Rasagar/Library/PackageCache/com.unity.inputsystem/InputSystem/Devices/Sensor.cs
2024-08-26 23:07:20 +03:00

655 lines
22 KiB
C#

using System;
using UnityEngine.InputSystem.Controls;
using UnityEngine.InputSystem.Layouts;
using UnityEngine.InputSystem.LowLevel;
using UnityEngine.InputSystem.Utilities;
////TODO: make the sensors return values through their device
//// (e.g. GravitySensor should itself be an InputControl returning a Vector3 value which is the gravity value)
////REVIEW: Is there a better way than having all the sensor classes?
namespace UnityEngine.InputSystem.LowLevel
{
internal struct AccelerometerState : IInputStateTypeInfo
{
public static FourCC kFormat => new FourCC('A', 'C', 'C', 'L');
[InputControl(displayName = "Acceleration", processors = "CompensateDirection", noisy = true)]
public Vector3 acceleration;
public FourCC format => kFormat;
}
internal struct GyroscopeState : IInputStateTypeInfo
{
public static FourCC kFormat => new FourCC('G', 'Y', 'R', 'O');
[InputControl(displayName = "Angular Velocity", processors = "CompensateDirection", noisy = true)]
public Vector3 angularVelocity;
public FourCC format => kFormat;
}
internal struct GravityState : IInputStateTypeInfo
{
public static FourCC kFormat => new FourCC('G', 'R', 'V', ' ');
[InputControl(displayName = "Gravity", processors = "CompensateDirection", noisy = true)]
public Vector3 gravity;
public FourCC format => kFormat;
}
internal struct AttitudeState : IInputStateTypeInfo
{
public static FourCC kFormat => new FourCC('A', 'T', 'T', 'D');
[InputControl(displayName = "Attitude", processors = "CompensateRotation", noisy = true)]
public Quaternion attitude;
public FourCC format => kFormat;
}
internal struct LinearAccelerationState : IInputStateTypeInfo
{
public static FourCC kFormat => new FourCC('L', 'A', 'A', 'C');
[InputControl(displayName = "Acceleration", processors = "CompensateDirection", noisy = true)]
public Vector3 acceleration;
public FourCC format => kFormat;
}
}
namespace UnityEngine.InputSystem
{
/// <summary>
/// Base class representing any sensor kind of input device.
/// </summary>
/// <remarks>
/// Sensors represent device environmental sensors, such as <see cref="Accelerometer"/>s, <see cref="Gyroscope"/>s,
/// <see cref="GravitySensor"/>s and others.
///
/// Unlike other devices, sensor devices usually start out in a disabled state in order to reduce energy
/// consumption (i.e. preserve battery life) when the sensors are not in fact used. To enable a specific sensor,
/// call <see cref="InputSystem.EnableDevice"/> on the device instance.
///
/// <example>
/// <code>
/// // Enable the gyroscope.
/// InputSystem.EnableDevice(Gyroscope.current);
/// </code>
/// </example>
///
/// Sensors are usually sampled automatically by the platform at regular intervals. For example, if a sensor
/// is sampled at 50Hz, the platform will queue an event with an update at a rate of roughly 50 events per
/// second. The default sampling rate for a sensor is usually platform-specific. A custom sampling frequency
/// can be set through <see cref="samplingFrequency"/> but be aware that there may be limitations for how fast
/// a given sensor can be sampled.
/// </remarks>
[InputControlLayout(isGenericTypeOfDevice = true)]
public class Sensor : InputDevice
{
/// <summary>
/// The frequency (in Hertz) at which the underlying sensor will be refreshed and at which update
/// events for it will be queued.
/// </summary>
/// <value>Times per second at which the sensor is refreshed.</value>
/// <remarks>
/// Note that when setting sampling frequencies, there may be limits on the range of frequencies
/// supported by the underlying hardware/platform.
///
/// To support querying sampling frequencies, a sensor device must implement <see cref="QuerySamplingFrequencyCommand"/>.
/// To support setting frequencies, it must implemenet <see cref="SetSamplingFrequencyCommand"/>.
/// </remarks>
/// <exception cref="NotSupportedException">Thrown when reading the property and the underlying
/// sensor does not support querying of sampling frequencies.</exception>
public float samplingFrequency
{
get
{
var command = QuerySamplingFrequencyCommand.Create();
if (ExecuteCommand(ref command) >= 0)
return command.frequency;
throw new NotSupportedException($"Device '{this}' does not support querying sampling frequency");
}
set
{
////REVIEW: should this throw NotSupportedException, too?
var command = SetSamplingFrequencyCommand.Create(value);
ExecuteCommand(ref command);
}
}
}
/// <summary>
/// Input device representing an accelerometer sensor.
