304 lines
12 KiB
C#
304 lines
12 KiB
C#
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using System;
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using Unity.Collections;
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using UnityEngine.InputSystem.Layouts;
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using UnityEngine.InputSystem.LowLevel;
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using UnityEngine.InputSystem.Utilities;
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////REVIEW: should we make this ExecuteInEditMode?
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////TODO: handle display strings for this in some form; shouldn't display generic gamepad binding strings, for example, for OSCs
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////TODO: give more control over when an OSC creates a new devices; going simply by name of layout only is inflexible
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////TODO: make this survive domain reloads
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////TODO: allow feeding into more than one control
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namespace UnityEngine.InputSystem.OnScreen
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{
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/// <summary>
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/// Base class for on-screen controls.
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/// </summary>
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/// <remarks>
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/// The set of on-screen controls together forms a device. A control layout
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/// is automatically generated from the set and a device using the layout is
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/// added to the system when the on-screen controls are enabled.
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///
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/// The layout that the generated layout is based on is determined by the
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/// control paths chosen for each on-screen control. If, for example, an
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/// on-screen control chooses the 'a' key from the "Keyboard" layout as its
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/// path, a device layout is generated that is based on the "Keyboard" layout
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/// and the on-screen control becomes the 'a' key in that layout.
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///
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/// If a <see cref="GameObject"/> has multiple on-screen controls that reference different
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/// types of device layouts (e.g. one control references 'buttonWest' on
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/// a gamepad and another references 'leftButton' on a mouse), then a device
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/// is created for each type referenced by the setup.
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/// </remarks>
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public abstract class OnScreenControl : MonoBehaviour
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{
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/// <summary>
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/// The control path (see <see cref="InputControlPath"/>) for the control that the on-screen
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/// control will feed input into.
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/// </summary>
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/// <remarks>
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/// A device will be created from the device layout referenced by the control path (see
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/// <see cref="InputControlPath.TryGetDeviceLayout"/>). The path is then used to look up
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/// <see cref="control"/> on the device. The resulting control will be fed values from
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/// the on-screen control.
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///
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/// Multiple on-screen controls sharing the same device layout will together create a single
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/// virtual device. If, for example, one component uses <c>"<Gamepad>/buttonSouth"</c>
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/// and another uses <c>"<Gamepad>/leftStick"</c> as the control path, a single
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/// <see cref="Gamepad"/> will be created and the first component will feed data to
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/// <see cref="Gamepad.buttonSouth"/> and the second component will feed data to
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/// <see cref="Gamepad.leftStick"/>.
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/// </remarks>
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/// <seealso cref="InputControlPath"/>
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public string controlPath
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{
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get => controlPathInternal;
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set
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{
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controlPathInternal = value;
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if (isActiveAndEnabled)
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SetupInputControl();
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}
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}
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/// <summary>
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/// The actual control that is fed input from the on-screen control.
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/// </summary>
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/// <remarks>
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/// This is only valid while the on-screen control is enabled. Otherwise, it is <c>null</c>. Also,
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/// if no <see cref="controlPath"/> has been set, this will remain <c>null</c> even if the component is enabled.
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/// </remarks>
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public InputControl control => m_Control;
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private InputControl m_Control;
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private OnScreenControl m_NextControlOnDevice;
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private InputEventPtr m_InputEventPtr;
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/// <summary>
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/// Accessor for the <see cref="controlPath"/> of the component. Must be implemented by subclasses.
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/// </summary>
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/// <remarks>
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/// Moving the definition of how the control path is stored into subclasses allows them to
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/// apply their own <see cref="InputControlAttribute"/> attributes to them and thus set their
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/// own layout filters.
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/// </remarks>
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protected abstract string controlPathInternal { get; set; }
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private void SetupInputControl()
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{
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Debug.Assert(m_Control == null, "InputControl already initialized");
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Debug.Assert(m_NextControlOnDevice == null, "Previous InputControl has not been properly uninitialized (m_NextControlOnDevice still set)");
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Debug.Assert(!m_InputEventPtr.valid, "Previous InputControl has not been properly uninitialized (m_InputEventPtr still set)");
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// Nothing to do if we don't have a control path.
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var path = controlPathInternal;
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if (string.IsNullOrEmpty(path))
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return;
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// Determine what type of device to work with.
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var layoutName = InputControlPath.TryGetDeviceLayout(path);
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if (layoutName == null)
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{
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Debug.LogError(
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$"Cannot determine device layout to use based on control path '{path}' used in {GetType().Name} component",
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this);
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return;
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}
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// Try to find existing on-screen device that matches.
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var internedLayoutName = new InternedString(layoutName);
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var deviceInfoIndex = -1;
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for (var i = 0; i < s_OnScreenDevices.length; ++i)
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{
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////FIXME: this does not take things such as different device usages into account
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if (s_OnScreenDevices[i].device.m_Layout == internedLayoutName)
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{
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deviceInfoIndex = i;
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break;
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}
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}
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// If we don't have a matching one, create a new one.
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InputDevice device;
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if (deviceInfoIndex == -1)
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{
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// Try to create device.
