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main.ts
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661 lines (555 loc) · 17.3 KB
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/**
* Functions to micro:bit xgo Robot Kit by ELECFREAKS Co.,Ltd.
*/
//% color=#8600FF icon="\uf1b0"
//% block="Xgo_Rider" blockId="Xgo_Rider"
namespace xgo {
export enum PerformanceEnum {
//% block="normal mode"
Normal,
//% block="cyclical pattern1"
Cyclical1,
//% block="cyclical pattern2"
Cyclical2,
}
export enum SelectRepeater {
//% block="on"
On,
//% block="off"
Off,
}
export enum CalibrationEnum {
//% block="enter"
Enter,
//% block="complete"
Complete,
}
export enum DirectionEnum {
//% block="forward"
Forward,
//% block="backward"
Backward,
}
export enum LEDNumber {
//% block="All"
All,
//% block="No.1"
One,
//% block="No.2"
Tow,
//% block="No.3"
Three,
//% block="No.4"
Four,
}
export enum LEDColor {
//% block=red
Red = 0xFF0000,
//% block=orange
Orange = 0xFFA500,
//% block=yellow
Yellow = 0xFFFF00,
//% block=green
Green = 0x00FF00,
//% block=blue
Blue = 0x0000FF,
//% block=indigo
Indigo = 0x4b0082,
//% block=violet
Violet = 0x8a2be2,
//% block=purple
Purple = 0xFF00FF,
//% block=white
White = 0xFFFFFF,
//% block=black
Black = 0x000000
}
export enum AngleEnum {
//% block="roll"
Roll,
//% block="pitch"
Pitch,
//% block="yaw"
Yaw,
}
export enum RatateEnum {
//% block="CW"
Cw,
//% block="CCW"
Ccw,
}
let headData = 0x5500
let tailData = 0x00AA
let headDataH = (headData >> 8) & 0xff;
let headDataL = (headData >> 0) & 0xff;
let tailDataH = (tailData >> 8) & 0xff;
let tailDataL = (tailData >> 0) & 0xff;
//////////----------------------------------- Basic--------------------------------/////////
/**
* TODO: xgo write interface
*/
function writeCommand(len: number, addr: number, data: number, wait: number) {
let commands_buffer = pins.createBuffer(len)
commands_buffer[0] = headDataH
commands_buffer[1] = headDataL
commands_buffer[2] = len
commands_buffer[3] = 0x00
commands_buffer[4] = addr
commands_buffer[5] = data
commands_buffer[6] = ~(len + 0x00 + addr + data)
commands_buffer[7] = tailDataH
commands_buffer[8] = tailDataL
serial.writeBuffer(commands_buffer)
basic.pause(wait)
}
/**
* TODO: xgo write interface
*/
function writeThreeCommand(len: number, addr: number, data0: number, data1: number, data2: number, wait: number) {
let commands_buffer = pins.createBuffer(len)
commands_buffer[0] = headDataH
commands_buffer[1] = headDataL
commands_buffer[2] = len
commands_buffer[3] = 0x00
commands_buffer[4] = addr
commands_buffer[5] = data0
commands_buffer[6] = data1
commands_buffer[7] = data2
commands_buffer[8] = ~(len + 0x00 + addr + data0 + data1 + data2)
commands_buffer[9] = tailDataH
commands_buffer[10] = tailDataL
serial.writeBuffer(commands_buffer)
basic.pause(wait)
}
/**
* TODO: xgo write interface
*/
function writeStrCommand(len: number, strlen: number, addr: number, str: string, wait: number) {
let i = 0
let errordata = 0
let commands_buffer = pins.createBuffer(len)
commands_buffer[0] = headDataH
commands_buffer[1] = headDataL
commands_buffer[2] = len
commands_buffer[3] = 0x00
commands_buffer[4] = addr
for(i = 0; i > strlen; i++) {
commands_buffer[i + 5] = str.charCodeAt(i)
errordata += str.charCodeAt(i)
}
commands_buffer[i++] = ~(len + 0x00 + addr + errordata)
commands_buffer[i++] = tailDataH
commands_buffer[i] = tailDataL
