/// <summary> /// This is the event handler for ReadingChanged events. /// </summary> /// <param name="sender"></param> /// <param name="e"></param> async private void ReadingChanged(object sender, OrientationSensorReadingChangedEventArgs e) { await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () => { MainPage.SetReadingText(ScenarioOutput, e.Reading); }); }
static void DataUpdated(object sender, OrientationSensorReadingChangedEventArgs e) { var reading = e.Reading; var data = new OrientationSensorData(reading.Quaternion.X, reading.Quaternion.Y, reading.Quaternion.Z, reading.Quaternion.W); OnChanged(data); }
public async void NewQuan(OrientationSensor sender, OrientationSensorReadingChangedEventArgs args) { var reading = args == null?sender?.GetCurrentReading() : args.Reading; await this.dispatcher.RunAsync( CoreDispatcherPriority.Normal, () => { this[QUANTIZATION] = reading == null ? this[QUANTIZATION].New(0, 0, 0, 0) : this[QUANTIZATION].New( reading.Quaternion.X, reading.Quaternion.Y, reading.Quaternion.Z, reading.Quaternion.W); if (this[QUANTIZATION].IsChanged) { this.OnPropertyChanged(new PropertyChangedEventArgs("ItemsList")); this.OnSensorUpdated?.Invoke(this[QUANTIZATION]); } }); if (this.SensorSwitches.Q.HasValue && (this.SensorSwitches.Q.Value == 1 || this.SensorSwitches.Q.Value == 3)) { this.SensorSwitches.Q = 0; } }
/// <summary> /// This is the event handler for ReadingChanged events. /// </summary> /// <param name="sender"></param> /// <param name="e"></param> //<SnippetReadingChangedCS> async private void ReadingChanged(object sender, OrientationSensorReadingChangedEventArgs e) { await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () => { OrientationSensorReading reading = e.Reading; // Quaternion values SensorQuaternion quaternion = reading.Quaternion; // get a reference to the object to avoid re-creating it for each access ScenarioOutput_X.Text = String.Format("{0,8:0.00000}", quaternion.X); ScenarioOutput_Y.Text = String.Format("{0,8:0.00000}", quaternion.Y); ScenarioOutput_Z.Text = String.Format("{0,8:0.00000}", quaternion.Z); ScenarioOutput_W.Text = String.Format("{0,8:0.00000}", quaternion.W); // Rotation Matrix values SensorRotationMatrix rotationMatrix = reading.RotationMatrix; ScenarioOutput_M11.Text = String.Format("{0,8:0.00000}", rotationMatrix.M11); ScenarioOutput_M12.Text = String.Format("{0,8:0.00000}", rotationMatrix.M12); ScenarioOutput_M13.Text = String.Format("{0,8:0.00000}", rotationMatrix.M13); ScenarioOutput_M21.Text = String.Format("{0,8:0.00000}", rotationMatrix.M21); ScenarioOutput_M22.Text = String.Format("{0,8:0.00000}", rotationMatrix.M22); ScenarioOutput_M23.Text = String.Format("{0,8:0.00000}", rotationMatrix.M23); ScenarioOutput_M31.Text = String.Format("{0,8:0.00000}", rotationMatrix.M31); ScenarioOutput_M32.Text = String.Format("{0,8:0.00000}", rotationMatrix.M32); ScenarioOutput_M33.Text = String.Format("{0,8:0.00000}", rotationMatrix.M33); }); }
async void OrientationSensorChanged(OrientationSensor sender, OrientationSensorReadingChangedEventArgs args) { await this.Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () => { ShowOrientation(args.Reading); }); }
void OnReadingChanged(Sensor sender, OrientationSensorReadingChangedEventArgs args) { var handler = changed; if (handler != null) { var value = ConvertToMatrix(args.Reading); var e = new OrientationEventArgs(value); handler.Invoke(this, e); } }
private async void Or_ReadingChanged(OrientationSensor sender, OrientationSensorReadingChangedEventArgs args) { if (myBool) { OrientationSensorReading reading = args.Reading; // Quaternion values SensorQuaternion q = reading.Quaternion; double y = args.Reading.Quaternion.Y; if (y < 0) { y = y + 2; } double pitch = y; // pitch = pitch * 180 / Math.PI; if (yaw < 0) { yaw += 360; } await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () => { for (; lol.Children.Count > 1;) { lol.Children.RemoveAt(1); } foreach (PointerViewAR n in li2) { Image img = new Image(); img.Name = n.Id; img.Width = 250; img.Height = 250; img.Source = n.Media; TranslateTransform t = new TranslateTransform(); t.X = angleDiff(n.Yaw, yaw) * stepW * 2; t.Y = (n.Pitch - pitch) * stepH * 2; Debug.WriteLine((n.Yaw - yaw).ToString() + ","); img.RenderTransform = t; img.IsTapEnabled = true; img.Tapped += Img_Tapped; lol.Children.Add(img); } }); } }
