yoctolib-esm
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Yoctopuce library for TypeScript/JavaScript, as an ECMAScript 2015 module
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JavaScript
/*********************************************************************
*
* $Id: svn_id $
*
* Implements the high-level API for StepperMotor functions
*
* - - - - - - - - - License information: - - - - - - - - -
*
* Copyright (C) 2011 and beyond by Yoctopuce Sarl, Switzerland.
*
* Yoctopuce Sarl (hereafter Licensor) grants to you a perpetual
* non-exclusive license to use, modify, copy and integrate this
* file into your software for the sole purpose of interfacing
* with Yoctopuce products.
*
* You may reproduce and distribute copies of this file in
* source or object form, as long as the sole purpose of this
* code is to interface with Yoctopuce products. You must retain
* this notice in the distributed source file.
*
* You should refer to Yoctopuce General Terms and Conditions
* for additional information regarding your rights and
* obligations.
*
* THE SOFTWARE AND DOCUMENTATION ARE PROVIDED 'AS IS' WITHOUT
* WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING
* WITHOUT LIMITATION, ANY WARRANTY OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE, TITLE AND NON-INFRINGEMENT. IN NO
* EVENT SHALL LICENSOR BE LIABLE FOR ANY INCIDENTAL, SPECIAL,
* INDIRECT OR CONSEQUENTIAL DAMAGES, LOST PROFITS OR LOST DATA,
* COST OF PROCUREMENT OF SUBSTITUTE GOODS, TECHNOLOGY OR
* SERVICES, ANY CLAIMS BY THIRD PARTIES (INCLUDING BUT NOT
* LIMITED TO ANY DEFENSE THEREOF), ANY CLAIMS FOR INDEMNITY OR
* CONTRIBUTION, OR OTHER SIMILAR COSTS, WHETHER ASSERTED ON THE
* BASIS OF CONTRACT, TORT (INCLUDING NEGLIGENCE), BREACH OF
* WARRANTY, OR OTHERWISE.
*
*********************************************************************/
import { YAPI, YFunction } from './yocto_api.js';
//--- (YStepperMotor class start)
/**
* YStepperMotor Class: stepper motor control interface
*
* The YStepperMotor class allows you to drive a stepper motor.
*/
//--- (end of YStepperMotor class start)
export class YStepperMotor extends YFunction {
//--- (end of YStepperMotor attributes declaration)
constructor(yapi, func) {
//--- (YStepperMotor constructor)
super(yapi, func);
this._motorState = YStepperMotor.MOTORSTATE_INVALID;
this._diags = YStepperMotor.DIAGS_INVALID;
this._stepPos = YStepperMotor.STEPPOS_INVALID;
this._speed = YStepperMotor.SPEED_INVALID;
this._pullinSpeed = YStepperMotor.PULLINSPEED_INVALID;
this._maxAccel = YStepperMotor.MAXACCEL_INVALID;
this._maxSpeed = YStepperMotor.MAXSPEED_INVALID;
this._stepping = YStepperMotor.STEPPING_INVALID;
this._overcurrent = YStepperMotor.OVERCURRENT_INVALID;
this._tCurrStop = YStepperMotor.TCURRSTOP_INVALID;
this._tCurrRun = YStepperMotor.TCURRRUN_INVALID;
this._alertMode = YStepperMotor.ALERTMODE_INVALID;
this._auxMode = YStepperMotor.AUXMODE_INVALID;
this._auxSignal = YStepperMotor.AUXSIGNAL_INVALID;
this._command = YStepperMotor.COMMAND_INVALID;
this._valueCallbackStepperMotor = null;
// API symbols as object properties
this.MOTORSTATE_ABSENT = 0;
this.MOTORSTATE_ALERT = 1;
this.MOTORSTATE_HI_Z = 2;
this.MOTORSTATE_STOP = 3;
this.MOTORSTATE_RUN = 4;
this.MOTORSTATE_BATCH = 5;
this.MOTORSTATE_INVALID = -1;
this.DIAGS_INVALID = YAPI.INVALID_UINT;
this.STEPPOS_INVALID = YAPI.INVALID_DOUBLE;
this.SPEED_INVALID = YAPI.INVALID_DOUBLE;
this.PULLINSPEED_INVALID = YAPI.INVALID_DOUBLE;
this.MAXACCEL_INVALID = YAPI.INVALID_DOUBLE;
this.MAXSPEED_INVALID = YAPI.INVALID_DOUBLE;
this.STEPPING_MICROSTEP16 = 0;
this.STEPPING_MICROSTEP8 = 1;
this.STEPPING_MICROSTEP4 = 2;
