partial void StartAccelerometerClick (UIButton sender)
{
if (client != null && client.IsDeviceConnected) {
// create the sensor once
if (accelerometer == null) {
accelerometer = client.SensorManager.CreateAccelerometerSensor ();
accelerometer.ReadingChanged += (_, e) => {
var data = e.SensorReading;
AccelerometerDataText.Text = string.Format ("Accel Data: X={0:+0.00} Y={0:+0.00} Z={0:+0.00}", data.X, data.Y, data.Z);
};
}
if (sensorStarted) {
Output ("Stopping Accelerometer updates...");
try {
accelerometer.StopReadings ();
sensorStarted = false;
} catch (BandException ex) {
Output ("Error: " + ex.Message);
}
} else {
Output ("Starting Accelerometer updates...");
try {
accelerometer.StartReadings ();
sensorStarted = true;
} catch (BandException ex) {
Output ("Error: " + ex.Message);
}
}
} else {
Output ("Band is not connected. Please wait....");
}
}
public AccelerometerSensor GetAccelerometer()
{
if (accelerometer == null) {
accelerometer = GetSensorManager ().CreateAccelerometerSensor ();
}
return accelerometer;
}
/// <summary>
/// Stops this instance.
/// </summary>
partial void Stop()
{
var accelerometer = AccelerometerSensor.GetDefault();
if (accelerometer != null)
{
accelerometer.ReadingChanged -= AccelerometerOnReadingChanged;
}
}
public void ProcessSensorData()
{
var data = new AccelerometerSensor();
if (UpdateInputData(ref data.LastUpdateTime, ref data.Acceleration))
{
SetSensorData <AccelerometerSensor>(data);
}
}
private void EnsureSensorsCreated()
{
IBandSensorManager sensorMgr = Model.Instance.Client.SensorManager;
if (accelerometerSensor == null)
{
accelerometerSensor = sensorMgr.CreateAccelerometerSensor();
accelerometerSensor.ReadingChanged += async(sender, e) =>
{
var accelerometerEvent = e.SensorReading;
//if(Math.Abs(accelerometerEvent.AccelerationX) > 3) xCount++;
if (Math.Abs(accelerometerEvent.AccelerationY) > 3)
{
yCount++;
}
if (Math.Abs(accelerometerEvent.AccelerationZ) > 3)
{
zCount++;
}
// rudimentary shake detection
//if (xCount > 2
if (yCount > 2 &&
zCount > 2)
{
// wait 20 seconds below allowing a new answer
if (DateTime.Now.Subtract(lastAnswered).TotalSeconds > 20)
{
xCount = yCount = zCount = 0;
lastAnswered = DateTime.Now;
lastAnswer = Get8BallPrediction();
await Model.Instance.Client.NotificationManager.SendMessageTaskAsync(
uuid,
"8Ball says...",
lastAnswer,
DateTime.Now,
MessageFlags.ShowDialog);
}
}
this.RunOnUiThread(() =>
{
// accelX.Text = string.Format("{0:F3}", accelerometerEvent.AccelerationX);
// accelY.Text = string.Format("{0:F3}", accelerometerEvent.AccelerationY);
// accelZ.Text = string.Format("{0:F3}", accelerometerEvent.AccelerationZ);
accelZ.Text = xCount + " " + yCount + " " + zCount + " (x,y,x) only (y,z) count";
resultText.Text = lastAnswer;
});
};
}
}
/// <summary>
/// Starts this instance.
