Sideband_CE/sbapp/plyer/platforms/android/spatialorientation.py

from jnius import autoclass
from jnius import cast
from jnius import java_method
from jnius import PythonJavaClass
from plyer.platforms.android import activity
from plyer.facades import SpatialOrientation

Context = autoclass('android.content.Context')
Sensor = autoclass('android.hardware.Sensor')
SensorManager = autoclass('android.hardware.SensorManager')


class AccelerometerSensorListener(PythonJavaClass):
    __javainterfaces__ = ['android/hardware/SensorEventListener']

    def __init__(self):
        super().__init__()
        self.SensorManager = cast(
            'android.hardware.SensorManager',
            activity.getSystemService(Context.SENSOR_SERVICE)
        )
        self.sensor = self.SensorManager.getDefaultSensor(
            Sensor.TYPE_ACCELEROMETER
        )
        self.values = [None, None, None]

    def enable(self):
        self.SensorManager.registerListener(
            self, self.sensor,
            SensorManager.SENSOR_DELAY_NORMAL
        )

    def disable(self):
        self.SensorManager.unregisterListener(self, self.sensor)

    @java_method('(Landroid/hardware/SensorEvent;)V')
    def onSensorChanged(self, event):
        self.values = event.values[:3]

    @java_method('(Landroid/hardware/Sensor;I)V')
    def onAccuracyChanged(self, sensor, accuracy):
        pass


class MagnetometerSensorListener(PythonJavaClass):
    __javainterfaces__ = ['android/hardware/SensorEventListener']

    def __init__(self):
        super().__init__()
        service = activity.getSystemService(Context.SENSOR_SERVICE)
        self.SensorManager = cast('android.hardware.SensorManager', service)

        self.sensor = self.SensorManager.getDefaultSensor(
            Sensor.TYPE_MAGNETIC_FIELD)
        self.values = [None, None, None]

    def enable(self):
        self.SensorManager.registerListener(
            self, self.sensor,
            SensorManager.SENSOR_DELAY_NORMAL
        )

    def disable(self):
        self.SensorManager.unregisterListener(self, self.sensor)

    @java_method('(Landroid/hardware/SensorEvent;)V')
    def onSensorChanged(self, event):
        self.values = event.values[:3]

    @java_method('(Landroid/hardware/Sensor;I)V')
    def onAccuracyChanged(self, sensor, accuracy):
        pass


class AndroidSpOrientation(SpatialOrientation):

    def __init__(self):
        self.state = False

    def _get_orientation(self):
        if self.state:
            rotation = [0] * 9
            inclination = [0] * 9
            gravity = []
            geomagnetic = []
            gravity = self.listener_a.values
            geomagnetic = self.listener_m.values
            if gravity[0] is not None and geomagnetic[0] is not None:
                ff_state = SensorManager.getRotationMatrix(
                    rotation, inclination,
                    gravity, geomagnetic
                )
                if ff_state:
                    values = [0, 0, 0]
                    values = SensorManager.getOrientation(
                        rotation, values
                    )
                return values

    def _enable_listener(self, **kwargs):
        if not self.state:
            self.listener_a = AccelerometerSensorListener()
            self.listener_m = MagnetometerSensorListener()
            self.listener_a.enable()
            self.listener_m.enable()
            self.state = True

    def _disable_listener(self, **kwargs):
        if self.state:
            self.listener_a.disable()
            self.listener_m.disable()
            self.state = False
            delattr(self, 'listener_a')
            delattr(self, 'listener_m')


def instance():
    return AndroidSpOrientation()
Included local plyer 2022-09-16 18:07:57 +02:00			`from jnius import autoclass`
			`from jnius import cast`
			`from jnius import java_method`
			`from jnius import PythonJavaClass`
			`from plyer.platforms.android import activity`
			`from plyer.facades import SpatialOrientation`

			`Context = autoclass('android.content.Context')`
			`Sensor = autoclass('android.hardware.Sensor')`
			`SensorManager = autoclass('android.hardware.SensorManager')`


			`class AccelerometerSensorListener(PythonJavaClass):`
			`__javainterfaces__ = ['android/hardware/SensorEventListener']`

			`def __init__(self):`
			`super().__init__()`
			`self.SensorManager = cast(`
			`'android.hardware.SensorManager',`
			`activity.getSystemService(Context.SENSOR_SERVICE)`
			`)`
			`self.sensor = self.SensorManager.getDefaultSensor(`
			`Sensor.TYPE_ACCELEROMETER`
			`)`
			`self.values = [None, None, None]`

			`def enable(self):`
			`self.SensorManager.registerListener(`
			`self, self.sensor,`
			`SensorManager.SENSOR_DELAY_NORMAL`
			`)`

			`def disable(self):`
			`self.SensorManager.unregisterListener(self, self.sensor)`

			`@java_method('(Landroid/hardware/SensorEvent;)V')`
			`def onSensorChanged(self, event):`
			`self.values = event.values[:3]`

			`@java_method('(Landroid/hardware/Sensor;I)V')`
			`def onAccuracyChanged(self, sensor, accuracy):`
			`pass`


			`class MagnetometerSensorListener(PythonJavaClass):`
			`__javainterfaces__ = ['android/hardware/SensorEventListener']`

			`def __init__(self):`
			`super().__init__()`
			`service = activity.getSystemService(Context.SENSOR_SERVICE)`
			`self.SensorManager = cast('android.hardware.SensorManager', service)`

			`self.sensor = self.SensorManager.getDefaultSensor(`
			`Sensor.TYPE_MAGNETIC_FIELD)`
			`self.values = [None, None, None]`

			`def enable(self):`
			`self.SensorManager.registerListener(`
			`self, self.sensor,`
			`SensorManager.SENSOR_DELAY_NORMAL`
			`)`

			`def disable(self):`
			`self.SensorManager.unregisterListener(self, self.sensor)`

			`@java_method('(Landroid/hardware/SensorEvent;)V')`
			`def onSensorChanged(self, event):`
			`self.values = event.values[:3]`

			`@java_method('(Landroid/hardware/Sensor;I)V')`
			`def onAccuracyChanged(self, sensor, accuracy):`
			`pass`


			`class AndroidSpOrientation(SpatialOrientation):`

			`def __init__(self):`
			`self.state = False`

			`def _get_orientation(self):`
			`if self.state:`
			`rotation = [0] * 9`
			`inclination = [0] * 9`
			`gravity = []`
			`geomagnetic = []`
			`gravity = self.listener_a.values`
			`geomagnetic = self.listener_m.values`
			`if gravity[0] is not None and geomagnetic[0] is not None:`
			`ff_state = SensorManager.getRotationMatrix(`
			`rotation, inclination,`
			`gravity, geomagnetic`
			`)`
			`if ff_state:`
			`values = [0, 0, 0]`
			`values = SensorManager.getOrientation(`
			`rotation, values`
			`)`
			`return values`

			`def _enable_listener(self, **kwargs):`
			`if not self.state:`
			`self.listener_a = AccelerometerSensorListener()`
			`self.listener_m = MagnetometerSensorListener()`
			`self.listener_a.enable()`
			`self.listener_m.enable()`
			`self.state = True`

			`def _disable_listener(self, **kwargs):`
			`if self.state:`
			`self.listener_a.disable()`
			`self.listener_m.disable()`
			`self.state = False`
			`delattr(self, 'listener_a')`
			`delattr(self, 'listener_m')`


			`def instance():`
			`return AndroidSpOrientation()`