this.STEPPING_HALFSTEP = 3;
this.STEPPING_FULLSTEP = 4;
this.STEPPING_INVALID = -1;
this.OVERCURRENT_INVALID = YAPI.INVALID_UINT;
this.TCURRSTOP_INVALID = YAPI.INVALID_UINT;
this.TCURRRUN_INVALID = YAPI.INVALID_UINT;
this.ALERTMODE_INVALID = YAPI.INVALID_STRING;
this.AUXMODE_INVALID = YAPI.INVALID_STRING;
this.AUXSIGNAL_INVALID = YAPI.INVALID_INT;
this.COMMAND_INVALID = YAPI.INVALID_STRING;
this._className = 'StepperMotor';
//--- (end of YStepperMotor constructor)
}
//--- (YStepperMotor implementation)
imm_parseAttr(name, val) {
switch (name) {
case 'motorState':
this._motorState = val;
return 1;
case 'diags':
this._diags = val;
return 1;
case 'stepPos':
this._stepPos = val / 16.0;
return 1;
case 'speed':
this._speed = Math.round(val / 65.536) / 1000.0;
return 1;
case 'pullinSpeed':
this._pullinSpeed = Math.round(val / 65.536) / 1000.0;
return 1;
case 'maxAccel':
this._maxAccel = Math.round(val / 65.536) / 1000.0;
return 1;
case 'maxSpeed':
this._maxSpeed = Math.round(val / 65.536) / 1000.0;
return 1;
case 'stepping':
this._stepping = val;
return 1;
case 'overcurrent':
this._overcurrent = val;
return 1;
case 'tCurrStop':
this._tCurrStop = val;
return 1;
case 'tCurrRun':
this._tCurrRun = val;
return 1;
case 'alertMode':
this._alertMode = val;
return 1;
case 'auxMode':
this._auxMode = val;
return 1;
case 'auxSignal':
this._auxSignal = val;
return 1;
case 'command':
this._command = val;
return 1;
}
return super.imm_parseAttr(name, val);
}
/**
* Returns the motor working state.
*
* @return a value among YStepperMotor.MOTORSTATE_ABSENT, YStepperMotor.MOTORSTATE_ALERT,
* YStepperMotor.MOTORSTATE_HI_Z, YStepperMotor.MOTORSTATE_STOP, YStepperMotor.MOTORSTATE_RUN and
* YStepperMotor.MOTORSTATE_BATCH corresponding to the motor working state
*
* On failure, throws an exception or returns YStepperMotor.MOTORSTATE_INVALID.
*/
async get_motorState() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.MOTORSTATE_INVALID;
}
}
res = this._motorState;
return res;
}
/**
* Returns the stepper motor controller diagnostics, as a bitmap.
*
* @return an integer corresponding to the stepper motor controller diagnostics, as a bitmap
*
* On failure, throws an exception or returns YStepperMotor.DIAGS_INVALID.
*/
async get_diags() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.DIAGS_INVALID;
}
}
res = this._diags;
return res;
}
/**
* Changes the current logical motor position, measured in steps.
* This command does not cause any motor move, as its purpose is only to set up
* the origin of the position counter. The fractional part of the position,
* that corresponds to the physical position of the rotor, is not changed.
* To trigger a motor move, use methods moveTo() or moveRel()
* instead.
*
* @param newval : a floating point number corresponding to the current logical motor position, measured in steps
*
* @return YAPI.SUCCESS if the call succeeds.
*
* On failure, throws an exception or returns a negative error code.
*/
async set_stepPos(newval) {
let rest_val;
rest_val = String(Math.round(newval * 100.0) / 100.0);
return await this._setAttr('stepPos', rest_val);
}
/**
* Returns the current logical motor position, measured in steps.
* The value may include a fractional part when micro-stepping is in use.
*
* @return a floating point number corresponding to the current logical motor position, measured in steps
*
* On failure, throws an exception or returns YStepperMotor.STEPPOS_INVALID.
*/
async get_stepPos() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.STEPPOS_INVALID;
}
}
res = this._stepPos;
return res;
}
/**
* Returns current motor speed, measured in steps per second.
