public void getAcceleration(string options) { try { if (this.accelerometer == null) { this.accelerometer = new Microsoft.Devices.Sensors.Accelerometer(); } this.accelerometer.CurrentValueChanged += new EventHandler<SensorReadingEventArgs<AccelerometerReading>>(accelerometer_CurrentValueChanged); this.accelerometer.Start(); } catch (UnauthorizedAccessException ex1) { //this.CallbackName = this.errorCallback; //this.CallbackArgs = new[] { unauthorizedAccessException.Message }; //this.SendAsyncResponse(); } catch (AccelerometerFailedException ex2) { //this.CallbackName = this.errorCallback; //this.CallbackArgs = new[] { accelerometerFailedException.Message }; //this.SendAsyncResponse(); } }
private void Calibrate() { //Initialize the accelerometer accelerometer = new Microsoft.Devices.Sensors.Accelerometer(); if (accelerometer.State == SensorState.Initializing || accelerometer.State == SensorState.Ready) { accelerometer.ReadingChanged += (s, e) => { accelerometerState = new Vector3((float)e.X, (float)e.Y, (float)e.Z); samplesCount++; accelerometerCalibrationData += accelerometerState; if (DateTime.Now >= startTime.AddSeconds(5)) { accelerometer.Stop(); accelerometerCalibrationData.X /= samplesCount; accelerometerCalibrationData.Y /= samplesCount; accelerometerCalibrationData.Z /= samplesCount; isCalibrating = false; } }; } accelerometer.Start(); }
public Accelerometer() { _meter = new Microsoft.Devices.Sensors.Accelerometer { TimeBetweenUpdates = TimeSpan.FromMilliseconds(100) }; _meter.CurrentValueChanged += CurrentValueChanged; }
/// <summary> /// Stops this instance. /// </summary> partial void Stop() { if (this.accelerometer != null) { this.accelerometer.CurrentValueChanged -= AccelerometerOnCurrentValueChanged; this.accelerometer.Stop(); this.accelerometer = null; } }
public void Stop() { if (_accelerometer == null) { throw new MvxException("Accelerometer not started"); } _accelerometer.Stop(); _accelerometer = null; }
/// <summary> /// Stops this instance. /// </summary> partial void Stop() { if (_accelerometer != null) { _accelerometer.CurrentValueChanged -= AccelerometerOnCurrentValueChanged; _accelerometer.Stop(); _accelerometer = null; } }
public void Start() { if (_accelerometer != null) { throw new MvxException("Accelerometer already started"); } _accelerometer = new Microsoft.Devices.Sensors.Accelerometer(); _accelerometer.CurrentValueChanged += AccelerometerOnCurrentValueChanged; _accelerometer.Start(); }
/// <summary> /// Starts this instance. /// </summary> partial void Start() { this.accelerometer = new Microsoft.Devices.Sensors.Accelerometer { TimeBetweenUpdates = TimeSpan.FromMilliseconds((long)Interval) }; this.accelerometer.CurrentValueChanged += AccelerometerOnCurrentValueChanged; this.accelerometer.Start(); }
/// <summary> /// Starts listening for acceleration sensor /// </summary> /// <returns>status of listener</returns> public void start(string parameters) { string[] args = WPCordovaClassLib.Cordova.JSON.JsonHelper.Deserialize <string[]>(parameters); string time = "1000"; if (args.Length > 0) { time = args[0]; } // account for the callback param if (args.Length > 2) { adjustForRotation = bool.Parse(args[1]); } // account for the callback param if (args.Length > 3) { orientation = args[2]; } if (!this.isRunning) { if (this._accelerometer == null) { _accelerometer = new Microsoft.Devices.Sensors.Accelerometer(); } int tmpTime; int.TryParse(time, out tmpTime); this.time = tmpTime; try { lock (_accelerometer) { _accelerometer = new Microsoft.Devices.Sensors.Accelerometer(); _accelerometer.TimeBetweenUpdates = TimeSpan.FromMilliseconds(this.time); _accelerometer.CurrentValueChanged += new EventHandler <SensorReadingEventArgs <AccelerometerReading> >(accelerometer_CurrentValueChanged); this.isRunning = true; _accelerometer.Start(); } } catch (Exception) { } } }
public Accelerometer() { accelerometer = new Microsoft.Devices.Sensors.Accelerometer(); if (Motion.IsSupported) { if (motion == null) { motion = new Motion(); motion.TimeBetweenUpdates = TimeSpan.FromMilliseconds(20); motion.CurrentValueChanged += new EventHandler <SensorReadingEventArgs <MotionReading> >(motion_CurrentValueChanged); } } }
void accelerometer_CurrentValueChanged(object sender, SensorReadingEventArgs<AccelerometerReading> e) { if (this.accelerometer != null) { SensorState state = this.accelerometer.State; // TODO: switch on sensor state if (state == SensorState.Ready) { string messageResult = String.Format("\"x\":{0},\"y\":{1},\"z\":{2}", e.SensorReading.Acceleration.X.ToString("0.00000"), e.SensorReading.Acceleration.Y.ToString("0.00000"), e.SensorReading.Acceleration.Z.ToString("0.00000")); messageResult = "{" + messageResult + "}"; DispatchCommandResult(new PluginResult(PluginResult.Status.OK, messageResult)); } else { //this.CallbackName = this.errorCallback; //this.CallbackArgs = new[] { state.ToString() }; //this.SendAsyncResponse(); } try { this.accelerometer.Stop(); this.accelerometer.Dispose(); this.accelerometer = null; } catch { // NOOP - We don't, currently, care if we can't stop the accelerometer } } }
public AccelerometerWrapperWindowsPhone() { _accelerometer = new Accelerometer(); }
public Accelerometer() { accelerometer = new Microsoft.Devices.Sensors.Accelerometer(); }