/// <summary> /// This is the event handler for ReadingChanged events. /// </summary> /// <param name="sender"></param> /// <param name="e"></param> async private void ReadingChanged(object sender, OrientationSensorReadingChangedEventArgs e) { await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () => { OrientationSensorReading reading = e.Reading; // Quaternion values SensorQuaternion quaternion = reading.Quaternion; // get a reference to the object to avoid re-creating it for each access ScenarioOutput_X.Text = String.Format("{0,8:0.00000}", quaternion.X); ScenarioOutput_Y.Text = String.Format("{0,8:0.00000}", quaternion.Y); ScenarioOutput_Z.Text = String.Format("{0,8:0.00000}", quaternion.Z); ScenarioOutput_W.Text = String.Format("{0,8:0.00000}", quaternion.W); // Rotation Matrix values SensorRotationMatrix rotationMatrix = reading.RotationMatrix; ScenarioOutput_M11.Text = String.Format("{0,8:0.00000}", rotationMatrix.M11); ScenarioOutput_M12.Text = String.Format("{0,8:0.00000}", rotationMatrix.M12); ScenarioOutput_M13.Text = String.Format("{0,8:0.00000}", rotationMatrix.M13); ScenarioOutput_M21.Text = String.Format("{0,8:0.00000}", rotationMatrix.M21); ScenarioOutput_M22.Text = String.Format("{0,8:0.00000}", rotationMatrix.M22); ScenarioOutput_M23.Text = String.Format("{0,8:0.00000}", rotationMatrix.M23); ScenarioOutput_M31.Text = String.Format("{0,8:0.00000}", rotationMatrix.M31); ScenarioOutput_M32.Text = String.Format("{0,8:0.00000}", rotationMatrix.M32); ScenarioOutput_M33.Text = String.Format("{0,8:0.00000}", rotationMatrix.M33); // Yaw accuracy switch (reading.YawAccuracy) { case MagnetometerAccuracy.Unknown: ScenarioOutput_YawAccuracy.Text = "Unknown"; break; case MagnetometerAccuracy.Unreliable: ScenarioOutput_YawAccuracy.Text = "Unreliable"; break; case MagnetometerAccuracy.Approximate: ScenarioOutput_YawAccuracy.Text = "Approximate"; break; case MagnetometerAccuracy.High: ScenarioOutput_YawAccuracy.Text = "High"; break; default: ScenarioOutput_YawAccuracy.Text = "No data"; break; } }); }
private void Sensor_ReadingChanged(OrientationSensor sender, OrientationSensorReadingChangedEventArgs args) { var c = Camera; if (c == null) { return; } var l = c.Transformation; var q = args.Reading.Quaternion; _controller.TransformationMatrix = InitialTransformation + TransformationMatrix.Create(q.X, q.Y, q.Z, q.W, 0, 0, 0); }
private async void Or_ReadingChanged(OrientationSensor sender, OrientationSensorReadingChangedEventArgs args) { if (myBool) { OrientationSensorReading reading = args.Reading; // Quaternion values SensorQuaternion q = reading.Quaternion; double y = args.Reading.Quaternion.Y; if (y < 0) { y = y + 2; } pitch = y; // pitch = pitch * 180 / Math.PI; await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () => { for (; lol.Children.Count > 6;) { lol.Children.RemoveAt(6); } foreach (PointerViewAR n in li2) { Image img = new Image(); img.Name = n.Id; img.Width = 250; img.Height = 250; img.Source = n.Media;// img.Stretch = Stretch.UniformToFill; TranslateTransform t = new TranslateTransform(); double dis = getDistance(n.lat, n.lon, pos.Coordinate.Latitude, pos.Coordinate.Longitude); if (dis < 50) //TODO: in prod write distance<20 { // double ang = getangle(n.lat, n.lon, pos.Coordinate.Latitude, pos.Coordinate.Longitude); t.X = angleDiff(n.Yaw, yaw) * stepW * 2; t.Y = (n.Pitch - pitch) * stepH * 2; img.RenderTransform = t; img.IsTapEnabled = true; img.Tapped += Img_Tapped; lol.Children.Add(img); Grid.SetRow(img, 1); } } }); } }
private async void ReadingChanged(object sender, OrientationSensorReadingChangedEventArgs e) { await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () => { OrientationSensorReading reading = e.Reading; // Quaternion values txtQuaternionX.Text = String.Format("{0,8:0.00000}", reading.Quaternion.X); txtQuaternionY.Text = String.Format("{0,8:0.00000}", reading.Quaternion.Y); txtQuaternionZ.Text = String.Format("{0,8:0.00000}", reading.Quaternion.Z); txtQuaternionW.Text = String.Format("{0,8:0.00000}", reading.Quaternion.W); // Rotation Matrix values txtM11.Text = String.Format("{0,8:0.00000}", reading.RotationMatrix.M11); txtM12.Text = String.Format("{0,8:0.00000}", reading.RotationMatrix.M12); txtM13.Text = String.Format("{0,8:0.00000}", reading.RotationMatrix.M13); txtM21.Text = String.Format("{0,8:0.00000}", reading.RotationMatrix.M21); txtM22.Text = String.Format("{0,8:0.00000}", reading.RotationMatrix.M22); txtM23.Text = String.Format("{0,8:0.00000}", reading.RotationMatrix.M23); txtM31.Text = String.Format("{0,8:0.00000}", reading.RotationMatrix.M31); txtM32.Text = String.Format("{0,8:0.00000}", reading.RotationMatrix.M32); txtM33.Text = String.Format("{0,8:0.00000}", reading.RotationMatrix.M33); }); }
void MainPage_ReadingChanged(OrientationSensor sender, OrientationSensorReadingChangedEventArgs args) { }
private void SOrient_ReadingChanged(OrientationSensor sender, OrientationSensorReadingChangedEventArgs args) { LastOrient = args.Reading; }
async void MainPage_ReadingChanged(OrientationSensor sender, OrientationSensorReadingChangedEventArgs args) { await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () => { }); }
private void OrientationSensorOnReadingChanged(OrientationSensor sender, OrientationSensorReadingChangedEventArgs args) { _sensorSettings.LatestOrientationSensorReading = args.Reading; }
private void OnReadingChange(OrientationSensor sender, OrientationSensorReadingChangedEventArgs args) { SensorQuaternion quaternion = args.Reading.Quaternion; Ball.SetAccelaration(quaternion.X, quaternion.Y); }
private void Or_ReadingChanged(OrientationSensor sender, OrientationSensorReadingChangedEventArgs args) { }