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331 行
14 KiB
331 行
14 KiB
#if MLA_INPUT_SYSTEM && UNITY_2019_4_OR_NEWER
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using System;
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using System.Collections.Generic;
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using Unity.MLAgents.Actuators;
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using Unity.MLAgents.Policies;
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using UnityEngine;
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using UnityEngine.Assertions;
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using UnityEngine.InputSystem;
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using UnityEngine.InputSystem.Controls;
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using UnityEngine.InputSystem.Layouts;
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using UnityEngine.InputSystem.Utilities;
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#if UNITY_EDITOR
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using UnityEditor;
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#endif
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namespace Unity.MLAgents.Extensions.Input
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{
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/// <summary>
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/// Component class that handles the parsing of the <see cref="InputActionAsset"/> and translates that into
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/// <see cref="InputActionActuator"/>s.
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/// </summary>
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[RequireComponent(typeof(PlayerInput), typeof(IInputActionAssetProvider))]
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public class InputActuatorComponent : ActuatorComponent
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{
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InputActionAsset m_InputAsset;
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IInputActionCollection2 m_AssetCollection;
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PlayerInput m_PlayerInput;
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BehaviorParameters m_BehaviorParameters;
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IActuator[] m_Actuators;
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InputDevice m_Device;
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/// <summary>
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/// Mapping of <see cref="InputControl"/> types to types of <see cref="IRLActionInputAdaptor"/> concrete classes.
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/// </summary>
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public static Dictionary<Type, Type> controlTypeToAdaptorType = new Dictionary<Type, Type>
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{
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{ typeof(Vector2Control), typeof(Vector2InputActionAdaptor) },
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{ typeof(ButtonControl), typeof(ButtonInputActionAdaptor) },
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{ typeof(IntegerControl), typeof(IntegerInputActionAdaptor) },
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{ typeof(AxisControl), typeof(FloatInputActionAdaptor) },
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{ typeof(DoubleControl), typeof(DoubleInputActionAdaptor) }
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};
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string m_LayoutName;
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[SerializeField]
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ActionSpec m_ActionSpec;
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InputControlScheme m_ControlScheme;
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public const string mlAgentsLayoutFormat = "MLAT";
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public const string mlAgentsLayoutName = "MLAgentsLayout";
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public const string mlAgentsControlSchemeName = "ml-agents";
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/// <inheritdoc cref="IActuator.ActionSpec"/>
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public override ActionSpec ActionSpec
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{
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get
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{
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#if UNITY_EDITOR
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FindNeededComponents();
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var actuators = CreateActuatorsFromMap(m_InputAsset.FindActionMap(m_PlayerInput.defaultActionMap), m_BehaviorParameters, null);
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m_ActionSpec = CombineActuatorActionSpecs(actuators);
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#endif
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return m_ActionSpec;
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}
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}
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void OnDisable()
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{
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CleanupActionAsset();
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}
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/// <summary>
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/// This method is where the <see cref="InputActionAsset"/> gets parsed and translated into
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/// <see cref="InputActionActuator"/>s that communicate with the <see cref="InputSystem"/> via a
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/// virtual <see cref="InputDevice"/>.