* To change speed, use method changeSpeed().
*
* @return a floating point number corresponding to current motor speed, measured in steps per second
*
* On failure, throws an exception or returns YStepperMotor.SPEED_INVALID.
*/
async get_speed() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.SPEED_INVALID;
}
}
res = this._speed;
return res;
}
/**
* Changes the motor speed immediately reachable from stop state, measured in steps per second.
*
* @param newval : a floating point number corresponding to the motor speed immediately reachable from
* stop state, measured in steps per second
*
* @return YAPI.SUCCESS if the call succeeds.
*
* On failure, throws an exception or returns a negative error code.
*/
async set_pullinSpeed(newval) {
let rest_val;
rest_val = String(Math.round(newval * 65536.0));
return await this._setAttr('pullinSpeed', rest_val);
}
/**
* Returns the motor speed immediately reachable from stop state, measured in steps per second.
*
* @return a floating point number corresponding to the motor speed immediately reachable from stop
* state, measured in steps per second
*
* On failure, throws an exception or returns YStepperMotor.PULLINSPEED_INVALID.
*/
async get_pullinSpeed() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.PULLINSPEED_INVALID;
}
}
res = this._pullinSpeed;
return res;
}
/**
* Changes the maximal motor acceleration, measured in steps per second^2.
*
* @param newval : a floating point number corresponding to the maximal motor acceleration, measured
* in steps per second^2
*
* @return YAPI.SUCCESS if the call succeeds.
*
* On failure, throws an exception or returns a negative error code.
*/
async set_maxAccel(newval) {
let rest_val;
rest_val = String(Math.round(newval * 65536.0));
return await this._setAttr('maxAccel', rest_val);
}
/**
* Returns the maximal motor acceleration, measured in steps per second^2.
*
* @return a floating point number corresponding to the maximal motor acceleration, measured in steps per second^2
*
* On failure, throws an exception or returns YStepperMotor.MAXACCEL_INVALID.
*/
async get_maxAccel() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.MAXACCEL_INVALID;
}
}
res = this._maxAccel;
return res;
}
/**
* Changes the maximal motor speed, measured in steps per second.
*
* @param newval : a floating point number corresponding to the maximal motor speed, measured in steps per second
*
* @return YAPI.SUCCESS if the call succeeds.
*
* On failure, throws an exception or returns a negative error code.
*/
async set_maxSpeed(newval) {
let rest_val;
rest_val = String(Math.round(newval * 65536.0));
return await this._setAttr('maxSpeed', rest_val);
}
/**
* Returns the maximal motor speed, measured in steps per second.
*
* @return a floating point number corresponding to the maximal motor speed, measured in steps per second
*
* On failure, throws an exception or returns YStepperMotor.MAXSPEED_INVALID.
*/
async get_maxSpeed() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.MAXSPEED_INVALID;
}
}
res = this._maxSpeed;
return res;
}
/**
* Returns the stepping mode used to drive the motor.
*
* @return a value among YStepperMotor.STEPPING_MICROSTEP16, YStepperMotor.STEPPING_MICROSTEP8,
* YStepperMotor.STEPPING_MICROSTEP4, YStepperMotor.STEPPING_HALFSTEP and
* YStepperMotor.STEPPING_FULLSTEP corresponding to the stepping mode used to drive the motor
*
* On failure, throws an exception or returns YStepperMotor.STEPPING_INVALID.
*/
async get_stepping() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.STEPPING_INVALID;
}
}
res = this._stepping;
return res;
}
/**
* Changes the stepping mode used to drive the motor.
*
* @param newval : a value among YStepperMotor.STEPPING_MICROSTEP16,
* YStepperMotor.STEPPING_MICROSTEP8, YStepperMotor.STEPPING_MICROSTEP4,
* YStepperMotor.STEPPING_HALFSTEP and YStepperMotor.STEPPING_FULLSTEP corresponding to the stepping
* mode used to drive the motor
*
* @return YAPI.SUCCESS if the call succeeds.
*
* On failure, throws an exception or returns a negative error code.
*/
async set_stepping(newval) {
let rest_val;
rest_val = String(newval);
return await this._setAttr('stepping', rest_val);
}
/**
* Returns the overcurrent alert and emergency stop threshold, measured in mA.
*
* @return an integer corresponding to the overcurrent alert and emergency stop threshold, measured in mA
*
* On failure, throws an exception or returns YStepperMotor.OVERCURRENT_INVALID.
