Drift support (#926)

* upgrading drift support

* updated showports

* typos

docs/reference/brick/show-ports.md

@@ -10,12 +10,12 @@ You can find out what's connected to the ports on the brick and show its status.
 
 ## Example
 
-Show the status of the ports on the brick when the ``enter`` button is pressed.
+Show the status of the ports on the brick. Resets all motors when ENTER is pressed.
 
 ```blocks
-brick.showString("Press ENTER for port status", 1)
+brick.showPorts()
 brick.buttonEnter.onEvent(ButtonEvent.Pressed, function () {
-    brick.showPorts()
+    motors.resetAll()
 })
 ```
 

docs/reference/motors/reset-all.md

@@ -0,0 +1,25 @@
+# reset All Motors
+
+Reset all motors currently running on the brick.
+
+```sig
+motors.resetAll();
+```
+
+The motors counters are resetted. 
+
+## Example
+
+Tank the EV3 Brick forward at half speed for 5 seconds and then stop.
+
+```blocks
+motors.largeAB.tank(50, 50);
+pause(5000);
+motors.stopAll();
+motors.resetAll();
+```
+
+## See also
+
+[stop all](/reference/motors/motor/stop-all), 
+[reset](/reference/motors/motor/reset)

docs/reference/motors/stop-all.md

@@ -22,4 +22,5 @@ motors.stopAll();
 
 [stop](/reference/motors/motor/stop), 
 [reset](/reference/motors/motor/reset),
+[reset-all](/reference/motors/motor/reset-all),
 [set brake](/reference/motors/motor/set-brake)

libs/color-sensor/color.ts

@@ -111,6 +111,9 @@ namespace sensors {
                         "red",
                         "white",
                         "brown"][this._query()];
+                case ColorSensorMode.AmbientLightIntensity:
+                case ColorSensorMode.ReflectedLightIntensity:
+                    return `${this._query()}%`;
                 default:
                     return this._query().toString();
             }
@@ -253,7 +256,7 @@ namespace sensors {
         light(mode: LightIntensityMode) {
             this.poke();
             this.setMode(<ColorSensorMode><number>mode)
-            switch(mode) {
+            switch (mode) {
                 case LightIntensityMode.ReflectedRaw:
                     return this.reflectedLightRaw();
                 default:

libs/core/output.ts

@@ -62,7 +62,7 @@ namespace motors {
         motorMM = control.mmap("/dev/lms_motor", MotorDataOff.Size * DAL.NUM_OUTPUTS, 0)
         if (!motorMM) control.fail("no motor file")
 
-        resetAllMotors()
+        resetAll()
 
         const buf = output.createBuffer(1)
         buf[0] = DAL.opProgramStart
@@ -118,7 +118,7 @@ namespace motors {
      * Stops all motors
      */
     //% blockId=motorStopAll block="stop all motors"
-    //% weight=1
+    //% weight=2
     //% group="Move"
     //% help=motors/stop-all
     export function stopAll() {
@@ -130,8 +130,11 @@ namespace motors {
     /**
      * Resets all motors
      */
+    //% blockId=motorResetAll block="reset all motors"
+    //% weight=1
     //% group="Move"
-    export function resetAllMotors() {
+    //% help=motors/reset-all
+    export function resetAll() {
         reset(Output.ALL)
         pause(1);
     }

libs/gyro-sensor/docs/reference/sensors/gyro/compute-drift.md

@@ -0,0 +1,37 @@
+# compute Drift
+
+Called when the sensor is completely still, computes the current rate drift
+```sig
+sensors.gyro2.computeDrift()
+```
+
+The gyroscope sensor is subject to rate drifting. This means that the measurement reported by the sensor is off by a few degrees per second over time: it is drifting.
+
+To counter the effect of drifting, call the ``||sensors:compute drift||`` block when the sensor is still to compute the current drift. The rate meansurements will automatically be corrected based on that drift.
+
+## Example
+
+This example uses a gyro sensor to 
+
+```blocks
+let error = 0
+sensors.gyro2.computeDrift()
+while (sensors.color3.color() != ColorSensorColor.White) {
+    error = sensors.gyro2.rate() * -1
+    motors.largeBC.steer(error, 50)
+}
+motors.stopAll()
+pause(1000)
+sensors.gyro2.computeDrift()
+while (sensors.color3.color() != ColorSensorColor.Blue) {
+    error = sensors.gyro2.rate() * -1
+    motors.largeBC.steer(error, 50)
+}
+motors.stopAll()
+```
+
+## See Also
+
+[rate](/reference/sensors/gyro/rate),
+[compute drift](/reference/sensors/gyro/compute-drift)
+

libs/gyro-sensor/docs/reference/sensors/gyro/drift.md

@@ -0,0 +1,39 @@
+# drift
+
+Get the computed rate drift
+
+```sig
+sensors.gyro2.drift()
+```
+
+The gyroscope sensor is subject to rate drifting. This means that the measurement reported by the sensor is off by a few degrees per second over time: it is drifting.
+
+To counter the effect of drifting, call the ``||sensors:compute drift||`` block when the sensor is still to compute the current drift. The rate meansurements will automatically be corrected based on that drift.
+
+## Example
+
+This example uses a gyro sensor to drive straight until while color is detected.
+The robot is stopped, the drift is computed and another movement is done.
+
+```blocks
+let error = 0
+sensors.gyro2.computeDrift()
+while (sensors.color3.color() != ColorSensorColor.White) {
+    error = sensors.gyro2.rate() * -1
+    motors.largeBC.steer(error, 50)
+}
+motors.stopAll()
+pause(1000)
+sensors.gyro2.computeDrift()
+while (sensors.color3.color() != ColorSensorColor.Blue) {
+    error = sensors.gyro2.rate() * -1
+    motors.largeBC.steer(error, 50)
+}
+motors.stopAll()
+```
+
+## See Also
+
+[rate](/reference/sensors/gyro/rate),
+[compute drift](/reference/sensors/gyro/compute-drift)
+