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/// <remarks>
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/// The flow of this method is as follows:
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/// <list type="number">
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/// <item>
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/// <description>Ensure that our custom <see cref="InputBindingComposite{TValue}"/>s are registered with
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/// the InputSystem.</description>
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/// </item>
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/// <item>
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/// <description>Look for the components that are needed by this class in order to retrieve the
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/// <see cref="InputActionAsset"/>. It first looks for <see cref="IInputActionAssetProvider"/>, if that
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/// is not found, it will get the asset from the <see cref="PlayerInput"/> component.</description>
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/// </item>
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/// <item>
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/// <description>Create the list <see cref="InputActionActuator"/>s, one for each action in the default
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/// <see cref="InputActionMap"/> as set by the <see cref="PlayerInput"/> component. Within the method
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/// where the actuators are being created, an <see cref="InputControlLayout"/> is also being built based
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/// on the number and types of <see cref="InputAction"/>s. This will be used to create a virtual
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/// <see cref="InputDevice"/> with a <see cref="InputControlLayout"/> that is specific to the
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/// <see cref="InputActionMap"/> specified by <see cref="PlayerInput"/></description>
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/// </item>
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/// <item>
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/// <description>Create our device based on the layout that was generated and registered during
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/// actuator creation.</description>
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/// </item>
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/// <item>
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/// <description>Create an ml-agents control scheme and add it to the <see cref="InputActionAsset"/> so
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/// our virtual devices can be used.</description>
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/// </item>
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/// <item>
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/// <description>Add our virtual <see cref="InputDevice"/> to the input system.</description>
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/// </item>
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/// </list>
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/// </remarks>
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/// </summary>
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/// <returns>A list of </returns>
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public override IActuator[] CreateActuators()
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{
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FindNeededComponents();
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var collection = m_AssetCollection ?? m_InputAsset;
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collection.Disable();
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var inputActionMap = m_InputAsset.FindActionMap(m_PlayerInput.defaultActionMap);
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RegisterLayoutBuilder(inputActionMap, m_LayoutName);
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m_Device = InputSystem.AddDevice(m_LayoutName);
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m_Actuators = CreateActuatorsFromMap(inputActionMap, m_BehaviorParameters, m_Device);
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UpdateDeviceBinding(m_BehaviorParameters.IsInHeuristicMode());
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inputActionMap.Enable();
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m_ActionSpec = CombineActuatorActionSpecs(m_Actuators);
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collection.Enable();
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return m_Actuators;
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}
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static ActionSpec CombineActuatorActionSpecs(IActuator[] actuators)
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{
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var specs = new ActionSpec[actuators.Length];
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for (var i = 0; i < actuators.Length; i++)
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{
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specs[i] = actuators[i].ActionSpec;
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}
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return ActionSpec.Combine(specs);
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}
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internal static IActuator[] CreateActuatorsFromMap(InputActionMap inputActionMap,
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BehaviorParameters behaviorParameters,
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InputDevice inputDevice)
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{
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var actuators = new IActuator[inputActionMap.actions.Count];
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for (var i = 0; i < inputActionMap.actions.Count; i++)
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{
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var action = inputActionMap.actions[i];
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var actionLayout = InputSystem.LoadLayout(action.expectedControlType);
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var adaptor = (IRLActionInputAdaptor)Activator.CreateInstance(controlTypeToAdaptorType[actionLayout.type]);
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actuators[i] = new InputActionActuator(inputDevice, behaviorParameters, action, adaptor);
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// Reasonably, the input system starts adding numbers after the first none numbered name
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// is added. So for device ID of 0, we use the empty string in the path.
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var path = $"{inputDevice?.path}{InputControlPath.Separator}{action.name}";
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action.AddBinding(path,
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action.interactions,
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action.processors,
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mlAgentsControlSchemeName);
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}
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return actuators;
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}
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/// <summary>
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/// Set up bindings based on whether or not the BehaviorParameters are working in Heuristic mode or not.
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/// If we are working in Heuristic mode, we want the input system to handle everything. If not, we
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/// want the neural network to send input from virtual devices.
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/// </summary>
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/// <param name="isInHeuristicMode">true if the Agent connected to this GameObject is working in
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/// Heuristic mode.</param>
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/// <seealso cref="BehaviorParameters.IsInHeuristicMode"/>
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internal void UpdateDeviceBinding(bool isInHeuristicMode)
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{
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if (ReferenceEquals(m_Device, null))
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{
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return;
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}
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var collection = m_AssetCollection ?? m_InputAsset;
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m_ControlScheme = CreateControlScheme(m_Device, isInHeuristicMode, m_InputAsset);
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if (m_InputAsset.FindControlSchemeIndex(m_ControlScheme.name) != -1)
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{
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m_InputAsset.RemoveControlScheme(m_ControlScheme.name);
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}
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if (!isInHeuristicMode)
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{
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var inputActionMap = m_InputAsset.FindActionMap(m_PlayerInput.defaultActionMap);
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m_InputAsset.AddControlScheme(m_ControlScheme);
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collection.bindingMask = InputBinding.MaskByGroup(m_ControlScheme.bindingGroup);
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collection.devices = new ReadOnlyArray<InputDevice>(new[] { m_Device });
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inputActionMap.bindingMask = collection.bindingMask;
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inputActionMap.devices = collection.devices;
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}
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else
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{
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var inputActionMap = m_InputAsset.FindActionMap(m_PlayerInput.defaultActionMap);
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collection.bindingMask = null;
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collection.devices = InputSystem.devices;
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inputActionMap.devices = InputSystem.devices;
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inputActionMap.bindingMask = null;
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}
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collection.Enable();
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}
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/// <summary>
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/// This method creates a control scheme and adds it to the <see cref="InputActionAsset"/> passed in so
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/// we can add our device to in order for it to be discovered by the <see cref="InputSystem"/>.
