@Override public float getAccelerometerX () { return input.getAccelerometerX(); }
public void sendUpdate () { synchronized (this) { if (!connected) return; } try { out.writeInt(ACCEL); out.writeFloat(Gdx.input.getAccelerometerX()); out.writeFloat(Gdx.input.getAccelerometerY()); out.writeFloat(Gdx.input.getAccelerometerZ()); out.writeInt(COMPASS); out.writeFloat(Gdx.input.getAzimuth()); out.writeFloat(Gdx.input.getPitch()); out.writeFloat(Gdx.input.getRoll()); out.writeInt(SIZE); out.writeFloat(Gdx.graphics.getWidth()); out.writeFloat(Gdx.graphics.getHeight()); out.writeInt(GYRO); out.writeFloat(Gdx.input.getGyroscopeX()); out.writeFloat(Gdx.input.getGyroscopeY()); out.writeFloat(Gdx.input.getGyroscopeZ()); } catch (Throwable t) { out = null; connected = false; } }
public void sendUpdate () { synchronized (this) { if (!connected) return; } try { out.writeInt(ACCEL); out.writeFloat(Gdx.input.getAccelerometerX()); out.writeFloat(Gdx.input.getAccelerometerY()); out.writeFloat(Gdx.input.getAccelerometerZ()); out.writeInt(COMPASS); out.writeFloat(Gdx.input.getAzimuth()); out.writeFloat(Gdx.input.getPitch()); out.writeFloat(Gdx.input.getRoll()); out.writeInt(SIZE); out.writeFloat(Gdx.graphics.getWidth()); out.writeFloat(Gdx.graphics.getHeight()); out.writeInt(GYRO); out.writeFloat(Gdx.input.getGyroscopeX()); out.writeFloat(Gdx.input.getGyroscopeY()); out.writeFloat(Gdx.input.getGyroscopeZ()); } catch (Throwable t) { out = null; connected = false; } }
@Override public void render () { Gdx.gl.glClear(GL20.GL_COLOR_BUFFER_BIT); batch.begin(); font.draw(batch, "accel: [" + Gdx.input.getAccelerometerX() + "," + Gdx.input.getAccelerometerY() + "," + Gdx.input.getAccelerometerZ() + "]\n" + "orientation: " + Gdx.input.getNativeOrientation() + "\n" + "rotation: " + Gdx.input.getRotation() + "\n" + "wh: " + Gdx.graphics.getDisplayMode() + "\n", 0, 100); batch.end(); }
public float getAccelX() { if (isSensorActive) { return Gdx.input.getAccelerometerX(); } else { return 0.0f; } }
public void sendUpdate () { synchronized (this) { if (!connected) return; } try { out.writeInt(ACCEL); out.writeFloat(Gdx.input.getAccelerometerX()); out.writeFloat(Gdx.input.getAccelerometerY()); out.writeFloat(Gdx.input.getAccelerometerZ()); out.writeInt(COMPASS); out.writeFloat(Gdx.input.getAzimuth()); out.writeFloat(Gdx.input.getPitch()); out.writeFloat(Gdx.input.getRoll()); out.writeInt(SIZE); out.writeFloat(Gdx.graphics.getWidth()); out.writeFloat(Gdx.graphics.getHeight()); out.writeInt(GYRO); out.writeFloat(Gdx.input.getGyroscopeX()); out.writeFloat(Gdx.input.getGyroscopeY()); out.writeFloat(Gdx.input.getGyroscopeZ()); } catch (Throwable t) { out = null; connected = false; } }
float xAxis = Gdx.input.getAccelerometerX(); float yAxis = Gdx.input.getAccelerometerY(); float zAxis = Gdx.input.getAccelerometerZ();
float yAxis = Gdx.input.getAccelerometerX();
accelX = Gdx.input.getAccelerometerX(); } else { if (Gdx.input.isKeyPressed(Keys.DPAD_LEFT)) accelX = 5f;
float accelerometerX = Gdx.input.getAccelerometerX(); float accelerometerY = Gdx.input.getAccelerometerY(); float accelerometerZ = Gdx.input.getAccelerometerZ();