private void onInclinometerReadingChanged(object sender, InclinometerReadingChangedEventArgs e)
{
string str = e.Reading.PitchDegrees.ToString();
str += "\n"+e.Reading.RollDegrees.ToString();
str += "\n"+e.Reading.YawDegrees.ToString();
this.window.setInclinometerReading(str);
}
async void inclinometer_ReadingChanged( Inclinometer sender, InclinometerReadingChangedEventArgs args )
{
await Dispatcher.RunAsync( Windows.UI.Core.CoreDispatcherPriority.Normal, () =>
{
ProjectionImage.RotationX = 90 - args.Reading.PitchDegrees;
ProjectionImage.RotationZ = args.Reading.RollDegrees;
ProjectionImage.RotationY = -args.Reading.YawDegrees;
} );
}
private async void inclinometer_ReadingChanged(Inclinometer sender, InclinometerReadingChangedEventArgs args)
{
await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () =>
{
PitchValue.Text = args.Reading.PitchDegrees.ToString();
RollValue.Text = args.Reading.RollDegrees.ToString();
YawValue.Text = args.Reading.YawDegrees.ToString();
TimeStamp.Text = args.Reading.Timestamp.ToString();
});
}
private async void ReadingChanged(object sender, InclinometerReadingChangedEventArgs args)
{
await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () =>
{
InclinometerReading reading = args.Reading;
lblIncX.Text = "X = " + String.Format("{0,5:0.00}", reading.RollDegrees);
lblIncY.Text = "Y = " + String.Format("{0,5:0.00}", reading.PitchDegrees);
lblIncZ.Text = "Z = " + String.Format("{0,5:0.00}", reading.YawDegrees);
});
}
private async void InclinometerOnReadingChanged(Sensor.Inclinometer sender, Sensor.InclinometerReadingChangedEventArgs args)
{
await _dispatcher.RunAsync(CoreDispatcherPriority.Normal, () =>
{
PitchDegrees = args.Reading.PitchDegrees;
RollDegrees = args.Reading.RollDegrees;
YawDegrees = args.Reading.YawDegrees;
SetupNewLocation();
});
}
/// <summary>
/// inclinometer handler
/// </summary>
/// <param name="sender"></param>
/// <param name="args"></param>
async void InclinometerReadingChanged(Inclinometer sender, InclinometerReadingChangedEventArgs args)
{
await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () =>
{
InclinometerReading reading = args.Reading;
var pitchDouble = reading.PitchDegrees;
var rollDouble = reading.RollDegrees;
var yawDouble = reading.YawDegrees;
int pitch = Convert.ToInt32(pitchDouble);
int roll = Convert.ToInt32(rollDouble);
int yaw = Convert.ToInt32(yawDouble);
//Pitch.Text = pitch.ToString();
//Roll.Text = roll.ToString();
//Yaw.Text = yaw.ToString();
//Vector.Text = GetCameraViewDirection(pitch, roll, yaw).ToString();
DirectionTextblock.Text = GetCameraViewDirection(pitch, roll, yaw).ToString();
});
}
void _inclinometer_ReadingChanged(Inclinometer sender, InclinometerReadingChangedEventArgs args)
{
try
{
InclinometerReading reading = args.Reading;
if (reading != null)
{
SensorEventArgs sensorArgs = new SensorEventArgs(reading.RollDegrees);
if (SensorReadingChanged != null)
{
SensorReadingChanged(sender, sensorArgs);
}
}
}
catch (Exception)
{
_inclinometerEnabled = false;
}
_inclinometerChecked = true;
}
async void MainPage_ReadingChanged( Inclinometer sender, InclinometerReadingChangedEventArgs args )
{
await Dispatcher.RunAsync( CoreDispatcherPriority.Normal, () =>
{
TextInclinometer.Text = string.Format( @"Inclinometer : P={0} R={1} Y={2}", args.Reading.PitchDegrees, args.Reading.RollDegrees, args.Reading.YawDegrees );
} );
}
async private void ReadingChanged(object sender, InclinometerReadingChangedEventArgs e)
{
await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () =>
{
InclinometerReading reading = e.Reading;
String result = null;
if (Helpers.SensorCalculation.learningMode)
{
result = Helpers.SensorCalculation.GetPitchDirection(reading.PitchDegrees);
// add splash - device learning is done
}
else
{
Helpers.SensorCalculation.checkCurrentPitchValue(reading.PitchDegrees);
}
//MaxValue.Text = result != null ? result : Helpers.SensorCalculation.maxPitchValue.ToString();
if (Helpers.SensorCalculation.doBeep)
{