serial.writeBuffer(commands_buffer)
basic.pause(wait)
}
/**
* TODO: xgo read interface
*/
function readCommandOneData(len: number, addr: number, readlen: number, wait: number) {
let commands_buffer = pins.createBuffer(len)
commands_buffer[0] = headDataH
commands_buffer[1] = headDataL
commands_buffer[2] = len
commands_buffer[3] = 0x02
commands_buffer[4] = addr
commands_buffer[5] = readlen
commands_buffer[6] = ~(len + 0x02 + addr + readlen)
commands_buffer[7] = tailDataH
commands_buffer[8] = tailDataL
serial.writeBuffer(commands_buffer)
let read_data_buffer = pins.createBuffer(9)
read_data_buffer = serial.readBuffer(9)
return read_data_buffer[5]
}
/**
* TODO: xgo read interface
*/
function readDoubleCommandOneData(len: number, addr: number, readlen: number, wait: number) {
let commands_buffer = pins.createBuffer(len)
commands_buffer[0] = headDataH
commands_buffer[1] = headDataL
commands_buffer[2] = len
commands_buffer[3] = 0x02
commands_buffer[4] = addr
commands_buffer[5] = readlen
commands_buffer[6] = ~(len + 0x02 + addr + readlen)
commands_buffer[7] = tailDataH
commands_buffer[8] = tailDataL
serial.writeBuffer(commands_buffer)
let read_data_buffer = pins.createBuffer(10)
read_data_buffer = serial.readBuffer(10)
return read_data_buffer[5] | read_data_buffer[6]
}
/**
* TODO: initialization xgo motor
*/
//% group="Basic"
//% block="Restore initial action"
//% weight=480
export function initActionMode() {
writeCommand(0x09, 0x3E, 0xFF, 1000)
}
/**
* TODO: initialization xgo
* @param tx describe parameter here, eg: SerialPin.P13
* @param rx describe parameter here, eg: SerialPin.P14
*/
//% group="Basic"
//% block="set XGO TX %tx RX %rx"
//% weight=500
export function initXGOSerial(tx: SerialPin, rx: SerialPin) {
serial.redirect(tx, rx, BaudRate.BaudRate115200)
initActionMode()
}
/**
* TODO: performance mode
*/
//% group="Basic"
//% block="performance mode %mode"
//% weight=490
export function performanceMode(mode: PerformanceEnum) {
let len, addr, data, wait
len = 0x09
addr = 0x03
switch (mode) {
case PerformanceEnum.Normal :
data = 0x00
wait = 1000
break
case PerformanceEnum.Cyclical1 :
data = 0x01
wait = 1000
break
case PerformanceEnum.Cyclical2 :
data = 0x02
wait = 1000
break
}
writeCommand(len, addr, data, wait)
}
/**
* TODO: set Bluetooth
* @param str describe parameter here, eg: "XGO_Rider"
*/
//% group="Basic"
//% block="Set the Bluetooth name as %str"
//% weight=450
export function setBluetooth(str: string) {
let len, addr, wait
len = str.length - 1 + 8
addr = 0x13
wait = 100
writeStrCommand(len, str.length - 1, addr, str, wait)
}
//% group="Basic"
//% block="get XGO's current power"
//% weight=470
export function batteryStatus(): number {
let len, addr, readlen, wait
len = 0x09
addr = 0x01
readlen = 0x01
wait = 0
return readCommandOneData(len, addr, readlen, wait)
}
//% group="Basic"
//% weight=460
//%block="get XGO's version"
export function getVersion(): string {
let commands_buffer = pins.createBuffer(9)
commands_buffer[0] = headDataH
commands_buffer[1] = headDataL
commands_buffer[2] = 0x09
commands_buffer[3] = 0x02
commands_buffer[4] = 0x07
commands_buffer[5] = 0x00
commands_buffer[6] = 0xED
commands_buffer[7] = tailDataH
commands_buffer[8] = tailDataL
serial.writeBuffer(commands_buffer)
let read_data_buffer = pins.createBuffer(9)
read_data_buffer = serial.readBuffer(18)