/// </summary>
/// <remarks>
/// An accelerometer let's you measure the acceleration of a device, and can be useful to control content by moving a device around.
/// Note that the accelerometer will report the acceleration measured on a device both due to moving the device around, and due gravity
/// pulling the device down. You can use <see cref="GravitySensor"/> and <see cref="LinearAccelerationSensor"/> to get decoupled values
/// for these.
///
/// <example>
/// <code>
/// class MyBehavior : MonoBehaviour
/// {
/// protected void OnEnable()
/// {
/// // All sensors start out disabled so they have to manually be enabled first.
/// InputSystem.EnableDevice(Accelerometer.current);
/// }
///
/// protected void OnDisable()
/// {
/// InputSystem.DisableDevice(Accelerometer.current);
/// }
///
/// protected void Update()
/// {
/// var acceleration = Accelerometer.current.acceleration.ReadValue();
/// //...
/// }
/// }
/// </code>
/// </example>
/// </remarks>
[InputControlLayout(stateType = typeof(AccelerometerState))]
public class Accelerometer : Sensor
{
public Vector3Control acceleration { get; protected set; }
/// <summary>
/// The accelerometer that was last added or had activity last.
/// </summary>
/// <value>Current accelerometer or <c>null</c>.</value>
public static Accelerometer current { get; private set; }
/// <inheritdoc />
public override void MakeCurrent()
{
base.MakeCurrent();
current = this;
}
/// <inheritdoc />
protected override void OnRemoved()
{
base.OnRemoved();
if (current == this)
current = null;
}
/// <inheritdoc />
protected override void FinishSetup()
{
acceleration = GetChildControl<Vector3Control>("acceleration");
base.FinishSetup();
}
}
/// <summary>
/// Input device representing a gyroscope sensor.
/// </summary>
/// <remarks>
/// A gyroscope let's you measure the angular velocity of a device, and can be useful to control content by rotating a device.
/// </remarks>
[InputControlLayout(stateType = typeof(GyroscopeState))]
public class Gyroscope : Sensor
{
public Vector3Control angularVelocity { get; protected set; }
/// <summary>
/// The gyroscope that was last added or had activity last.
/// </summary>
/// <value>Current gyroscope or <c>null</c>.</value>
public static Gyroscope current { get; private set; }
/// <inheritdoc />
public override void MakeCurrent()
{
base.MakeCurrent();
current = this;
}
/// <inheritdoc />
protected override void OnRemoved()
{
base.OnRemoved();
if (current == this)
current = null;
}
/// <inheritdoc />
protected override void FinishSetup()
{
angularVelocity = GetChildControl<Vector3Control>("angularVelocity");
base.FinishSetup();
}
}
/// <summary>
/// Input device representing a gravity sensor.
/// </summary>
/// <remarks>
/// A gravity sensor let's you determine the direction of the gravity vector relative to a device, and can be useful to control content by device orientation.
/// This is usually derived from a hardware <see cref="Accelerometer"/>, by subtracting the effect of linear acceleration (see <see cref="LinearAccelerationSensor"/>).
/// </remarks>
[InputControlLayout(stateType = typeof(GravityState), displayName = "Gravity")]
public class GravitySensor : Sensor
{
public Vector3Control gravity { get; protected set; }
/// <summary>
/// The gravity sensor that was last added or had activity last.
/// </summary>
/// <value>Current gravity sensor or <c>null</c>.</value>
public static GravitySensor current { get; private set; }
/// <inheritdoc />
protected override void FinishSetup()
{
gravity = GetChildControl<Vector3Control>("gravity");
base.FinishSetup();
}
/// <inheritdoc />
public override void MakeCurrent()
{
base.MakeCurrent();
current = this;
}
/// <inheritdoc />
protected override void OnRemoved()
{
base.OnRemoved();
if (current == this)
current = null;
}
}
//// REVIEW: Is this name good enough, possible other name RotationVector, here's how Android docs describe it. "A rotation vector sensor reports the orientation of the device relative to the East-North-Up coordinates frame."
//// This is the same as https://docs.unity3d.com/ScriptReference/Gyroscope-attitude.html
/// <summary>
/// Input device representing an attitude sensor.
/// </summary>
/// <remarks>
/// An attitude sensor let's you determine the orientation of a device, and can be useful to control content by rotating a device.
/// </remarks>
[InputControlLayout(stateType = typeof(AttitudeState), displayName = "Attitude")]
public class AttitudeSensor : Sensor
{
public QuaternionControl attitude { get; protected set; }
/// <summary>
/// The attitude sensor that was last added or had activity last.