*/
async get_overcurrent() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.OVERCURRENT_INVALID;
}
}
res = this._overcurrent;
return res;
}
/**
* Changes the overcurrent alert and emergency stop threshold, measured in mA.
*
* @param newval : an integer corresponding to the overcurrent alert and emergency stop threshold, measured in mA
*
* @return YAPI.SUCCESS if the call succeeds.
*
* On failure, throws an exception or returns a negative error code.
*/
async set_overcurrent(newval) {
let rest_val;
rest_val = String(newval);
return await this._setAttr('overcurrent', rest_val);
}
/**
* Returns the torque regulation current when the motor is stopped, measured in mA.
*
* @return an integer corresponding to the torque regulation current when the motor is stopped, measured in mA
*
* On failure, throws an exception or returns YStepperMotor.TCURRSTOP_INVALID.
*/
async get_tCurrStop() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.TCURRSTOP_INVALID;
}
}
res = this._tCurrStop;
return res;
}
/**
* Changes the torque regulation current when the motor is stopped, measured in mA.
*
* @param newval : an integer corresponding to the torque regulation current when the motor is
* stopped, measured in mA
*
* @return YAPI.SUCCESS if the call succeeds.
*
* On failure, throws an exception or returns a negative error code.
*/
async set_tCurrStop(newval) {
let rest_val;
rest_val = String(newval);
return await this._setAttr('tCurrStop', rest_val);
}
/**
* Returns the torque regulation current when the motor is running, measured in mA.
*
* @return an integer corresponding to the torque regulation current when the motor is running, measured in mA
*
* On failure, throws an exception or returns YStepperMotor.TCURRRUN_INVALID.
*/
async get_tCurrRun() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.TCURRRUN_INVALID;
}
}
res = this._tCurrRun;
return res;
}
/**
* Changes the torque regulation current when the motor is running, measured in mA.
*
* @param newval : an integer corresponding to the torque regulation current when the motor is
* running, measured in mA
*
* @return YAPI.SUCCESS if the call succeeds.
*
* On failure, throws an exception or returns a negative error code.
*/
async set_tCurrRun(newval) {
let rest_val;
rest_val = String(newval);
return await this._setAttr('tCurrRun', rest_val);
}
async get_alertMode() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.ALERTMODE_INVALID;
}
}
res = this._alertMode;
return res;
}
async set_alertMode(newval) {
let rest_val;
rest_val = String(newval);
return await this._setAttr('alertMode', rest_val);
}
async get_auxMode() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.AUXMODE_INVALID;
}
}
res = this._auxMode;
return res;
}
async set_auxMode(newval) {
let rest_val;
rest_val = String(newval);
return await this._setAttr('auxMode', rest_val);
}
/**
* Returns the current value of the signal generated on the auxiliary output.
*
* @return an integer corresponding to the current value of the signal generated on the auxiliary output
*
* On failure, throws an exception or returns YStepperMotor.AUXSIGNAL_INVALID.
*/
async get_auxSignal() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.AUXSIGNAL_INVALID;
}
}
res = this._auxSignal;
return res;
}
/**
* Changes the value of the signal generated on the auxiliary output.
* Acceptable values depend on the auxiliary output signal type configured.
*
* @param newval : an integer corresponding to the value of the signal generated on the auxiliary output
*
* @return YAPI.SUCCESS if the call succeeds.
*
* On failure, throws an exception or returns a negative error code.
*/
async set_auxSignal(newval) {
let rest_val;
rest_val = String(newval);
return await this._setAttr('auxSignal', rest_val);
}
async get_command() {
let res;
if (this._cacheExpiration <= this._yapi.GetTickCount()) {
if (await this.load(this._yapi.defaultCacheValidity) != this._yapi.SUCCESS) {
return YStepperMotor.COMMAND_INVALID;
}
}
res = this._command;
return res;
}
async set_command(newval) {
let rest_val;
rest_val = String(newval);
return await this._setAttr('command', rest_val);
}
/**
* Retrieves a stepper motor for a given identifier.
* The identifier can be specified using several formats:
*
* - FunctionLogicalName
* - ModuleSerialNumber.FunctionIdentifier
* - ModuleSerialNumber.FunctionLogicalName
* - ModuleLogicalName.FunctionIdentifier
* - ModuleLogicalName.FunctionLogicalName
*
*
* This function does not require that the stepper motor is online at the time
* it is invoked. The returned object is nevertheless valid.
