228 lines
6.9 KiB
TypeScript
228 lines
6.9 KiB
TypeScript
const enum GyroSensorMode {
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None = 0,
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Angle = 0,
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Rate = 1,
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}
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namespace sensors {
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//% fixedInstances
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export class GyroSensor extends internal.UartSensor {
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private calibrating: boolean;
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private _drift: number;
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constructor(port: number) {
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super(port)
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this.calibrating = false;
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this._drift = 0;
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this.setMode(GyroSensorMode.Rate);
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}
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_deviceType() {
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return DAL.DEVICE_TYPE_GYRO
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}
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_query(): number {
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return this.getNumber(NumberFormat.Int16LE, 0);
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}
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setMode(m: GyroSensorMode) {
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if (m == GyroSensorMode.Rate && this.mode != m)
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this._drift = 0;
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this._setMode(m)
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}
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/**
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* Get the current angle from the gyroscope.
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* @param sensor the gyroscope to query the request
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*/
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//% help=sensors/gyro/angle
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//% block="**gyro** %this|angle"
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//% blockId=gyroGetAngle
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//% parts="gyroscope"
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//% blockNamespace=sensors
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//% this.fieldEditor="ports"
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//% weight=64
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//% group="Gyro Sensor"
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angle(): number {
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this.poke();
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if (this.calibrating)
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pauseUntil(() => !this.calibrating, 2000);
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this.setMode(GyroSensorMode.Angle);
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return this._query();
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}
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/**
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* Get the current rotation rate from the gyroscope.
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* @param sensor the gyroscope to query the request
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*/
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//% help=sensors/gyro/rate
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//% block="**gyro** %this|rate"
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//% blockId=gyroGetRate
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//% parts="gyroscope"
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//% blockNamespace=sensors
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//% this.fieldEditor="ports"
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//% weight=65 blockGap=8
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//% group="Gyro Sensor"
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rate(): number {
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this.poke();
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if (this.calibrating)
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pauseUntil(() => !this.calibrating, 2000);
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this.setMode(GyroSensorMode.Rate);
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return this._query() - this._drift;
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}
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/**
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* Forces a calibration of the with light progress indicators.
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* Must be called when the sensor is completely still.
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*/
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//% help=sensors/gyro/calibrate
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//% block="calibrate **gyro** %this|"
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//% blockId=gyroCalibrate
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//% parts="gyroscope"
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//% blockNamespace=sensors
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//% this.fieldEditor="ports"
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//% weight=51 blockGap=8
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//% group="Gyro Sensor"
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calibrate(): void {
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if (this.calibrating) return; // already in calibration mode
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const statusLight = brick.statusLight(); // save current status light
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brick.setStatusLight(StatusLight.Orange);
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this.calibrating = true;
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// may be triggered by a button click,
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// give time for robot to settle
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pause(700);
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// calibrating
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brick.setStatusLight(StatusLight.OrangePulse);
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// send a reset command
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super.reset();
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// wait till sensor is live
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pauseUntil(() => this.isActive(), 7000);
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// mode toggling
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this.setMode(GyroSensorMode.Rate);
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this.setMode(GyroSensorMode.Angle);
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// check sensor is ready
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if (!this.isActive()) {
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brick.setStatusLight(StatusLight.RedFlash); // didn't work
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pause(2000);
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brick.setStatusLight(statusLight); // restore previous light
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this.calibrating = false;
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return;
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}
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// switch to rate mode
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this.computeDriftNoCalibration();
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// switch back to the desired mode
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this.setMode(this.mode);
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// and done
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brick.setStatusLight(StatusLight.Green); // success
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pause(1000);
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brick.setStatusLight(statusLight); // resture previous light
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// and we're done
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this.calibrating = false;
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}
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/**
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* Forces a calibration of the gyro. Must be called when the sensor is completely still.
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*/
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//% help=sensors/gyro/reset
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//% block="reset **gyro** %this|"
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//% blockId=gyroReset
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//% parts="gyroscope"
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//% blockNamespace=sensors
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//% this.fieldEditor="ports"
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//% weight=50 blockGap=8
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//% group="Gyro Sensor"
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reset(): void {
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if (this.calibrating) return; // already in calibration mode
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this.calibrating = true;
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// send a reset command
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super.reset();
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// and done
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this.calibrating = false;
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}
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/**
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* Gets the computed rate drift
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*/
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//% help=sensors/gyro/drift
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//% block="**gyro** %this|drift"
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//% blockId=gyroDrift
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//% parts="gyroscope"
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//% blockNamespace=sensors
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//% this.fieldEditor="ports"
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//% weight=9 blockGap=8
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//% group="Gyro Sensor"
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drift(): number {
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return this._drift;
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}
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/**
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* Computes the current sensor drift when using rate measurements.
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*/
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//% help=sensors/gyro/compute-drift
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//% block="compute **gyro** %this|drift"
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//% blockId=gyroComputeDrift
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//% parts="gyroscope"
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//% blockNamespace=sensors
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//% this.fieldEditor="ports"
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//% weight=10 blockGap=8
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//% group="Gyro Sensor"
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computeDrift() {
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if (this.calibrating)
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pauseUntil(() => !this.calibrating, 2000);
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pause(1000); // let the robot settle
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this.computeDriftNoCalibration();
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}
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private computeDriftNoCalibration() {
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// clear drift
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this.setMode(GyroSensorMode.Rate);
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this._drift = 0;
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const n = 100;
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let d = 0;
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for (let i = 0; i < n; ++i) {
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d += this._query();
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pause(4);
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}
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this._drift = Math.round(d / n);
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}
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_info(): string {
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if (this.calibrating)
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return "cal...";
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switch (this.mode) {
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case GyroSensorMode.Angle:
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return `${this._query()}>`;
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case GyroSensorMode.Rate:
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let r = `${this._query()}r`;
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if (this._drift != 0)
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r += `-${this._drift | 0}`;
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return r;
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}
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return "";
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}
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}
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//% fixedInstance whenUsed block="2" weight=95 jres=icons.port2
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export const gyro2: GyroSensor = new GyroSensor(2)
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//% fixedInstance whenUsed block="1" jres=icons.port1
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export const gyro1: GyroSensor = new GyroSensor(1)
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//% fixedInstance whenUsed block="3" jres=icons.port3
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export const gyro3: GyroSensor = new GyroSensor(3)
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//% fixedInstance whenUsed block="4" jres=icons.port4
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export const gyro4: GyroSensor = new GyroSensor(4)
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}
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