let version = String.fromCharCode(read_data_buffer[5]) + String.fromCharCode(read_data_buffer[6]) + String.fromCharCode(read_data_buffer[7]) + String.fromCharCode(read_data_buffer[8]) + String.fromCharCode(read_data_buffer[9])
return version
}
/**
* TODO: Set the color of the LED light on the back number to color
* @param num describe parameter here, eg: LEDNumber.One
*/
//% group="Basic"
//% block="Set the color of the LED light on the back %num to $color"
//% color.shadow="colorNumberPicker"
//% weight=450
export function setLEDMode(num: LEDNumber, color: number) {
let len, addr, data, wait
len = 0x0B
data = color
wait = 100
// switch (color) {
// case LEDColor.Red:
// data = 0xFF0000
// wait = 100
// break
// case LEDColor.Orange:
// data = 0xFFA500
// wait = 100
// break
// case LEDColor.Yellow:
// data = 0xFFFF00
// wait = 100
// break
// case LEDColor.Green:
// data = 0x00FF00
// wait = 100
// break
// case LEDColor.Blue:
// data = 0x0000FF
// wait = 100
// break
// case LEDColor.Indigo:
// data = 0x4b0082
// wait = 100
// break
// case LEDColor.Violet:
// data = 0x8a2be2
// wait = 100
// break
// case LEDColor.Purple:
// data = 0xFF00FF
// wait = 100
// break
// case LEDColor.White:
// data = 0xFFFFFF
// wait = 100
// break
// case LEDColor.Black:
// data = 0x000000
// wait = 100
// break
// }
if (num == LEDNumber.All) {
addr = 0x69
writeThreeCommand(len, addr, ((data >> 16) & 0xff), ((data >> 8) & 0xff), ((data >> 0) & 0xff), wait)
addr = 0x6A
writeThreeCommand(len, addr, ((data >> 16) & 0xff), ((data >> 8) & 0xff), ((data >> 0) & 0xff), wait)
addr = 0x6B
writeThreeCommand(len, addr, ((data >> 16) & 0xff), ((data >> 8) & 0xff), ((data >> 0) & 0xff), wait)
addr = 0x6C
writeThreeCommand(len, addr, ((data >> 16) & 0xff), ((data >> 8) & 0xff), ((data >> 0) & 0xff), wait)
} else {
switch (num) {
case LEDNumber.One:
addr = 0x69
break
case LEDNumber.Tow:
addr = 0x6A
break
case LEDNumber.Three:
addr = 0x6B
break
case LEDNumber.Four:
addr = 0x6C
break
}
writeThreeCommand(len, addr, ((data >> 16) & 0xff), ((data >> 8) & 0xff), ((data >> 0) & 0xff), wait)
}
}
/**
* TODO: Set GRB
* @param r describe parameter here, eg: 0xff
* @param g describe parameter here, eg: 0
* @param b describe parameter here, eg: 0
*/
//% group="Basic"
//% block="Set GRB R: %r G: %g B: %b"
//% weight=440
export function setRGBValue(r: number, g: number, b: number): number {
return (((r << 16) & 0xff) | ((g << 8) & 0xff) | (b & 0xff))
}
/**
* TODO: Set the dynamic balance mode
*/
//% group="Servo"
//% block="%val Dynamic balancing mode"
//% weight=400
export function setBalanceMode(val: SelectRepeater) {
let len, addr, data, wait
len = 0x09
addr = 0x61
switch (val) {
case SelectRepeater.On:
data = 0x01
break
case SelectRepeater.Off:
data = 0x00
break
}
wait = 100
writeCommand(len, addr, data, wait)
}
/**
* TODO: Set calibration mode
*/
//% group="Servo"
//% block="%val calibration mode"
//% weight=390
export function setCalibrationMode(val: CalibrationEnum) {
let len, addr, data, wait
len = 0x09
addr = 0x04
switch (val) {
case CalibrationEnum.Enter:
data = 0x01
break
case CalibrationEnum.Complete:
data = 0x00
break
}
wait = 100
writeCommand(len, addr, data, wait)
}
/**
* TODO: Read value attitude angle
* @param %val describe parameter here, eg: AngleEnum.Roll
*/
//% group="Servo"
//% block="Read %val attitude angle"
//% weight=380