/// </summary>
partial void Start()
{
var accelerometer = AccelerometerSensor.GetDefault();
if (accelerometer == null)
{
return;
}
accelerometer.ReportInterval = (uint)this.Interval;
accelerometer.ReadingChanged += AccelerometerOnReadingChanged;
}
protected override void OnCreate(Bundle savedInstanceState)
{
base.OnCreate(savedInstanceState);
SetContentView(Resource.Layout.activity_game);
Window.AddFlags(WindowManagerFlags.Fullscreen);
Window.SetFlags(WindowManagerFlags.KeepScreenOn, WindowManagerFlags.KeepScreenOn);
rlGame = FindViewById <RelativeLayout>(Resource.Id.rl_game);
webView = FindViewById <WebView>(Resource.Id.wv_game);
webView.Settings.JavaScriptEnabled = true;
webView.SetWebViewClient(new MyWebViewClient(this, webView));
webView.SetRendererPriorityPolicy(RendererPriority.Bound, true);
WebSettings webSettings = webView.Settings;
webSettings.JavaScriptEnabled = true;
webSettings.DomStorageEnabled = true;
webSettings.LoadWithOverviewMode = true;
webSettings.UseWideViewPort = true;
webView.AddJavascriptInterface(new WebViewJavascriptInterface(this), "AndroidJSHandler");
var intent = Intent;
if (intent.HasExtra("Game"))
{
var game = intent.GetIntExtra("Game", -1);
if (game != -1)
{
switch (game)
{
case 1:
sensorAcc = new AccelerometerSensor(this);
sensorAcc.SetListener(this);
break;
}
Log.Error("GameActivity", "game: " + game);
webView.LoadUrl("file:///android_asset/joc" + game + "/index.html");
}
else
{
Log.Error("GameActivity", " no game available ");
Toast.MakeText(this, "Jocul nu este valabil", ToastLength.Short).Show();
}
}
else
{
Log.Error("GameActivity", " no extra ");
Toast.MakeText(this, "No extra ", ToastLength.Short).Show();
}
}
public void Stop()
{
if (this.sensor != null)
{
try
{
this.sensor.Stop();
}
catch (Exception) { };
this.sensor.ReadingChanged -= this.HandleSensorReadingChanged;
this.sensor = null;
}
}
partial void StartAccelerometerClick(UIButton sender)
{
if (client != null && client.IsDeviceConnected)
{
// create the sensor once
if (accelerometer == null)
{
accelerometer = client.SensorManager.CreateAccelerometerSensor();
accelerometer.ReadingChanged += (_, e) => {
var data = e.SensorReading;
AccelerometerDataText.Text = string.Format(
"Accel Data: X={0:+0.00} Y={1:+0.00} Z={2:+0.00}",
data.AccelerationX, data.AccelerationY, data.AccelerationZ);
};
}
if (sensorStarted)
{
Output("Stopping Accelerometer updates...");
try {
accelerometer.StopReadings();
sensorStarted = false;
} catch (BandException ex) {
Output("Error: " + ex.Message);
}
}
else
{
Output("Starting Accelerometer updates...");
try {
accelerometer.StartReadings();
sensorStarted = true;
} catch (BandException ex) {
Output("Error: " + ex.Message);
}
}
}
else
{
Output("Band is not connected. Please wait....");
}
}
//
// Sensor event handlers
//
private void EnsureSensorsCreated()
{
IBandSensorManager sensorMgr = Model.Instance.Client.SensorManager;
if (accelerometerSensor == null)
{
accelerometerSensor = sensorMgr.CreateAccelerometerSensor();
accelerometerSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var accelerometerEvent = e.SensorReading;
mTextAccX.Text = string.Format("{0:F3}", accelerometerEvent.AccelerationX);
mTextAccY.Text = string.Format("{0:F3}", accelerometerEvent.AccelerationY);
mTextAccZ.Text = string.Format("{0:F3}", accelerometerEvent.AccelerationZ);
});
};
}
if (contactSensor == null)
{
contactSensor = sensorMgr.CreateContactSensor();
contactSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var contactEvent = e.SensorReading;
mTextContact.Text = contactEvent.ContactState.ToString();
});
};
}
if (distanceSensor == null)
{
distanceSensor = sensorMgr.CreateDistanceSensor();
distanceSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var distanceEvent = e.SensorReading;
