void android.hardware.SensorEventListener.onAccuracyChanged(android.hardware.Sensor arg0, int arg1) { global::MonoJavaBridge.JNIEnv @__env = global::MonoJavaBridge.JNIEnv.ThreadEnv; if (!IsClrObject) { @__env.CallVoidMethod(this.JvmHandle, global::android.hardware.SensorEventListener_._onAccuracyChanged4376, global::MonoJavaBridge.JavaBridge.ConvertToValue(arg0), global::MonoJavaBridge.JavaBridge.ConvertToValue(arg1)); } else { @__env.CallNonVirtualVoidMethod(this.JvmHandle, global::android.hardware.SensorEventListener_.staticClass, global::android.hardware.SensorEventListener_._onAccuracyChanged4376, global::MonoJavaBridge.JavaBridge.ConvertToValue(arg0), global::MonoJavaBridge.JavaBridge.ConvertToValue(arg1)); } }
private static int sensors_module_get_next_sensor(android.hardware.Sensor sensor, int next) { throw new System.NotImplementedException(); }
public virtual void onAccuracyChanged(android.hardware.Sensor sensor, int accuracy ) { throw new System.NotImplementedException(); }
private void unregisterListener(object listener, android.hardware.Sensor sensor) { throw new System.NotImplementedException(); }
public virtual bool registerListener(android.hardware.SensorEventListener listener , android.hardware.Sensor sensor, int rate, android.os.Handler handler) { throw new System.NotImplementedException(); }
private bool disableSensorLocked(android.hardware.Sensor sensor) { throw new System.NotImplementedException(); }
public virtual void unregisterListener(android.hardware.SensorEventListener listener , android.hardware.Sensor sensor) { throw new System.NotImplementedException(); }
internal virtual void onSensorChangedLocked(android.hardware.Sensor sensor, float [] values, long[] timestamp, int accuracy) { throw new System.NotImplementedException(); }
internal virtual bool hasSensor(android.hardware.Sensor sensor) { throw new System.NotImplementedException(); }
internal ListenerDelegate(SensorManager _enclosing, android.hardware.SensorEventListener listener, android.hardware.Sensor sensor, android.os.Handler handler) { throw new System.NotImplementedException(); }
public virtual bool registerListener(android.hardware.SensorEventListener arg0, android.hardware.Sensor arg1, int arg2) { global::MonoJavaBridge.JNIEnv @__env = global::MonoJavaBridge.JNIEnv.ThreadEnv; if (!IsClrObject) { return(@__env.CallBooleanMethod(this.JvmHandle, global::android.hardware.SensorManager._registerListener4384, global::MonoJavaBridge.JavaBridge.ConvertToValue(arg0), global::MonoJavaBridge.JavaBridge.ConvertToValue(arg1), global::MonoJavaBridge.JavaBridge.ConvertToValue(arg2))); } else { return(@__env.CallNonVirtualBooleanMethod(this.JvmHandle, global::android.hardware.SensorManager.staticClass, global::android.hardware.SensorManager._registerListener4384, global::MonoJavaBridge.JavaBridge.ConvertToValue(arg0), global::MonoJavaBridge.JavaBridge.ConvertToValue(arg1), global::MonoJavaBridge.JavaBridge.ConvertToValue(arg2))); } }
public virtual void unregisterListener(android.hardware.SensorEventListener arg0, android.hardware.Sensor arg1) { global::MonoJavaBridge.JNIEnv @__env = global::MonoJavaBridge.JNIEnv.ThreadEnv; if (!IsClrObject) { @__env.CallVoidMethod(this.JvmHandle, global::android.hardware.SensorManager._unregisterListener4390, global::MonoJavaBridge.JavaBridge.ConvertToValue(arg0), global::MonoJavaBridge.JavaBridge.ConvertToValue(arg1)); } else { @__env.CallNonVirtualVoidMethod(this.JvmHandle, global::android.hardware.SensorManager.staticClass, global::android.hardware.SensorManager._unregisterListener4390, global::MonoJavaBridge.JavaBridge.ConvertToValue(arg0), global::MonoJavaBridge.JavaBridge.ConvertToValue(arg1)); } }