte real with 1-bit sign, 7-bit exponent and 56-bit mantissa
func encodeReal(fl float64) (uint64, error) {
if fl == 0.0 {
return uint64(0x00_00_00_00_00_00_00_00), nil
}
valueScientifc := fmt.Sprintf("%b", math.Abs(fl))
sign := uint64(0x00_00_00_00_00_00_00_00)
if fl < 0 {
sign = uint64(0x80_00_00_00_00_00_00_00)
}
parts := strings.Split(valueScientifc, "p")
factor, err := strconv.ParseUint(parts[0], 10, 64)
if err != nil {
return 0, fmt.Errorf("could not parse magnitude: %v", err)
}
exp, err := strconv.ParseInt(parts[1], 10, 64)
if err != nil {
return 0, fmt.Errorf("could not parse exponent: %v", err)
}
factor = factor << 11
newExp := int64((exp + 53) / 4)
expRemainder := (exp + 53) % 4
if expRemainder > 0 {
factor = factor >> (4 - expRemainder)
newExp++
} else if expRemainder < 0 {
factor = factor >> (-expRemainder)
}
newExpUint := uint64(newExp + 64)
return uint64(sign | (factor >> 8) | (newExpUint << 56)), nil
}