/**@class android.hardware.SensorListener Used for receiving notifications from the SensorManager when sensor values have changed. @deprecated Use {@link android.hardware.SensorEventListener SensorEventListener} instead. */ var SensorListener = { /**<p>Called when sensor values have changed. The length and contents of the values array vary depending on which sensor is being monitored. See {@link android.hardware.SensorManager SensorManager} for details on possible sensor types. <p><u>Definition of the coordinate system used below.</u><p> <p>The X axis refers to the screen's horizontal axis (the small edge in portrait mode, the long edge in landscape mode) and points to the right. <p>The Y axis refers to the screen's vertical axis and points towards the top of the screen (the origin is in the lower-left corner). <p>The Z axis points toward the sky when the device is lying on its back on a table. <p> <b>IMPORTANT NOTE:</b> The axis <b><u>are swapped</u></b> when the device's screen orientation changes. To access the unswapped values, use indices 3, 4 and 5 in values[]. <p>{@link android.hardware.SensorManager#SENSOR_ORIENTATION SENSOR_ORIENTATION}, {@link android.hardware.SensorManager#SENSOR_ORIENTATION_RAW SENSOR_ORIENTATION_RAW}:<p> All values are angles in degrees. <p>values[0]: Azimuth, rotation around the Z axis (0<=azimuth<360). 0 = North, 90 = East, 180 = South, 270 = West <p>values[1]: Pitch, rotation around X axis (-180<=pitch<=180), with positive values when the z-axis moves toward the y-axis. <p>values[2]: Roll, rotation around Y axis (-90<=roll<=90), with positive values when the z-axis moves toward the x-axis. <p>Note that this definition of yaw, pitch and roll is different from the traditional definition used in aviation where the X axis is along the long side of the plane (tail to nose). <p>{@link android.hardware.SensorManager#SENSOR_ACCELEROMETER SENSOR_ACCELEROMETER}:<p> All values are in SI units (m/s^2) and measure contact forces. <p>values[0]: force applied by the device on the x-axis <p>values[1]: force applied by the device on the y-axis <p>values[2]: force applied by the device on the z-axis <p><u>Examples</u>: <li>When the device is pushed on its left side toward the right, the x acceleration value is negative (the device applies a reaction force to the push toward the left)</li> <li>When the device lies flat on a table, the acceleration value is {@link android.hardware.SensorManager#STANDARD_GRAVITY -STANDARD_GRAVITY}, which correspond to the force the device applies on the table in reaction to gravity.</li> <p>{@link android.hardware.SensorManager#SENSOR_MAGNETIC_FIELD SENSOR_MAGNETIC_FIELD}:<p> All values are in micro-Tesla (uT) and measure the ambient magnetic field in the X, Y and -Z axis. <p><b><u>Note:</u></b> the magnetic field's Z axis is inverted. @param {Number} sensor The ID of the sensor being monitored @param {Object {float[]}} values The new values for the sensor. */ onSensorChanged : function( ) {}, /**Called when the accuracy of a sensor has changed. See {@link android.hardware.SensorManager SensorManager} for details. @param {Number} sensor The ID of the sensor being monitored @param {Number} accuracy The new accuracy of this sensor. */ onAccuracyChanged : function( ) {}, };