#if UNITY_EDITOR || UNITY_ANDROID || PACKAGE_DOCS_GENERATION using System; using System.ComponentModel; using System.Runtime.InteropServices; using UnityEngine.InputSystem.Android.LowLevel; using UnityEngine.InputSystem.LowLevel; using UnityEngine.InputSystem.Utilities; using UnityEngine.InputSystem.Layouts; using UnityEngine.InputSystem.Processors; ////TODO: make all the sensor class types internal namespace UnityEngine.InputSystem.Android.LowLevel { internal enum AndroidSensorType { None = 0, Accelerometer = 1, MagneticField = 2, Orientation = 3, // Was deprecated in API 8 https://developer.android.com/reference/android/hardware/Sensor#TYPE_ORIENTATION Gyroscope = 4, Light = 5, Pressure = 6, Temperature = 7, // Was deprecated in API 14 https://developer.android.com/reference/android/hardware/Sensor#TYPE_TEMPERATURE Proximity = 8, Gravity = 9, LinearAcceleration = 10, RotationVector = 11, RelativeHumidity = 12, AmbientTemperature = 13, MagneticFieldUncalibrated = 14, GameRotationVector = 15, GyroscopeUncalibrated = 16, SignificantMotion = 17, StepDetector = 18, StepCounter = 19, GeomagneticRotationVector = 20, HeartRate = 21, Pose6DOF = 28, StationaryDetect = 29, MotionDetect = 30, HeartBeat = 31, LowLatencyOffBodyDetect = 34, AccelerometerUncalibrated = 35, } [Serializable] internal struct AndroidSensorCapabilities { public AndroidSensorType sensorType; public string ToJson() { return JsonUtility.ToJson(this); } public static AndroidSensorCapabilities FromJson(string json) { if (json == null) throw new ArgumentNullException(nameof(json)); return JsonUtility.FromJson(json); } public override string ToString() { return $"type = {sensorType.ToString()}"; } } [StructLayout(LayoutKind.Sequential)] internal unsafe struct AndroidSensorState : IInputStateTypeInfo { public static FourCC kFormat = new FourCC('A', 'S', 'S', ' '); ////FIXME: Sensors to check if values matches old system // Accelerometer - OK // MagneticField - no alternative in old system // Gyroscope - OK // Light - no alternative in old system // Pressure - no alternative in old system // Proximity - no alternative in old system // Gravity - OK // LinearAcceleration - need to check // RotationVector - OK // RelativeHumidity - no alternative in old system // AmbientTemperature - no alternative in old system // GameRotationVector - no alternative in old system // StepCounter - no alternative in old system // GeomagneticRotationVector - no alternative in old system // HeartRate - no alternative in old system [InputControl(name = "acceleration", layout = "Vector3", processors = "AndroidCompensateDirection", variants = "Accelerometer")] [InputControl(name = "magneticField", layout = "Vector3", variants = "MagneticField")] // Note: Using CompensateDirection instead of AndroidCompensateDirection, because we don't need to normalize velocity [InputControl(name = "angularVelocity", layout = "Vector3", processors = "CompensateDirection", variants = "Gyroscope")] [InputControl(name = "lightLevel", layout = "Axis", variants = "Light")] [InputControl(name = "atmosphericPressure", layout = "Axis", variants = "Pressure")] [InputControl(name = "distance", layout = "Axis", variants = "Proximity")] [InputControl(name = "gravity", layout = "Vector3", processors = "AndroidCompensateDirection", variants = "Gravity")] [InputControl(name = "acceleration", layout = "Vector3", processors = "AndroidCompensateDirection", variants = "LinearAcceleration")] [InputControl(name = "attitude", layout = "Quaternion", processors = "AndroidCompensateRotation", variants = "RotationVector")] [InputControl(name = "relativeHumidity", layout = "Axis", variants = "RelativeHumidity")] [InputControl(name = "ambientTemperature", layout = "Axis", variants = "AmbientTemperature")] [InputControl(name = "attitude", layout = "Quaternion", processors = "AndroidCompensateRotation", variants = "GameRotationVector")] [InputControl(name = "stepCounter", layout = "Integer", variants = "StepCounter")] [InputControl(name = "rotation", layout = "Quaternion", processors = "AndroidCompensateRotation", variants = "GeomagneticRotationVector")] [InputControl(name = "rate", layout = "Axis", variants = "HeartRate")] public fixed float data[16]; public AndroidSensorState WithData(params float[] data) { if (data == null) throw new ArgumentNullException(nameof(data)); for (var i = 0; i < data.Length && i < 16; i++) this.data[i] = data[i]; // Fill