pxt-ev3/libs/core/output.ts

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enum Output {
A = 0x01,
B = 0x02,
C = 0x04,
D = 0x08,
ALL = 0x0f
}
enum OutputType {
None = 0,
Tacho = 7,
MiniTacho = 8,
}
namespace output {
let pwmMM: MMap
let motorMM: MMap
const enum MotorDataOff {
TachoCounts = 0, // int32
Speed = 4, // int8
Padding = 5, // int8[3]
TachoSensor = 8, // int32
Size = 12
}
function init() {
if (pwmMM) return
pwmMM = control.mmap("/dev/lms_pwm", 0, 0)
if (!pwmMM) control.fail("no PWM file")
motorMM = control.mmap("/dev/lms_motor", MotorDataOff.Size * DAL.NUM_OUTPUTS, 0)
stop(Output.ALL)
let buf = output.createBuffer(1)
buf[0] = DAL.opProgramStart
writePWM(buf)
}
function writePWM(buf: Buffer): void {
init()
pwmMM.write(buf)
}
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function readPWM(buf: Buffer): void {
init()
pwmMM.read(buf);
}
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function mkCmd(out: Output, cmd: number, addSize: number) {
let b = createBuffer(2 + addSize)
b.setNumber(NumberFormat.UInt8LE, 0, cmd)
b.setNumber(NumberFormat.UInt8LE, 1, out)
return b
}
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/**
* Turn a motor on for a specified number of milliseconds.
* @param out the output connection that the motor is connected to
* @param ms the number of milliseconds to turn the motor on, eg: 500
* @param useBrake whether or not to use the brake, defaults to false
*/
//% blockId=output_turn block="turn motor %out| on for %ms| milliseconds"
//% weight=100 group="Motors"
export function turn(out: Output, ms: number, useBrake = false) {
// TODO: use current power / speed configuration
output.step(out, {
power: 100,
step1: 0,
step2: ms,
step3: 0,
useBrake: useBrake
})
}
/**
* Turn motor off.
* @param out the output connection that the motor is connected to
*/
//% blockId=output_stop block="turn motor %out| off"
//% weight=90 group="Motors"
export function stop(out: Output, useBrake = false) {
let b = mkCmd(out, DAL.opOutputStop, 1)
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b.setNumber(NumberFormat.UInt8LE, 2, useBrake ? 1 : 0)
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writePWM(b)
}
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/**
* Turn motor on.
* @param out the output connection that the motor is connected to
*/
//% blockId=output_start block="turn motor %out| on"
//% weight=95 group="Motors"
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export function start(out: Output) {
let b = mkCmd(out, DAL.opOutputStart, 0)
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writePWM(b)
}
export function reset(out: Output) {
let b = mkCmd(out, DAL.opOutputReset, 0)
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writePWM(b)
}
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/*export function getSpeed(out: Output): number {
let b = mkCmd(out, DAL.opOutputSpeed, 0)
readPWM(b)
return b.getNumber(NumberFormat.Int16LE, 1)
}*/
/**
* Set motor speed.
* @param out the output connection that the motor is connected to
* @param speed the desired speed to use. eg: 100
*/
//% blockId=output_setSpeed block="set motor %out| speed to %speed"
//% weight=81 group="Motors"
//% speed.min=-100 speed.max=100
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export function setSpeed(out: Output, speed: number) {
let b = mkCmd(out, DAL.opOutputSpeed, 1)
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b.setNumber(NumberFormat.Int8LE, 2, Math.clamp(-100, 100, speed))
writePWM(b)
}
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/**
* Set motor power.
* @param out the output connection that the motor is connected to
* @param power the desired power to use. eg: 100
*/
//% blockId=output_setPower block="set motor %out| power to %power"
//% weight=80 group="Motors"
//% power.min=-100 power.max=100
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export function setPower(out: Output, power: number) {
let b = mkCmd(out, DAL.opOutputPower, 1)
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b.setNumber(NumberFormat.Int8LE, 2, Math.clamp(-100, 100, power))
writePWM(b)
}
export function setPolarity(out: Output, polarity: number) {
let b = mkCmd(out, DAL.opOutputPolarity, 1)
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b.setNumber(NumberFormat.Int8LE, 2, Math.clamp(-1, 1, polarity))
writePWM(b)
}
export interface StepOptions {
power?: number;
speed?: number; // either speed or power has to be present
step1: number;
step2: number;
step3: number;
useSteps?: boolean; // otherwise use milliseconds
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useBrake?: boolean;
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}
export function step(out: Output, opts: StepOptions) {
let op = opts.useSteps ? DAL.opOutputStepSpeed : DAL.opOutputTimeSpeed
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let speed = opts.speed
if (speed == null) {
speed = opts.power
op = opts.useSteps ? DAL.opOutputStepPower : DAL.opOutputTimePower
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if (speed == null)
return
}
speed = Math.clamp(-100, 100, speed)
let b = mkCmd(out, op, 15)
b.setNumber(NumberFormat.Int8LE, 2, speed)
// note that b[3] is padding
b.setNumber(NumberFormat.Int32LE, 4 + 4 * 0, opts.step1)
b.setNumber(NumberFormat.Int32LE, 4 + 4 * 1, opts.step2)
b.setNumber(NumberFormat.Int32LE, 4 + 4 * 2, opts.step3)
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b.setNumber(NumberFormat.Int8LE, 4 + 4 * 3, opts.useBrake ? 1 : 0)
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writePWM(b)
}
const types = [0, 0, 0, 0]
export function setType(out: Output, type: OutputType) {
let b = mkCmd(out, DAL.opOutputSetType, 3)
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for (let i = 0; i < 4; ++i) {
if (out & (1 << i)) {
types[i] = type
}
b.setNumber(NumberFormat.UInt8LE, i + 1, types[i])
}
writePWM(b)
}
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}
interface Buffer {
[index: number]: number;
// rest defined in buffer.cpp
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}