mTextTotalDistance.Text = string.Format("{0:D} cm", distanceEvent.TotalDistance);
mTextSpeed.Text = string.Format("{0:F2} cm/s", distanceEvent.Speed);
mTextPace.Text = string.Format("{0:F2} ms/m", distanceEvent.Pace);
mTextPedometerMode.Text = distanceEvent.MotionType.ToString();
});
};
}
if (gyroscopeSensor == null)
{
gyroscopeSensor = sensorMgr.CreateGyroscopeSensor();
gyroscopeSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var gyroscopeEvent = e.SensorReading;
mTextGyroAccX.Text = string.Format("{0:F3}", gyroscopeEvent.AccelerationX);
mTextGyroAccY.Text = string.Format("{0:F3}", gyroscopeEvent.AccelerationY);
mTextGyroAccZ.Text = string.Format("{0:F3}", gyroscopeEvent.AccelerationZ);
mTextGyroAngX.Text = string.Format("{0:F2}", gyroscopeEvent.AngularVelocityX);
mTextGyroAngY.Text = string.Format("{0:F2}", gyroscopeEvent.AngularVelocityY);
mTextGyroAngZ.Text = string.Format("{0:F2}", gyroscopeEvent.AngularVelocityZ);
});
};
}
if (heartRateSensor == null)
{
heartRateSensor = sensorMgr.CreateHeartRateSensor();
heartRateSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var heartRateEvent = e.SensorReading;
mTextHeartRate.Text = Convert.ToString(heartRateEvent.HeartRate);
mTextHeartRateQuality.Text = heartRateEvent.Quality.ToString();
});
};
}
if (pedometerSensor == null)
{
pedometerSensor = sensorMgr.CreatePedometerSensor();
pedometerSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var pedometerEvent = e.SensorReading;
mTextTotalSteps.Text = string.Format("{0:D}", pedometerEvent.TotalSteps);
});
};
}
if (skinTemperatureSensor == null)
{
skinTemperatureSensor = sensorMgr.CreateSkinTemperatureSensor();
skinTemperatureSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var skinTemperatureEvent = e.SensorReading;
mTextSkinTemperature.Text = string.Format("{0:F1}", skinTemperatureEvent.Temperature);
});
};
}
if (uvSensor == null)
{
uvSensor = sensorMgr.CreateUVSensor();
uvSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var uvEvent = e.SensorReading;
mTextUltraviolet.Text = uvEvent.UVIndexLevel.ToString();
});
};
}
}
//
// Sensor event handlers
//
private void EnsureSensorsCreated()
{
IBandSensorManager sensorMgr = Model.Instance.Client.SensorManager;
if (accelerometerSensor == null)
{
accelerometerSensor = sensorMgr.CreateAccelerometerSensor();
accelerometerSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var accelerometerEvent = e.SensorReading;
mTextAccX.Text = string.Format("{0:F3} m/s/s", accelerometerEvent.AccelerationX);
mTextAccY.Text = string.Format("{0:F3} m/s/s", accelerometerEvent.AccelerationY);
mTextAccZ.Text = string.Format("{0:F3} m/s/s", accelerometerEvent.AccelerationZ);
});
};
}
if (contactSensor == null)
{
contactSensor = sensorMgr.CreateContactSensor();
contactSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var contactEvent = e.SensorReading;
mTextContact.Text = contactEvent.ContactState.ToString();
});
};
}
if (distanceSensor == null)
{
distanceSensor = sensorMgr.CreateDistanceSensor();
distanceSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var distanceEvent = e.SensorReading;
mTextTotalDistance.Text = string.Format("{0:D} cm", distanceEvent.TotalDistance);
mTextSpeed.Text = string.Format("{0:F2} cm/s", distanceEvent.Speed);
mTextPace.Text = string.Format("{0:F2} ms/m", distanceEvent.Pace);
mTextPedometerMode.Text = distanceEvent.MotionType.ToString();
});
};
}
if (gyroscopeSensor == null)
{
gyroscopeSensor = sensorMgr.CreateGyroscopeSensor();
gyroscopeSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var gyroscopeEvent = e.SensorReading;
mTextGyroAccX.Text = string.Format("{0:F3} m/s/s", gyroscopeEvent.AccelerationX);
mTextGyroAccY.Text = string.Format("{0:F3} m/s/s", gyroscopeEvent.AccelerationY);
mTextGyroAccZ.Text = string.Format("{0:F3} m/s/s", gyroscopeEvent.AccelerationZ);