/// </summary>
/// <value>Current attitude sensor or <c>null</c>.</value>
public static AttitudeSensor current { get; private set; }
/// <inheritdoc />
public override void MakeCurrent()
{
base.MakeCurrent();
current = this;
}
/// <inheritdoc />
protected override void OnRemoved()
{
base.OnRemoved();
if (current == this)
current = null;
}
/// <inheritdoc />
protected override void FinishSetup()
{
attitude = GetChildControl<QuaternionControl>("attitude");
base.FinishSetup();
}
}
/// <summary>
/// Input device representing linear acceleration affecting the device playing the content.
/// </summary>
/// <remarks>
/// An accelerometer let's you measure the acceleration of a device, and can be useful to control content by moving a device around.
/// Linear acceleration is the acceleration of a device unaffected by gravity forces.
/// This is usually derived from a hardware <see cref="Accelerometer"/>, by subtracting the effect of gravity (see <see cref="GravitySensor"/>).
/// </remarks>
[InputControlLayout(stateType = typeof(LinearAccelerationState), displayName = "Linear Acceleration")]
public class LinearAccelerationSensor : Sensor
{
public Vector3Control acceleration { get; protected set; }
/// <summary>
/// The linear acceleration sensor that was last added or had activity last.
/// </summary>
/// <value>Current linear acceleration sensor or <c>null</c>.</value>
public static LinearAccelerationSensor current { get; private set; }
/// <inheritdoc />
public override void MakeCurrent()
{
base.MakeCurrent();
current = this;
}
/// <inheritdoc />
protected override void OnRemoved()
{
base.OnRemoved();
if (current == this)
current = null;
}
/// <inheritdoc />
protected override void FinishSetup()
{
acceleration = GetChildControl<Vector3Control>("acceleration");
base.FinishSetup();
}
}
/// <summary>
/// Input device representing the magnetic field affecting the device playing the content.
/// </summary>
[InputControlLayout(displayName = "Magnetic Field")]
public class MagneticFieldSensor : Sensor
{
/// <summary>
/// Strength of the magnetic field reported by the sensor.
/// </summary>
/// <value>Control representing the strength of the magnetic field.</value>
/// <remarks>
/// Values are in micro-Tesla (uT) and measure the ambient magnetic field in the X, Y and Z axis.
/// </remarks>
[InputControl(displayName = "Magnetic Field", noisy = true)]
public Vector3Control magneticField { get; protected set; }
/// <summary>
/// The linear acceleration sensor that was last added or had activity last.
/// </summary>
/// <value>Current linear acceleration sensor or <c>null</c>.</value>
public static MagneticFieldSensor current { get; private set; }
/// <inheritdoc />
public override void MakeCurrent()
{
base.MakeCurrent();
current = this;
}
/// <inheritdoc />
protected override void OnRemoved()
{
base.OnRemoved();
if (current == this)
current = null;
}
/// <inheritdoc />
protected override void FinishSetup()
{
magneticField = GetChildControl<Vector3Control>("magneticField");
base.FinishSetup();
}
}
/// <summary>
/// Input device representing the ambient light measured by the device playing the content.
/// </summary>
[InputControlLayout(displayName = "Light")]
public class LightSensor : Sensor
{
/// <summary>
/// Light level in SI lux units.
/// </summary>
[InputControl(displayName = "Light Level", noisy = true)]
public AxisControl lightLevel { get; protected set; }
/// <summary>
/// The light sensor that was last added or had activity last.
/// </summary>
/// <value>Current light sensor or <c>null</c>.</value>
public static LightSensor current { get; private set; }
/// <inheritdoc />
public override void MakeCurrent()
{
base.MakeCurrent();
current = this;
}
/// <inheritdoc />
protected override void OnRemoved()
{
base.OnRemoved();
if (current == this)
current = null;
}
/// <inheritdoc />
protected override void FinishSetup()
{
lightLevel = GetChildControl<AxisControl>("lightLevel");
base.FinishSetup();
}
}
/// <summary>
/// Input device representing the atmospheric pressure measured by the device playing the content.
/// </summary>
[InputControlLayout(displayName = "Pressure")]
public class PressureSensor : Sensor
{
/// <summary>
/// Atmospheric pressure in hPa (millibar).
/// </summary>
[InputControl(displayName = "Atmospheric Pressure", noisy = true)]
public AxisControl atmosphericPressure { get; protected set; }
/// <summary>
/// The pressure sensor that was last added or had activity last.