export function readAngle(val: AngleEnum): number{
let len, addr, data, wait
len = 0x09
switch (val) {
case AngleEnum.Pitch:
addr = 0x67
break
case AngleEnum.Roll:
addr = 0x66
break
case AngleEnum.Yaw:
addr = 0x68
break
}
data = 0x02
wait = 100
return readDoubleCommandOneData(len, addr, data, wait)
}
/**
* TODO: set Rider height
* @param high describe parameter here, eg: 0
*/
//% group="Servo"
//% block="set Rider height %high mm"
//% high.min=-20 high.max=20
//% weight=370
export function setHeight(high: number) {
let len, addr, data, wait
len = 0x09
addr = 0x35
data = Math.map(high, -20, 20, 0, 255)
wait = 100
writeCommand(len, addr, data, wait)
}
/**
* TODO: Adjust the left and right tilt of the fuselage angle °
* @param angle describe parameter here, eg: 0
*/
//% group="Servo"
//% block="Adjust the left and right tilt of the fuselage %angle °"
//% angle.min=-100 angle.max=100
//% weight=360
export function setAngle(angle: number) {
let len, addr, data, wait
len = 0x09
addr = 0x36
data = Math.map(angle, -100, 100, 0, 255)
wait = 100
writeCommand(len, addr, data, wait)
}
/**
* TODO: Move at any speed for any s
* @param speed describe parameter here, eg: 0
* @param time describe parameter here, eg: 5
*/
//% group="Sports"
//% block="Move %direct at %speed speed for %time s"
//% speed.min=0 speed.max=100
//% weight=200
export function moveRider(direct: DirectionEnum, speed: number, time: number) {
let len, addr, data, wait
len = 0x09
addr = 0x30
if (direct == DirectionEnum.Forward) {
speed = speed
} else if (direct == DirectionEnum.Backward) {
speed = -speed
}
data = Math.map(speed, -100, 100, 0, 255)
wait = time * 1000
writeCommand(len, addr, data, wait)
speed = 0
data = Math.map(speed, -100, 100, 0, 255)
wait = 100
writeCommand(len, addr, data, wait)
}
/**
* TODO: Rotate %direct at %speed speed for %time s
* @param speed describe parameter here, eg: 0
* @param time describe parameter here, eg: 5
*/
//% group="Sports"
//% block="Rotate %direct at %speed speed for %time s"
//% speed.min=0 speed.max=100
//% weight=190
export function rotateRider(direct: RatateEnum, speed: number, time: number) {
let len, addr, data, wait
len = 0x09
addr = 0x32
if (direct == RatateEnum.Cw) {
speed = speed
} else if (direct == RatateEnum.Ccw) {
speed = -speed
}
data = Math.map(speed, -100, 100, 0, 255)
wait = time * 1000
writeCommand(len, addr, data, wait)
speed = 0
data = Math.map(speed, -100, 100, 0, 255)
wait = 100
writeCommand(len, addr, data, wait)
}
/**
* TODO: Set Rider to perform squatting motion with a period of %time s.
* @param time describe parameter here, eg: 3
*/
//% group="Sports"
//% block="Set Rider to perform squatting motion with a period of %time s"
//% time.min=2 time.max=4
//% weight=180
export function squattingFunc(time: number) {
let len, addr, data, wait
len = 0x09
addr = 0x82
time = 4 - time
data = Math.map(time, 0, 2, 1, 255)
wait = 1000
writeCommand(len, addr, data, wait)
}
/**
* TODO: Set the Rider to shake left and right with a period of x s.
* @param time describe parameter here, eg: 3
*/
//% group="Sports"
//% block="Set the Rider to shake left and right with a period of %time s"
//% time.min=2 time.max=4
//% weight=170
export function shufflingFunc(time: number) {
let len, addr, data, wait
len = 0x09
addr = 0x39
time = 4 - time
data = Math.map(time, 0, 2, 1, 255)
wait = 1000
writeCommand(len, addr, data, wait)
}
}