mTextGyroAngX.Text = string.Format("{0:F2} deg/s", gyroscopeEvent.AngularVelocityX);
mTextGyroAngY.Text = string.Format("{0:F2} deg/s", gyroscopeEvent.AngularVelocityY);
mTextGyroAngZ.Text = string.Format("{0:F2} deg/s", gyroscopeEvent.AngularVelocityZ);
});
};
}
if (heartRateSensor == null)
{
heartRateSensor = sensorMgr.CreateHeartRateSensor();
heartRateSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var heartRateEvent = e.SensorReading;
mTextHeartRate.Text = string.Format("{0:D} beats/min", heartRateEvent.HeartRate);
mTextHeartRateQuality.Text = heartRateEvent.Quality.ToString();
});
};
}
if (pedometerSensor == null)
{
pedometerSensor = sensorMgr.CreatePedometerSensor();
pedometerSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var pedometerEvent = e.SensorReading;
mTextTotalSteps.Text = string.Format("{0:D} steps", pedometerEvent.TotalSteps);
});
};
}
if (skinTemperatureSensor == null)
{
skinTemperatureSensor = sensorMgr.CreateSkinTemperatureSensor();
skinTemperatureSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var skinTemperatureEvent = e.SensorReading;
mTextSkinTemperature.Text = string.Format("{0:F1} (C)", skinTemperatureEvent.Temperature);
});
};
}
if (uvSensor == null)
{
uvSensor = sensorMgr.CreateUVSensor();
uvSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var uvEvent = e.SensorReading;
mTextUltraviolet.Text = uvEvent.UVIndexLevel.ToString();
});
};
}
if (altimeterSensor == null)
{
altimeterSensor = sensorMgr.CreateAltimeterSensor();
altimeterSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var altimeterEvent = e.SensorReading;
mTextFlightsAscended.Text = string.Format("{0:D} floors", altimeterEvent.FlightsAscended);
mTextFlightsDescended.Text = string.Format("{0:D} floors", altimeterEvent.FlightsDescended);
mTextRate.Text = string.Format("{0:F2} cm/s", altimeterEvent.Rate);
mTextSteppingGain.Text = string.Format("{0:D} cm", altimeterEvent.SteppingGain);
mTextSteppingLoss.Text = string.Format("{0:D} cm", altimeterEvent.SteppingLoss);
mTextStepsAscended.Text = string.Format("{0:D} steps", altimeterEvent.StepsAscended);
mTextStepsDescended.Text = string.Format("{0:D} steps", altimeterEvent.StepsDescended);
mTextTotalGain.Text = string.Format("{0:D} cm", altimeterEvent.TotalGain);
mTextTotalLoss.Text = string.Format("{0:D} cm", altimeterEvent.TotalLoss);
});
};
}
if (ambientLightSensor == null)
{
ambientLightSensor = sensorMgr.CreateAmbientLightSensor();
ambientLightSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var ambientLightEvent = e.SensorReading;
mTextBrightness.Text = string.Format("{0:D} lux", ambientLightEvent.Brightness);
});
};
}
if (barometerSensor == null)
{
barometerSensor = sensorMgr.CreateBarometerSensor();
barometerSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var barometerEvent = e.SensorReading;
mTextAirPressure.Text = string.Format("{0:D} hPa", barometerEvent.AirPressure);
mTextTemperature.Text = string.Format("{0:D} (C)", barometerEvent.Temperature);
});
};
}
if (caloriesSensor == null)
{
caloriesSensor = sensorMgr.CreateCaloriesSensor();
caloriesSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var caloriesEvent = e.SensorReading;
mTextCalories.Text = string.Format("{0:D} kcals", caloriesEvent.Calories);
});
};
}
if (gsrSensor == null)
{
gsrSensor = sensorMgr.CreateGsrSensor();
gsrSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var gsrEvent = e.SensorReading;
mTextResistance.Text = string.Format("{0:D} kohms", gsrEvent.Resistance);
});
};
}
if (rrIntervalSensor == null)
{
rrIntervalSensor = sensorMgr.CreateRRIntervalSensor();
rrIntervalSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var rrIntervalEvent = e.SensorReading;
mTextInterval.Text = string.Format("{0:2F} s", rrIntervalEvent.Interval);