* Use the method YStepperMotor.isOnline() to test if the stepper motor is
* indeed online at a given time. In case of ambiguity when looking for
* a stepper motor by logical name, no error is notified: the first instance
* found is returned. The search is performed first by hardware name,
* then by logical name.
*
* If a call to this object's is_online() method returns FALSE although
* you are certain that the matching device is plugged, make sure that you did
* call registerHub() at application initialization time.
*
* @param func : a string that uniquely characterizes the stepper motor, for instance
* MyDevice.stepperMotor1.
*
* @return a YStepperMotor object allowing you to drive the stepper motor.
*/
static FindStepperMotor(func) {
let obj;
obj = YFunction._FindFromCache('StepperMotor', func);
if (obj == null) {
obj = new YStepperMotor(YAPI, func);
YFunction._AddToCache('StepperMotor', func, obj);
}
return obj;
}
/**
* Retrieves a stepper motor for a given identifier in a YAPI context.
* The identifier can be specified using several formats:
*
* - FunctionLogicalName
* - ModuleSerialNumber.FunctionIdentifier
* - ModuleSerialNumber.FunctionLogicalName
* - ModuleLogicalName.FunctionIdentifier
* - ModuleLogicalName.FunctionLogicalName
*
*
* This function does not require that the stepper motor is online at the time
* it is invoked. The returned object is nevertheless valid.
* Use the method YStepperMotor.isOnline() to test if the stepper motor is
* indeed online at a given time. In case of ambiguity when looking for
* a stepper motor by logical name, no error is notified: the first instance
* found is returned. The search is performed first by hardware name,
* then by logical name.
*
* @param yctx : a YAPI context
* @param func : a string that uniquely characterizes the stepper motor, for instance
* MyDevice.stepperMotor1.
*
* @return a YStepperMotor object allowing you to drive the stepper motor.
*/
static FindStepperMotorInContext(yctx, func) {
let obj;
obj = YFunction._FindFromCacheInContext(yctx, 'StepperMotor', func);
if (obj == null) {
obj = new YStepperMotor(yctx, func);
YFunction._AddToCache('StepperMotor', func, obj);
}
return obj;
}
/**
* Registers the callback function that is invoked on every change of advertised value.
* The callback is invoked only during the execution of ySleep or yHandleEvents.
* This provides control over the time when the callback is triggered. For good responsiveness, remember to call
* one of these two functions periodically. To unregister a callback, pass a null pointer as argument.
*
* @param callback : the callback function to call, or a null pointer. The callback function should take two
* arguments: the function object of which the value has changed, and the character string describing
* the new advertised value.
* @noreturn
*/
async registerValueCallback(callback) {
let val;
if (callback != null) {
await YFunction._UpdateValueCallbackList(this, true);
}
else {
await YFunction._UpdateValueCallbackList(this, false);
}
this._valueCallbackStepperMotor = callback;
// Immediately invoke value callback with current value
if (callback != null && await this.isOnline()) {
val = this._advertisedValue;
if (!(val == '')) {
await this._invokeValueCallback(val);
}
}
return 0;
}
async _invokeValueCallback(value) {
if (this._valueCallbackStepperMotor != null) {
try {
await this._valueCallbackStepperMotor(this, value);
}
catch (e) {
this._yapi.imm_log('Exception in valueCallback:', e);
}
}
else {
await super._invokeValueCallback(value);
}
return 0;
}
async sendCommand(command) {
let id;
let url;
let retBin;
let res;
id = await this.get_functionId();
id = id.substr(12, 1);
url = 'cmd.txt?' + id + '=' + command;
//may throw an exception
retBin = await this._download(url);
res = retBin[0];
if (res < 58) {
if (!(res == 48)) {
return this._throw(this._yapi.DEVICE_BUSY, 'Motor command pipeline is full, try again later', this._yapi.DEVICE_BUSY);
}
}
else {
if (!(res == 48)) {
return this._throw(this._yapi.IO_ERROR, 'Motor command failed permanently', this._yapi.IO_ERROR);
}
}
return this._yapi.SUCCESS;
}
/**
* Reinitialize the controller and clear all alert flags.
*
* @return YAPI.SUCCESS if the call succeeds.
* On failure, throws an exception or returns a negative error code.