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try
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{
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device = InputSystem.AddDevice(layoutName);
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}
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catch (Exception exception)
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{
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Debug.LogError(
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$"Could not create device with layout '{layoutName}' used in '{GetType().Name}' component");
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Debug.LogException(exception);
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return;
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}
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InputSystem.AddDeviceUsage(device, "OnScreen");
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// Create event buffer.
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var buffer = StateEvent.From(device, out var eventPtr, Allocator.Persistent);
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// Add to list.
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deviceInfoIndex = s_OnScreenDevices.Append(new OnScreenDeviceInfo
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{
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eventPtr = eventPtr,
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buffer = buffer,
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device = device,
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});
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}
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else
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{
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device = s_OnScreenDevices[deviceInfoIndex].device;
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}
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// Try to find control on device.
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m_Control = InputControlPath.TryFindControl(device, path);
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if (m_Control == null)
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{
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Debug.LogError(
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$"Cannot find control with path '{path}' on device of type '{layoutName}' referenced by component '{GetType().Name}'",
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this);
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// Remove the device, if we just created one.
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if (s_OnScreenDevices[deviceInfoIndex].firstControl == null)
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{
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s_OnScreenDevices[deviceInfoIndex].Destroy();
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s_OnScreenDevices.RemoveAt(deviceInfoIndex);
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}
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return;
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}
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m_InputEventPtr = s_OnScreenDevices[deviceInfoIndex].eventPtr;
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// We have all we need. Permanently add us.
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s_OnScreenDevices[deviceInfoIndex] =
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s_OnScreenDevices[deviceInfoIndex].AddControl(this);
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}
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protected void SendValueToControl<TValue>(TValue value)
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where TValue : struct
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{
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if (m_Control == null)
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return;
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if (!(m_Control is InputControl<TValue> control))
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throw new ArgumentException(
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$"The control path {controlPath} yields a control of type {m_Control.GetType().Name} which is not an InputControl with value type {typeof(TValue).Name}", nameof(value));
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////FIXME: this gives us a one-frame lag (use InputState.Change instead?)
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m_InputEventPtr.internalTime = InputRuntime.s_Instance.currentTime;
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control.WriteValueIntoEvent(value, m_InputEventPtr);
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InputSystem.QueueEvent(m_InputEventPtr);
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}
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protected void SentDefaultValueToControl()
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{
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if (m_Control == null)
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return;
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////FIXME: this gives us a one-frame lag (use InputState.Change instead?)
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m_InputEventPtr.internalTime = InputRuntime.s_Instance.currentTime;
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m_Control.ResetToDefaultStateInEvent(m_InputEventPtr);
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InputSystem.QueueEvent(m_InputEventPtr);
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}
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protected virtual void OnEnable()
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{
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SetupInputControl();
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}
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protected virtual void OnDisable()
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{
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if (m_Control == null)
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return;
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var device = m_Control.device;
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for (var i = 0; i < s_OnScreenDevices.length; ++i)
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{
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if (s_OnScreenDevices[i].device != device)
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continue;
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var deviceInfo = s_OnScreenDevices[i].RemoveControl(this);
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if (deviceInfo.firstControl == null)
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{
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// We're the last on-screen control on this device. Remove the device.
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s_OnScreenDevices[i].Destroy();
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s_OnScreenDevices.RemoveAt(i);
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}
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else
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{
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s_OnScreenDevices[i] = deviceInfo;
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// We're keeping the device but we're disabling the on-screen representation
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// for one of its controls. If the control isn't in default state, reset it
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// to that now. This is what ensures that if, for example, OnScreenButton is
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// disabled after OnPointerDown, we reset its button control to zero even
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// though we will not see an OnPointerUp.
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if (!m_Control.CheckStateIsAtDefault())
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SentDefaultValueToControl();
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}
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m_Control = null;
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m_InputEventPtr = new InputEventPtr();
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Debug.Assert(m_NextControlOnDevice == null);
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break;
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}
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}
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private struct OnScreenDeviceInfo
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{
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public InputEventPtr eventPtr;
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public NativeArray<byte> buffer;
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public InputDevice device;
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public OnScreenControl firstControl;
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public OnScreenDeviceInfo AddControl(OnScreenControl control)
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{
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control.m_NextControlOnDevice = firstControl;
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firstControl = control;
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return this;
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}
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public OnScreenDeviceInfo RemoveControl(OnScreenControl control)
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{
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if (firstControl == control)
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firstControl = control.m_NextControlOnDevice;
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else
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{
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for (OnScreenControl current = firstControl.m_NextControlOnDevice, previous = firstControl;
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current != null; previous = current, current = current.m_NextControlOnDevice)
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{
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if (current != control)
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continue;
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previous.m_NextControlOnDevice = current.m_NextControlOnDevice;
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break;
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}
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}
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control.m_NextControlOnDevice = null;
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return this;
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}
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public void Destroy()
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{
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if (buffer.IsCreated)
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buffer.Dispose();
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if (device != null)
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InputSystem.RemoveDevice(device);
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device = null;
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buffer = new NativeArray<byte>();
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}
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}
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private static InlinedArray<OnScreenDeviceInfo> s_OnScreenDevices;
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}
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}
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