});
};
}
}
protected override void Initialize()
{
GameRoot.BoxingViewport = new BoxingViewportAdapter(Window, GraphicsDevice, (int)VirtualSize.X, (int)VirtualSize.Y, 0, 0);
AccelerometerSensor.Start();
base.Initialize();
}
public GestureRecognizer (AccelerometerSensor accelerometerSensor)
{
_accelerometerSensor = accelerometerSensor;
}
private void AccelerometerOnReadingChanged(AccelerometerSensor sender, AccelerometerReadingChangedEventArgs args)
{
LatestReading = args.Reading.AsVector3();
readingAvailable.Invoke(sender, LatestReading);
}
private void EnsureSensorsCreated()
{
IBandSensorManager sensorMgr = Model.Instance.Client.SensorManager;
if (accelerometerSensor == null)
{
accelerometerSensor = sensorMgr.CreateAccelerometerSensor();
accelerometerSensor.ReadingChanged += async (sender, e) =>
{
var accelerometerEvent = e.SensorReading;
//if(Math.Abs(accelerometerEvent.AccelerationX) > 3) xCount++;
if(Math.Abs(accelerometerEvent.AccelerationY) > 3) yCount++;
if(Math.Abs(accelerometerEvent.AccelerationZ) > 3) zCount++;
// rudimentary shake detection
//if (xCount > 2
if (yCount > 2
&& zCount > 2) {
// wait 20 seconds below allowing a new answer
if (DateTime.Now.Subtract(lastAnswered).TotalSeconds > 20) {
xCount = yCount = zCount = 0;
lastAnswered = DateTime.Now;
lastAnswer = Get8BallPrediction();
await Model.Instance.Client.NotificationManager.SendMessageTaskAsync(
uuid,
"8Ball says...",
lastAnswer,
DateTime.Now,
MessageFlags.ShowDialog);
}
}
this.RunOnUiThread(() =>
{
// accelX.Text = string.Format("{0:F3}", accelerometerEvent.AccelerationX);
// accelY.Text = string.Format("{0:F3}", accelerometerEvent.AccelerationY);
// accelZ.Text = string.Format("{0:F3}", accelerometerEvent.AccelerationZ);
accelZ.Text = xCount + " " + yCount + " " + zCount + " (x,y,x) only (y,z) count";
resultText.Text = lastAnswer;
});
};
}
}
//
// Sensor event handlers
//
private void EnsureSensorsCreated()
{
IBandSensorManager sensorMgr = Model.Instance.Client.SensorManager;
if (accelerometerSensor == null)
{
accelerometerSensor = sensorMgr.CreateAccelerometerSensor();
accelerometerSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var accelerometerEvent = e.SensorReading;
mTextAccX.Text = string.Format("{0:F3} m/s/s", accelerometerEvent.AccelerationX);
mTextAccY.Text = string.Format("{0:F3} m/s/s", accelerometerEvent.AccelerationY);
mTextAccZ.Text = string.Format("{0:F3} m/s/s", accelerometerEvent.AccelerationZ);
});
};
}
if (contactSensor == null)
{
contactSensor = sensorMgr.CreateContactSensor();
contactSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var contactEvent = e.SensorReading;
mTextContact.Text = contactEvent.ContactState.ToString();
});
};
}
if (distanceSensor == null)
{
distanceSensor = sensorMgr.CreateDistanceSensor();
distanceSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var distanceEvent = e.SensorReading;
mTextTotalDistance.Text = string.Format("{0:D} cm", distanceEvent.TotalDistance);
mTextSpeed.Text = string.Format("{0:F2} cm/s", distanceEvent.Speed);
mTextPace.Text = string.Format("{0:F2} ms/m", distanceEvent.Pace);
mTextPedometerMode.Text = distanceEvent.MotionType.ToString();
});
};
}
if (gyroscopeSensor == null)
{
gyroscopeSensor = sensorMgr.CreateGyroscopeSensor();
gyroscopeSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var gyroscopeEvent = e.SensorReading;
mTextGyroAccX.Text = string.Format("{0:F3} m/s/s", gyroscopeEvent.AccelerationX);
mTextGyroAccY.Text = string.Format("{0:F3} m/s/s", gyroscopeEvent.AccelerationY);
mTextGyroAccZ.Text = string.Format("{0:F3} m/s/s", gyroscopeEvent.AccelerationZ);
mTextGyroAngX.Text = string.Format("{0:F2} deg/s", gyroscopeEvent.AngularVelocityX);
mTextGyroAngY.Text = string.Format("{0:F2} deg/s", gyroscopeEvent.AngularVelocityY);