*/
async reset() {
return await this.set_command('Z');
}
/**
* Starts the motor backward at the specified speed, to search for the motor home position.
*
* @param speed : desired speed, in steps per second.
*
* @return YAPI.SUCCESS if the call succeeds.
* On failure, throws an exception or returns a negative error code.
*/
async findHomePosition(speed) {
return await this.sendCommand('H' + String(Math.round(Math.round(1000 * speed))));
}
/**
* Starts the motor at a given speed. The time needed to reach the requested speed
* will depend on the acceleration parameters configured for the motor.
*
* @param speed : desired speed, in steps per second. The minimal non-zero speed
* is 0.001 pulse per second.
*
* @return YAPI.SUCCESS if the call succeeds.
* On failure, throws an exception or returns a negative error code.
*/
async changeSpeed(speed) {
return await this.sendCommand('R' + String(Math.round(Math.round(1000 * speed))));
}
/**
* Starts the motor to reach a given absolute position. The time needed to reach the requested
* position will depend on the acceleration and max speed parameters configured for
* the motor.
*
* @param absPos : absolute position, measured in steps from the origin.
*
* @return YAPI.SUCCESS if the call succeeds.
* On failure, throws an exception or returns a negative error code.
*/
async moveTo(absPos) {
return await this.sendCommand('M' + String(Math.round(Math.round(16 * absPos))));
}
/**
* Starts the motor to reach a given relative position. The time needed to reach the requested
* position will depend on the acceleration and max speed parameters configured for
* the motor.
*
* @param relPos : relative position, measured in steps from the current position.
*
* @return YAPI.SUCCESS if the call succeeds.
* On failure, throws an exception or returns a negative error code.
*/
async moveRel(relPos) {
return await this.sendCommand('m' + String(Math.round(Math.round(16 * relPos))));
}
/**
* Starts the motor to reach a given relative position, keeping the speed under the
* specified limit. The time needed to reach the requested position will depend on
* the acceleration parameters configured for the motor.
*
* @param relPos : relative position, measured in steps from the current position.
* @param maxSpeed : limit speed, in steps per second.
*
* @return YAPI.SUCCESS if the call succeeds.
* On failure, throws an exception or returns a negative error code.
*/
async moveRelSlow(relPos, maxSpeed) {
return await this.sendCommand('m' + String(Math.round(Math.round(16 * relPos))) + '@' + String(Math.round(Math.round(1000 * maxSpeed))));
}
/**
* Keep the motor in the same state for the specified amount of time, before processing next command.
*
* @param waitMs : wait time, specified in milliseconds.
*
* @return YAPI.SUCCESS if the call succeeds.
* On failure, throws an exception or returns a negative error code.
*/
async pause(waitMs) {
return await this.sendCommand('_' + String(Math.round(waitMs)));
}
/**
* Stops the motor with an emergency alert, without taking any additional precaution.
*
* @return YAPI.SUCCESS if the call succeeds.
* On failure, throws an exception or returns a negative error code.
*/
async emergencyStop() {
return await this.set_command('!');
}
/**
* Move one step in the direction opposite the direction set when the most recent alert was raised.
* The move occurs even if the system is still in alert mode (end switch depressed). Caution.
* use this function with great care as it may cause mechanical damages !
*
* @return YAPI.SUCCESS if the call succeeds.
* On failure, throws an exception or returns a negative error code.
*/
async alertStepOut() {
return await this.set_command('.');
}
/**
* Move one single step in the selected direction without regards to end switches.
* The move occurs even if the system is still in alert mode (end switch depressed). Caution.
* use this function with great care as it may cause mechanical damages !
*
* @param dir : Value +1 or -1, according to the desired direction of the move
*
* @return YAPI.SUCCESS if the call succeeds.
* On failure, throws an exception or returns a negative error code.
*/
async alertStepDir(dir) {
if (!(dir != 0)) {
return this._throw(this._yapi.INVALID_ARGUMENT, 'direction must be +1 or -1', this._yapi.INVALID_ARGUMENT);
}
if (dir > 0) {
return await this.set_command('.+');
}
return await this.set_command('.-');
}
/**
* Stops the motor smoothly as soon as possible, without waiting for ongoing move completion.
*
* @return YAPI.SUCCESS if the call succeeds.
* On failure, throws an exception or returns a negative error code.