/// </summary>
/// <value>Current pressure sensor or <c>null</c>.</value>
public static PressureSensor current { get; private set; }
/// <inheritdoc />
public override void MakeCurrent()
{
base.MakeCurrent();
current = this;
}
/// <inheritdoc />
protected override void OnRemoved()
{
base.OnRemoved();
if (current == this)
current = null;
}
/// <inheritdoc />
protected override void FinishSetup()
{
atmosphericPressure = GetChildControl<AxisControl>("atmosphericPressure");
base.FinishSetup();
}
}
/// <summary>
/// Input device representing the proximity of the device playing the content to the user.
/// </summary>
/// <remarks>
/// The proximity sensor is usually used by phones to determine if the user is holding the phone to their ear or not.
/// </remarks>
[InputControlLayout(displayName = "Proximity")]
public class ProximitySensor : Sensor
{
/// <summary>
/// Proximity sensor distance measured in centimeters.
/// </summary>
[InputControl(displayName = "Distance", noisy = true)]
public AxisControl distance { get; protected set; }
/// <summary>
/// The proximity sensor that was last added or had activity last.
/// </summary>
/// <value>Current proximity sensor or <c>null</c>.</value>
public static ProximitySensor current { get; private set; }
/// <inheritdoc />
public override void MakeCurrent()
{
base.MakeCurrent();
current = this;
}
/// <inheritdoc />
protected override void OnRemoved()
{
base.OnRemoved();
if (current == this)
current = null;
}
/// <inheritdoc />
protected override void FinishSetup()
{
distance = GetChildControl<AxisControl>("distance");
base.FinishSetup();
}
}
/// <summary>
/// Input device representing the ambient air humidity measured by the device playing the content.
/// </summary>
[InputControlLayout(displayName = "Humidity")]
public class HumiditySensor : Sensor
{
/// <summary>
/// Relative ambient air humidity in percent.
/// </summary>
[InputControl(displayName = "Relative Humidity", noisy = true)]
public AxisControl relativeHumidity { get; protected set; }
/// <summary>
/// The humidity sensor that was last added or had activity last.
/// </summary>
/// <value>Current humidity sensor or <c>null</c>.</value>
public static HumiditySensor current { get; private set; }
/// <inheritdoc />
public override void MakeCurrent()
{
base.MakeCurrent();
current = this;
}
/// <inheritdoc />
protected override void OnRemoved()
{
base.OnRemoved();
if (current == this)
current = null;
}
/// <inheritdoc />
protected override void FinishSetup()
{
relativeHumidity = GetChildControl<AxisControl>("relativeHumidity");
base.FinishSetup();
}
}
/// <summary>
/// Input device representing the ambient air temperature measured by the device playing the content.
/// </summary>
[InputControlLayout(displayName = "Ambient Temperature")]
public class AmbientTemperatureSensor : Sensor
{
/// <summary>
/// Temperature in degree Celsius.
/// </summary>
[InputControl(displayName = "Ambient Temperature", noisy = true)]
public AxisControl ambientTemperature { get; protected set; }
/// <summary>
/// The ambient temperature sensor that was last added or had activity last.
/// </summary>
/// <value>Current ambient temperature sensor or <c>null</c>.</value>
public static AmbientTemperatureSensor current { get; private set; }
/// <inheritdoc />
public override void MakeCurrent()
{
base.MakeCurrent();
current = this;
}
/// <inheritdoc />
protected override void OnRemoved()
{
base.OnRemoved();
if (current == this)
current = null;
}
/// <inheritdoc />
protected override void FinishSetup()
{
ambientTemperature = GetChildControl<AxisControl>("ambientTemperature");
base.FinishSetup();
}
}
/// <summary>
/// Input device representing the foot steps taken by the user as measured by the device playing the content.
/// </summary>
/// <remarks>
/// On iOS, access to the step counter must be enabled via <see cref="InputSettings.iOSSettings.motionUsage"/>.
/// </remarks>
[InputControlLayout(displayName = "Step Counter")]
public class StepCounter : Sensor
{
/// <summary>
/// The number of steps taken by the user since the last reboot while activated.
/// </summary>
[InputControl(displayName = "Step Counter", noisy = true)]
public IntegerControl stepCounter { get; protected set; }
/// <summary>
/// The step counter that was last added or had activity last.
/// </summary>
/// <value>Current step counter or <c>null</c>.</value>
public static StepCounter current { get; private set; }
/// <inheritdoc />
public override void MakeCurrent()
{
base.MakeCurrent();
current = this;
}
/// <inheritdoc />
protected override void OnRemoved()
{
base.OnRemoved();
if (current == this)
current = null;
}
/// <inheritdoc />
protected override void FinishSetup()
{
stepCounter = GetChildControl<IntegerControl>("stepCounter");
base.FinishSetup();
}
}
}