PlaySound(_dingSound);
Helpers.SensorCalculation.doBeep = false;
}
});
}
void OnReadingChanged(Sensor sender, InclinometerReadingChangedEventArgs args)
{
var handler = changed;
if (handler != null)
{
var value = ConvertToInclination(args.Reading);
var e = new InclinometerEventArgs(value);
handler.Invoke(this, e);
}
}
private void Inclinometer_ReadingChanged(Windows.Devices.Sensors.Inclinometer sender, Windows.Devices.Sensors.InclinometerReadingChangedEventArgs args)
{
if (Interlocked.CompareExchange(ref Updating, 1, 0) == 1)
{
return;
}
Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () =>
{
UpdateElementsOnScreen(args.Reading);
Interlocked.Exchange(ref Updating, 0);
});
}
public void myIncliHandler(Inclinometer i, InclinometerReadingChangedEventArgs e)
{
Windows.ApplicationModel.Core.CoreApplication.MainView.CoreWindow.Dispatcher.RunAsync(Windows.UI.Core.CoreDispatcherPriority.Normal,
() =>
{
this.value_incli_yaw.Text = e.Reading.YawDegrees.ToString("0.00");
this.incliYaw = e.Reading.YawDegrees;
this.value_incli_pitch.Text = e.Reading.PitchDegrees.ToString("0.00");
this.incliPitch = e.Reading.PitchDegrees;
this.value_incli_roll.Text = e.Reading.RollDegrees.ToString("0.00");
this.incliRoll = e.Reading.RollDegrees;
checkTimeToLog();
}
);
}
private void InclinometerReadingChanged(Inclinometer sender, InclinometerReadingChangedEventArgs args)
{
if (this.ReadingChanged != null) ReadingChanged(_sensor, args);
}
private void OnInclineReadingChanged(Inclinometer sender, InclinometerReadingChangedEventArgs args)
{
}
private async void OnInclinometerReadingChanged(Inclinometer sender, InclinometerReadingChangedEventArgs e)
{
await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () =>
{
_reading.InsertVector3("Offset", new Vector3(e.Reading.RollDegrees, e.Reading.PitchDegrees, 0.0f));
});
}
/// <summary>
/// This is the event handler for ReadingChanged events.
/// </summary>
/// <param name="sender"></param>
/// <param name="e"></param>
async private void ReadingChanged(object sender, InclinometerReadingChangedEventArgs e)
{
await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () =>
{
InclinometerReading reading = e.Reading;
ScenarioOutput_X.Text = String.Format("{0,5:0.00}", reading.PitchDegrees);
ScenarioOutput_Y.Text = String.Format("{0,5:0.00}", reading.RollDegrees);
ScenarioOutput_Z.Text = String.Format("{0,5:0.00}", reading.YawDegrees);
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;
}
});
}
/// <summary>
/// send sensor data to server ,depend on different mode.
/// </summary>
/// <param name="sender"></param>
/// <param name="args"></param>
private void inclinometer_ReadingChanged(Inclinometer sender, InclinometerReadingChangedEventArgs args)
{
InclinometerReading reading = args.Reading;
if (args.Reading.YawAccuracy != InclinometerState)
{
InclinometerState = args.Reading.YawAccuracy;
if (InclinometerStateChanged != null)
InclinometerStateChanged(this, EventArgs.Empty);
}
if (connected && mode == SensorMode.TRACKER)
App.comHelper.sendTrack(-(reading.YawDegrees-offYaw), -(reading.RollDegrees-offRoll), -(reading.PitchDegrees-offPitch));
else if (connected && mode == SensorMode.JOYSTICK)
App.comHelper.sendAxis((reading.PitchDegrees-offPitch) / 120 + 0.5, -(reading.RollDegrees-offRoll) / 100 + 0.5);
else if (mode == SensorMode.CALIBRATION)
{
offYaw = reading.YawDegrees;
offRoll = reading.RollDegrees;
offPitch = reading.PitchDegrees;
}
}
/// <summary>
/// This is the event handler for ReadingChanged events.
/// </summary>
/// <param name="sender"></param>
/// <param name="e"></param>
async private void ReadingChanged(object sender, InclinometerReadingChangedEventArgs e)
{
await Dispatcher.RunAsync(CoreDispatcherPriority.Normal, () =>
{
InclinometerReading reading = e.Reading;
ScenarioOutput_X.Text = String.Format("{0,5:0.00}", reading.PitchDegrees);
ScenarioOutput_Y.Text = String.Format("{0,5:0.00}", reading.RollDegrees);
ScenarioOutput_Z.Text = String.Format("{0,5:0.00}", reading.YawDegrees);
});
}
