namespace pxsim { export class EV3OutputState { constructor() { let data = new Uint8Array(10) MMapMethods.register("/dev/lms_pwm", { data, beforeMemRead: () => { //console.log("pwm before read"); for (let i = 0; i < 10; ++i) data[i] = 0 }, read: buf => { let v = "vSIM" for (let i = 0; i < buf.data.length; ++i) buf.data[i] = v.charCodeAt(i) || 0 console.log("pwm read"); return buf.data.length }, write: buf => { if (buf.data.length == 0) return 2; const cmd = buf.data[0]; switch (cmd) { case DAL.opProgramStart: { // init console.log('init'); return 2; } case DAL.opOutputReset: { // reset const port = buf.data[1]; const motors = ev3board().getMotor(port); motors.forEach(motor => motor.reset()); return 2; } case DAL.opOutputClearCount: const port = buf.data[1]; const motors = ev3board().getMotor(port); motors.forEach(motor => motor.clearCount()); break; case DAL.opOutputStepPower: case DAL.opOutputStepSpeed: case DAL.opOutputTimePower: case DAL.opOutputTimeSpeed: { // step speed const port = buf.data[1]; const speed = pxsim.BufferMethods.getNumber(buf, BufferMethods.NumberFormat.Int8LE, 2); // signed byte // note that b[3] is padding const step1 = pxsim.BufferMethods.getNumber(buf, BufferMethods.NumberFormat.Int32LE, 4); const step2 = pxsim.BufferMethods.getNumber(buf, BufferMethods.NumberFormat.Int32LE, 8); const step3 = pxsim.BufferMethods.getNumber(buf, BufferMethods.NumberFormat.Int32LE, 12); const brake = pxsim.BufferMethods.getNumber(buf, BufferMethods.NumberFormat.Int8LE, 16); //console.log(buf); const motors = ev3board().getMotor(port); motors.forEach(motor => motor.setSpeedCmd(cmd, [speed, step1, step2, step3, brake])); return 2; } case DAL.opOutputStepSync: case DAL.opOutputTimeSync: { const port = buf.data[1]; const speed = pxsim.BufferMethods.getNumber(buf, BufferMethods.NumberFormat.Int8LE, 2); // signed byte // note that b[3] is padding const turnRatio = pxsim.BufferMethods.getNumber(buf, BufferMethods.NumberFormat.Int16LE, 4); // b[6], b[7] is padding const stepsOrTime = pxsim.BufferMethods.getNumber(buf, BufferMethods.NumberFormat.Int32LE, 8); const brake = pxsim.BufferMethods.getNumber(buf, BufferMethods.NumberFormat.Int8LE, 12); const motors = ev3board().getMotor(port); for (const motor of motors) { const otherMotor = motors.filter(m => m.port != motor.port)[0]; motor.setSyncCmd( motor.port < otherMotor.port ? otherMotor : undefined, cmd, [speed, turnRatio, stepsOrTime, brake]); } return 2; } case DAL.opOutputStop: { // stop const port = buf.data[1]; const brake = pxsim.BufferMethods.getNumber(buf, BufferMethods.NumberFormat.Int8LE, 2); const motors = ev3board().getMotor(port); motors.forEach(motor => motor.stop()); return 2; } case DAL.opOutputSpeed: { // setSpeed const port = buf.data[1]; const speed = pxsim.BufferMethods.getNumber(buf, BufferMethods.NumberFormat.Int8LE, 2); const motors = ev3board().getMotor(port); motors.forEach(motor => motor.setSpeedCmd(cmd, [speed])); return 2; } case DAL.opOutputStart: { // start const port = buf.data[1]; const motors = ev3board().getMotor(port); motors.forEach(motor => motor.start()); return 2; } case DAL.opOutputPolarity: { // reverse const port = buf.data[1]; const polarity = pxsim.BufferMethods.getNumber(buf, BufferMethods.NumberFormat.Int8LE, 2); const motors = ev3board().getMotor(port); motors.forEach(motor => motor.setPolarity(polarity)); return 2; } case DAL.opOutputSetType: { const port = buf.data[1]; const large = buf.data[2] == 0x07; const motors = ev3board().getMotor(port); motors.forEach(motor => motor.setLarge(large)); return 2; } default: console.warn('unknown cmd: ' + cmd); break; } console.log("pwm write"); console.log(buf); return 2 }, ioctl: (id, buf) => { console.log("pwm ioctl"); console.log(id); console.log(buf); return 2; } }); } } }