libs/gyro-sensor/gyro.ts

@@ -9,12 +9,10 @@ namespace sensors {
     export class GyroSensor extends internal.UartSensor {
         private calibrating: boolean;
         private _drift: number;
-        private _driftCorrection: boolean;
         constructor(port: number) {
             super(port)
             this.calibrating = false;
             this._drift = 0;
-            this._driftCorrection = false;
             this.setMode(GyroSensorMode.Rate);
         }
 
@@ -42,7 +40,7 @@ namespace sensors {
         //% parts="gyroscope"
         //% blockNamespace=sensors
         //% this.fieldEditor="ports"
-        //% weight=64 blockGap=8
+        //% weight=64
         //% group="Gyro Sensor"
         angle(): number {
             this.poke();
@@ -71,13 +69,7 @@ namespace sensors {
                 pauseUntil(() => !this.calibrating, 2000);
 
             this.setMode(GyroSensorMode.Rate);
-            let curr = this._query();
-            if (Math.abs(curr) < 4 && this._driftCorrection) {
-                const p = 0.01;
-                this._drift = (1 - p) * this._drift + p * curr;
-                curr = Math.round(curr - this._drift);
-            }
-            return curr;
+            return this._query() - this._drift;
         }
 
         /**
@@ -113,8 +105,6 @@ namespace sensors {
             // mode toggling
             this.setMode(GyroSensorMode.Rate);
             this.setMode(GyroSensorMode.Angle);
-            // switch back to the desired mode
-            this.setMode(this.mode);
 
             // check sensor is ready
             if (!this.isActive()) {
@@ -125,17 +115,12 @@ namespace sensors {
                 return;
             }
 
-            // compute drift
-            this._drift = 0;
-            if (this._driftCorrection && this.mode == GyroSensorMode.Rate) {
-                const n = 100;
-                for (let i = 0; i < n; ++i) {
-                    this._drift += this._query();
-                    pause(4);
-                }
-                this._drift /= n;
-            }
+            // switch to rate mode
+            this.computeDriftNoCalibration();
+            // switch back to the desired mode
+            this.setMode(this.mode);
 
+            // and done
             brick.setStatusLight(StatusLight.Green); // success
             pause(1000);
             brick.setStatusLight(statusLight); // resture previous light
@@ -153,7 +138,7 @@ namespace sensors {
         //% parts="gyroscope"
         //% blockNamespace=sensors
         //% this.fieldEditor="ports"
-        //% weight=50
+        //% weight=50 blockGap=8
         //% group="Gyro Sensor"
         reset(): void {
             if (this.calibrating) return; // already in calibration mode
@@ -168,19 +153,62 @@ namespace sensors {
         /**
          * Gets the computed rate drift
          */
-        //%
+        //% help=sensors/gyro/drift
+        //% block="**gyro** %this|drift"
+        //% blockId=gyroDrift
+        //% parts="gyroscope"
+        //% blockNamespace=sensors
+        //% this.fieldEditor="ports"
+        //% weight=9 blockGap=8
+        //% group="Gyro Sensor"
         drift(): number {
             return this._drift;
         }
 
         /**
-         * Enables or disable drift correction
-         * @param enabled
+         * Computes the current sensor drift when using rate measurements.
          */
-        //%
-        setDriftCorrection(enabled: boolean) {
-            this._driftCorrection = enabled;
+        //% help=sensors/gyro/compute-drift
+        //% block="compute **gyro** %this|drift"
+        //% blockId=gyroComputeDrift
+        //% parts="gyroscope"
+        //% blockNamespace=sensors
+        //% this.fieldEditor="ports"
+        //% weight=10 blockGap=8
+        //% group="Gyro Sensor"
+        computeDrift() {
+            if (this.calibrating)
+                pauseUntil(() => !this.calibrating, 2000);
+            this.computeDriftNoCalibration();
+        }
+
+        private computeDriftNoCalibration() {
+            // clear drift
+            this.setMode(GyroSensorMode.Rate);
             this._drift = 0;
+            const n = 100;
+            let d = 0;
+            for (let i = 0; i < n; ++i) {
+                d += this._query();
+                pause(4);
+            }
+            this._drift = d / n;
+        }
+
+        _info(): string {
+            if (this.calibrating)
+                return "cal...";
+
+            switch (this.mode) {
+                case GyroSensorMode.Angle:
+                    return `${this._query()}>`;
+                case GyroSensorMode.Rate:
+                    let r = `${this._query()}>/s`;
+                    if (this._drift)
+                        r += `-${this._drift | 0}`;
+                    return r;
+            }
+            return "";
         }
     }
 

libs/tests/targetoverrides.ts

@@ -4,9 +4,9 @@ tests.onEvent(TestEvent.RunSetUp, function() {
 })
 tests.onEvent(TestEvent.TestSetUp, function() {
     motors.stopAll();
-    motors.resetAllMotors();
+    motors.resetAll();
 })
 tests.onEvent(TestEvent.TestTearDown, function() {
     motors.stopAll();
-    motors.resetAllMotors();
+    motors.resetAll();
 })