*/
async abortAndBrake() {
return await this.set_command('B');
}
/**
* Turn the controller into Hi-Z mode immediately, without waiting for ongoing move completion.
*
* @return YAPI.SUCCESS if the call succeeds.
* On failure, throws an exception or returns a negative error code.
*/
async abortAndHiZ() {
return await this.set_command('z');
}
/**
* Continues the enumeration of stepper motors started using yFirstStepperMotor().
* Caution: You can't make any assumption about the returned stepper motors order.
* If you want to find a specific a stepper motor, use StepperMotor.findStepperMotor()
* and a hardwareID or a logical name.
*
* @return a pointer to a YStepperMotor object, corresponding to
* a stepper motor currently online, or a null pointer
* if there are no more stepper motors to enumerate.
*/
nextStepperMotor() {
let resolve = this._yapi.imm_resolveFunction(this._className, this._func);
if (resolve.errorType != YAPI.SUCCESS)
return null;
let next_hwid = this._yapi.imm_getNextHardwareId(this._className, resolve.result);
if (next_hwid == null)
return null;
return YStepperMotor.FindStepperMotorInContext(this._yapi, next_hwid);
}
/**
* Starts the enumeration of stepper motors currently accessible.
* Use the method YStepperMotor.nextStepperMotor() to iterate on
* next stepper motors.
*
* @return a pointer to a YStepperMotor object, corresponding to
* the first stepper motor currently online, or a null pointer
* if there are none.
*/
static FirstStepperMotor() {
let next_hwid = YAPI.imm_getFirstHardwareId('StepperMotor');
if (next_hwid == null)
return null;
return YStepperMotor.FindStepperMotor(next_hwid);
}
/**
* Starts the enumeration of stepper motors currently accessible.
* Use the method YStepperMotor.nextStepperMotor() to iterate on
* next stepper motors.
*
* @param yctx : a YAPI context.
*
* @return a pointer to a YStepperMotor object, corresponding to
* the first stepper motor currently online, or a null pointer
* if there are none.
*/
static FirstStepperMotorInContext(yctx) {
let next_hwid = yctx.imm_getFirstHardwareId('StepperMotor');
if (next_hwid == null)
return null;
return YStepperMotor.FindStepperMotorInContext(yctx, next_hwid);
}
}
// API symbols as static members
YStepperMotor.MOTORSTATE_ABSENT = 0;
YStepperMotor.MOTORSTATE_ALERT = 1;
YStepperMotor.MOTORSTATE_HI_Z = 2;
YStepperMotor.MOTORSTATE_STOP = 3;
YStepperMotor.MOTORSTATE_RUN = 4;
YStepperMotor.MOTORSTATE_BATCH = 5;
YStepperMotor.MOTORSTATE_INVALID = -1;
YStepperMotor.DIAGS_INVALID = YAPI.INVALID_UINT;
YStepperMotor.STEPPOS_INVALID = YAPI.INVALID_DOUBLE;
YStepperMotor.SPEED_INVALID = YAPI.INVALID_DOUBLE;
YStepperMotor.PULLINSPEED_INVALID = YAPI.INVALID_DOUBLE;
YStepperMotor.MAXACCEL_INVALID = YAPI.INVALID_DOUBLE;
YStepperMotor.MAXSPEED_INVALID = YAPI.INVALID_DOUBLE;
YStepperMotor.STEPPING_MICROSTEP16 = 0;
YStepperMotor.STEPPING_MICROSTEP8 = 1;
YStepperMotor.STEPPING_MICROSTEP4 = 2;
YStepperMotor.STEPPING_HALFSTEP = 3;
YStepperMotor.STEPPING_FULLSTEP = 4;
YStepperMotor.STEPPING_INVALID = -1;
YStepperMotor.OVERCURRENT_INVALID = YAPI.INVALID_UINT;
YStepperMotor.TCURRSTOP_INVALID = YAPI.INVALID_UINT;
YStepperMotor.TCURRRUN_INVALID = YAPI.INVALID_UINT;
YStepperMotor.ALERTMODE_INVALID = YAPI.INVALID_STRING;
YStepperMotor.AUXMODE_INVALID = YAPI.INVALID_STRING;
YStepperMotor.AUXSIGNAL_INVALID = YAPI.INVALID_INT;
YStepperMotor.COMMAND_INVALID = YAPI.INVALID_STRING;
//# sourceMappingURL=yocto_steppermotor.js.map