the rest with zeroes for (var i = data.Length; i < 16; i++) this.data[i] = 0.0f; return this; } public FourCC format => kFormat; } [DesignTimeVisible(false)] internal class AndroidCompensateDirectionProcessor : CompensateDirectionProcessor { // Taken from platforms\android-\arch-arm\usr\include\android\sensor.h private const float kSensorStandardGravity = 9.80665f; private const float kAccelerationMultiplier = -1.0f / kSensorStandardGravity; public override Vector3 Process(Vector3 vector, InputControl control) { return base.Process(vector * kAccelerationMultiplier, control); } } [DesignTimeVisible(false)] internal class AndroidCompensateRotationProcessor : CompensateRotationProcessor { public override Quaternion Process(Quaternion value, InputControl control) { // https://developer.android.com/reference/android/hardware/SensorEvent#values // "...The rotation vector represents the orientation of the device as a combination of an angle and an axis, in which the device has rotated through an angle theta around an axis ." // "...The three elements of the rotation vector are < x * sin(theta / 2), y* sin(theta / 2), z* sin(theta / 2)>, such that the magnitude of the rotation vector is equal to sin(theta / 2), and the direction of the rotation vector is equal to the direction of the axis of rotation." // "...The three elements of the rotation vector are equal to the last three components of a unit quaternion < cos(theta / 2), x* sin(theta/ 2), y* sin(theta / 2), z* sin(theta/ 2)>." // // In other words, axis + rotation is combined into Vector3, to recover the quaternion from it, we must compute 4th component as 1 - sqrt(x*x + y*y + z*z) var sinRho2 = value.x * value.x + value.y * value.y + value.z * value.z; value.w = (sinRho2 < 1.0f) ? Mathf.Sqrt(1.0f - sinRho2) : 0.0f; return base.Process(value, control); } } } namespace UnityEngine.InputSystem.Android { /// /// Accelerometer device on Android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "Accelerometer", hideInUI = true)] public class AndroidAccelerometer : Accelerometer { } /// /// Magnetic field sensor device on Android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "MagneticField", hideInUI = true)] public class AndroidMagneticFieldSensor : MagneticFieldSensor { } /// /// Gyroscope device on android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "Gyroscope", hideInUI = true)] public class AndroidGyroscope : Gyroscope { } /// /// Light sensor device on Android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "Light", hideInUI = true)] public class AndroidLightSensor : LightSensor { } /// /// Pressure sensor device on Android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "Pressure", hideInUI = true)] public class AndroidPressureSensor : PressureSensor { } /// /// Proximity sensor type on Android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "Proximity", hideInUI = true)] public class AndroidProximity : ProximitySensor { } /// /// Gravity sensor device on Android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "Gravity", hideInUI = true)] public class AndroidGravitySensor : GravitySensor { } /// /// Linear acceleration sensor device on Android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "LinearAcceleration", hideInUI = true)] public class AndroidLinearAccelerationSensor : LinearAccelerationSensor { } /// /// Rotation vector sensor device on Android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "RotationVector", hideInUI = true)] public class AndroidRotationVector : AttitudeSensor { } /// /// Relative humidity sensor device on Android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "RelativeHumidity", hideInUI = true)] public class AndroidRelativeHumidity : HumiditySensor { } /// /// Ambient temperature sensor device on Android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "AmbientTemperature", hideInUI = true)] public class AndroidAmbientTemperature : AmbientTemperatureSensor { } /// /// Game rotation vector sensor device on Android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "GameRotationVector", hideInUI = true)] public class AndroidGameRotationVector : AttitudeSensor { } /// /// Step counter sensor device on Android. /// /// [InputControlLayout(stateType = typeof(AndroidSensorState), variants = "StepCounter", hideInUI = true)] public class AndroidStepCounter : StepCounter { } } #endif