mTextGyroAngZ.Text = string.Format("{0:F2} deg/s", gyroscopeEvent.AngularVelocityZ);
});
};
}
if (heartRateSensor == null)
{
heartRateSensor = sensorMgr.CreateHeartRateSensor();
heartRateSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var heartRateEvent = e.SensorReading;
mTextHeartRate.Text = string.Format("{0:D} beats/min", heartRateEvent.HeartRate);
mTextHeartRateQuality.Text = heartRateEvent.Quality.ToString();
});
};
}
if (pedometerSensor == null)
{
pedometerSensor = sensorMgr.CreatePedometerSensor();
pedometerSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var pedometerEvent = e.SensorReading;
mTextTotalSteps.Text = string.Format("{0:D} steps", pedometerEvent.TotalSteps);
});
};
}
if (skinTemperatureSensor == null)
{
skinTemperatureSensor = sensorMgr.CreateSkinTemperatureSensor();
skinTemperatureSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var skinTemperatureEvent = e.SensorReading;
mTextSkinTemperature.Text = string.Format("{0:F1} (C)", skinTemperatureEvent.Temperature);
});
};
}
if (uvSensor == null)
{
uvSensor = sensorMgr.CreateUVSensor();
uvSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var uvEvent = e.SensorReading;
mTextUltraviolet.Text = uvEvent.UVIndexLevel.ToString();
});
};
}
if (altimeterSensor == null)
{
altimeterSensor = sensorMgr.CreateAltimeterSensor();
altimeterSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var altimeterEvent = e.SensorReading;
mTextFlightsAscended.Text = string.Format("{0:D} floors", altimeterEvent.FlightsAscended);
mTextFlightsDescended.Text = string.Format("{0:D} floors", altimeterEvent.FlightsDescended);
mTextRate.Text = string.Format("{0:F2} cm/s", altimeterEvent.Rate);
mTextSteppingGain.Text = string.Format("{0:D} cm", altimeterEvent.SteppingGain);
mTextSteppingLoss.Text = string.Format("{0:D} cm", altimeterEvent.SteppingLoss);
mTextStepsAscended.Text = string.Format("{0:D} steps", altimeterEvent.StepsAscended);
mTextStepsDescended.Text = string.Format("{0:D} steps", altimeterEvent.StepsDescended);
mTextTotalGain.Text = string.Format("{0:D} cm", altimeterEvent.TotalGain);
mTextTotalLoss.Text = string.Format("{0:D} cm", altimeterEvent.TotalLoss);
});
};
}
if (ambientLightSensor == null)
{
ambientLightSensor = sensorMgr.CreateAmbientLightSensor();
ambientLightSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var ambientLightEvent = e.SensorReading;
mTextBrightness.Text = string.Format("{0:D} lux", ambientLightEvent.Brightness);
});
};
}
if (barometerSensor == null)
{
barometerSensor = sensorMgr.CreateBarometerSensor();
barometerSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var barometerEvent = e.SensorReading;
mTextAirPressure.Text = string.Format("{0:D} hPa", barometerEvent.AirPressure);
mTextTemperature.Text = string.Format("{0:D} (C)", barometerEvent.Temperature);
});
};
}
if (caloriesSensor == null)
{
caloriesSensor = sensorMgr.CreateCaloriesSensor();
caloriesSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var caloriesEvent = e.SensorReading;
mTextCalories.Text = string.Format("{0:D} kcals", caloriesEvent.Calories);
});
};
}
if (gsrSensor == null)
{
gsrSensor = sensorMgr.CreateGsrSensor();
gsrSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var gsrEvent = e.SensorReading;
mTextResistance.Text = string.Format("{0:D} kohms", gsrEvent.Resistance);
});
};
}
if (rrIntervalSensor == null)
{
rrIntervalSensor = sensorMgr.CreateRRIntervalSensor();
rrIntervalSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var rrIntervalEvent = e.SensorReading;
mTextInterval.Text = string.Format("{0:2F} s", rrIntervalEvent.Interval);
});
};
}
}
private void AccelerometerOnReadingChanged(AccelerometerSensor sender, AccelerometerReadingChangedEventArgs args)
{
LatestReading = args.Reading.AsVector3();
