diff --git a/platform/android/java/lib/src/org/godotengine/godot/Godot.java b/platform/android/java/lib/src/org/godotengine/godot/Godot.java index 17ff3c75c01f..2fecf2e6ba66 100644 --- a/platform/android/java/lib/src/org/godotengine/godot/Godot.java +++ b/platform/android/java/lib/src/org/godotengine/godot/Godot.java @@ -727,45 +727,78 @@ public void UiChangeListener() { }); } - @Override - public void onSensorChanged(SensorEvent event) { + public float[] getRotatedValues(float values[]) { + if (values == null || values.length != 3) { + return values; + } + Display display = ((WindowManager)getActivity().getSystemService(WINDOW_SERVICE)).getDefaultDisplay(); int displayRotation = display.getRotation(); - float[] adjustedValues = new float[3]; - final int[][] axisSwap = { - { 1, -1, 0, 1 }, // ROTATION_0 - { -1, -1, 1, 0 }, // ROTATION_90 - { -1, 1, 0, 1 }, // ROTATION_180 - { 1, 1, 1, 0 } - }; // ROTATION_270 + float[] rotatedValues = new float[3]; + switch (displayRotation) { + case Surface.ROTATION_0: + rotatedValues[0] = values[0]; + rotatedValues[1] = values[1]; + rotatedValues[2] = values[2]; + break; + case Surface.ROTATION_90: + rotatedValues[0] = -values[1]; + rotatedValues[1] = values[0]; + rotatedValues[2] = values[2]; + break; + case Surface.ROTATION_180: + rotatedValues[0] = -values[0]; + rotatedValues[1] = -values[1]; + rotatedValues[2] = values[2]; + break; + case Surface.ROTATION_270: + rotatedValues[0] = values[1]; + rotatedValues[1] = -values[0]; + rotatedValues[2] = values[2]; + break; + } - final int[] as = axisSwap[displayRotation]; - adjustedValues[0] = (float)as[0] * event.values[as[2]]; - adjustedValues[1] = (float)as[1] * event.values[as[3]]; - adjustedValues[2] = event.values[2]; + return rotatedValues; + } - final float x = adjustedValues[0]; - final float y = adjustedValues[1]; - final float z = adjustedValues[2]; + @Override + public void onSensorChanged(SensorEvent event) { + if (mRenderView == null) { + return; + } final int typeOfSensor = event.sensor.getType(); - if (mRenderView != null) { - mRenderView.queueOnRenderThread(() -> { - if (typeOfSensor == Sensor.TYPE_ACCELEROMETER) { - GodotLib.accelerometer(-x, y, -z); - } - if (typeOfSensor == Sensor.TYPE_GRAVITY) { - GodotLib.gravity(-x, y, -z); - } - if (typeOfSensor == Sensor.TYPE_MAGNETIC_FIELD) { - GodotLib.magnetometer(-x, y, -z); - } - if (typeOfSensor == Sensor.TYPE_GYROSCOPE) { - GodotLib.gyroscope(x, -y, z); - } - }); + switch (typeOfSensor) { + case Sensor.TYPE_ACCELEROMETER: { + float[] rotatedValues = getRotatedValues(event.values); + mRenderView.queueOnRenderThread(() -> { + GodotLib.accelerometer(-rotatedValues[0], -rotatedValues[1], -rotatedValues[2]); + }); + break; + } + case Sensor.TYPE_GRAVITY: { + float[] rotatedValues = getRotatedValues(event.values); + mRenderView.queueOnRenderThread(() -> { + GodotLib.gravity(-rotatedValues[0], -rotatedValues[1], -rotatedValues[2]); + }); + break; + } + case Sensor.TYPE_MAGNETIC_FIELD: { + float[] rotatedValues = getRotatedValues(event.values); + mRenderView.queueOnRenderThread(() -> { + GodotLib.magnetometer(-rotatedValues[0], -rotatedValues[1], -rotatedValues[2]); + }); + break; + } + case Sensor.TYPE_GYROSCOPE: { + float[] rotatedValues = getRotatedValues(event.values); + mRenderView.queueOnRenderThread(() -> { + GodotLib.gyroscope(rotatedValues[0], rotatedValues[1], rotatedValues[2]); + }); + break; + } } }