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/// </summary>
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/// <param name="device">The virtual device to add to our custom control scheme.</param>
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/// <param name="isInHeuristicMode">if we are in heuristic mode, we need to add other other device requirements.</param>
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/// <param name="asset">The InputActionAsset to get the device requirements from</param>
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internal static InputControlScheme CreateControlScheme(InputControl device,
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bool isInHeuristicMode,
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InputActionAsset asset)
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{
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var deviceRequirements = new List<InputControlScheme.DeviceRequirement>
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{
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new InputControlScheme.DeviceRequirement
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{
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controlPath = InputBinding.Separator + mlAgentsLayoutName
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}
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};
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if (isInHeuristicMode)
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{
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for (var i = 0; i < asset.controlSchemes.Count; i++)
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{
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var scheme = asset.controlSchemes[i];
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for (var ii = 0; ii < scheme.deviceRequirements.Count; ii++)
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{
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deviceRequirements.Add(scheme.deviceRequirements[ii]);
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}
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}
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}
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var inputControlScheme = new InputControlScheme(
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mlAgentsControlSchemeName,
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deviceRequirements);
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return inputControlScheme;
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}
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#pragma warning disable 672
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/// <inheritdoc cref="ActuatorComponent.CreateActuator"/>
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public override IActuator CreateActuator() { return null; }
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#pragma warning restore 672
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/// <summary>
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///
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/// </summary>
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/// <param name="defaultMap"></param>
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/// <param name="layoutName"></param>
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/// <returns></returns>
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internal static void RegisterLayoutBuilder(InputActionMap defaultMap, string layoutName)
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{
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if (InputSystem.LoadLayout(layoutName) == null)
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{
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InputSystem.RegisterLayoutBuilder(() =>
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{
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// TODO does this need to change based on the action map we use?
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var builder = new InputControlLayout.Builder()
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.WithName(layoutName)
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.WithFormat(mlAgentsLayoutFormat);
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for(var i = 0; i < defaultMap.actions.Count; i++)
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{
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var action = defaultMap.actions[i];
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builder.AddControl(action.name)
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.WithLayout(action.expectedControlType);
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}
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return builder.Build();
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}, layoutName);
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}
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}
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internal void FindNeededComponents()
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{
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if (m_InputAsset == null)
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{
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var assetProvider = GetComponent<IInputActionAssetProvider>();
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Assert.IsNotNull(assetProvider);
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(m_InputAsset, m_AssetCollection) = assetProvider.GetInputActionAsset();
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Assert.IsNotNull(m_InputAsset, "An InputActionAsset could not be found on IInputActionAssetProvider or PlayerInput.");
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}
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if (m_PlayerInput == null)
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{
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m_PlayerInput = GetComponent<PlayerInput>();
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Assert.IsNotNull(m_PlayerInput, "PlayerInput component could not be found on this GameObject.");
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}
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if (m_BehaviorParameters == null)
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{
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m_BehaviorParameters = GetComponent<BehaviorParameters>();
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Assert.IsNotNull(m_BehaviorParameters, "BehaviorParameters were not on the current GameObject.");
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m_BehaviorParameters.OnPolicyUpdated += UpdateDeviceBinding;
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m_LayoutName = mlAgentsLayoutName + m_BehaviorParameters.BehaviorName;
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}
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}
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internal void CleanupActionAsset()
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{
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InputSystem.RemoveLayout(mlAgentsLayoutName);
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if (!ReferenceEquals(m_Device, null))
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{
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InputSystem.RemoveDevice(m_Device);
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}
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if (!ReferenceEquals(m_InputAsset, null)
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&& m_InputAsset.FindControlSchemeIndex(mlAgentsControlSchemeName) != -1)
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{
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m_InputAsset.RemoveControlScheme(mlAgentsControlSchemeName);
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}
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if (m_Actuators != null)
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{
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Array.Clear(m_Actuators, 0, m_Actuators.Length);
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}
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if (!ReferenceEquals(m_BehaviorParameters, null))
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{
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m_BehaviorParameters.OnPolicyUpdated -= UpdateDeviceBinding;
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}
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m_InputAsset = null;
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m_PlayerInput = null;
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m_BehaviorParameters = null;
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m_Device = null;
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}
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}
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}
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#endif // MLA_INPUT_SYSTEM && UNITY_2019_4_OR_NEWER
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