readingAvailable.Invoke(sender, LatestReading);
}
protected override void OnStart()
{
AccelerometerSensor.ToggleAccelerometer();
}
private void AccelerometerOnReadingChanged(AccelerometerSensor sender, AccelerometerReadingChangedEventArgs args)
{
LatestReading = args.Reading.AsVector3();
EventExtensions.Invoke <Vector3>(readingAvailable, sender, LatestReading);
}
public static void Init()
{
mGyros = new GyroSensor[3];
mAccs = new AccelerometerSensor[3];
mMotors = new MotorESC[4];
for (int i = 0; i < 4; ++i)
{
mMotors[i] = new MotorESC();
}
for (int i = 0; i < 3; ++i)
{
mGyros[i] = new GyroSensor();
}
for (int i = 0; i < 3; ++i)
{
mAccs[i] = new AccelerometerSensor();
}
}
//
// Sensor event handlers
//
private void EnsureSensorsCreated()
{
IBandSensorManager sensorMgr = Model.Instance.Client.SensorManager;
if (accelerometerSensor == null)
{
accelerometerSensor = sensorMgr.CreateAccelerometerSensor();
accelerometerSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var accelerometerEvent = e.SensorReading;
mTextAccX.Text = string.Format("{0:F3}", accelerometerEvent.AccelerationX);
mTextAccY.Text = string.Format("{0:F3}", accelerometerEvent.AccelerationY);
mTextAccZ.Text = string.Format("{0:F3}", accelerometerEvent.AccelerationZ);
});
};
}
if (contactSensor == null)
{
contactSensor = sensorMgr.CreateContactSensor();
contactSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var contactEvent = e.SensorReading;
mTextContact.Text = contactEvent.ContactStatus.ToString();
});
};
}
if (distanceSensor == null)
{
distanceSensor = sensorMgr.CreateDistanceSensor();
distanceSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var distanceEvent = e.SensorReading;
mTextTotalDistance.Text = string.Format("{0:D} cm", distanceEvent.TotalDistance);
mTextSpeed.Text = string.Format("{0:F2} cm/s", distanceEvent.Speed);
mTextPace.Text = string.Format("{0:F2} ms/m", distanceEvent.Pace);
mTextPedometerMode.Text = distanceEvent.PedometerMode.ToString();
});
};
}
if (gyroscopeSensor == null)
{
gyroscopeSensor = sensorMgr.CreateGyroscopeSensor();
gyroscopeSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var gyroscopeEvent = e.SensorReading;
mTextGyroAccX.Text = string.Format("{0:F3}", gyroscopeEvent.AccelerationX);
mTextGyroAccY.Text = string.Format("{0:F3}", gyroscopeEvent.AccelerationY);
mTextGyroAccZ.Text = string.Format("{0:F3}", gyroscopeEvent.AccelerationZ);
mTextGyroAngX.Text = string.Format("{0:F2}", gyroscopeEvent.AngularVelocityX);
mTextGyroAngY.Text = string.Format("{0:F2}", gyroscopeEvent.AngularVelocityY);
mTextGyroAngZ.Text = string.Format("{0:F2}", gyroscopeEvent.AngularVelocityZ);
});
};
}
if (heartRateSensor == null)
{
heartRateSensor = sensorMgr.CreateHeartRateSensor();
heartRateSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var heartRateEvent = e.SensorReading;
mTextHeartRate.Text = Convert.ToString(heartRateEvent.HeartRate);
mTextHeartRateQuality.Text = heartRateEvent.Quality.ToString();
});
};
}
if (pedometerSensor == null)
{
pedometerSensor = sensorMgr.CreatePedometerSensor();
pedometerSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var pedometerEvent = e.SensorReading;
mTextTotalSteps.Text = string.Format("{0:D}", pedometerEvent.TotalSteps);
});
};
}
if (skinTemperatureSensor == null)
{
skinTemperatureSensor = sensorMgr.CreateSkinTemperatureSensor();
skinTemperatureSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var skinTemperatureEvent = e.SensorReading;
mTextSkinTemperature.Text = string.Format("{0:F1}", skinTemperatureEvent.Temperature);
});
};
}
if (uvSensor == null)
{
uvSensor = sensorMgr.CreateUVSensor();
uvSensor.ReadingChanged += (sender, e) =>
{
Activity.RunOnUiThread(() =>
{
var uvEvent = e.SensorReading;
mTextUltraviolet.Text = uvEvent.UVIndexLevel.ToString();
});
};
}
}
