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436 lines
18 KiB
C#
436 lines
18 KiB
C#
// Copyright (c) Meta Platforms, Inc. and affiliates.
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using System;
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using System.Diagnostics;
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using System.Timers;
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using UnityEngine;
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// There are 3 conditions for working gamepad support in Nice Vibrations:
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//
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// 1. NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED - The input system package needs to be installed.
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// See https://docs.unity3d.com/Packages/com.unity.inputsystem@1.0/manual/Installation.html#installing-the-package
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// This is set by Nice Vibrations' assembly definition file, using a version define.
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// See https://docs.unity3d.com/Manual/ScriptCompilationAssemblyDefinitionFiles.html#define-symbols
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// about version defines, and see Lofelt.NiceVibrations.asmdef for the usage in Nice Vibrations.
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//
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// 2. ENABLE_INPUT_SYSTEM - The input system needs to be enabled in the project settings.
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// See https://docs.unity3d.com/Packages/com.unity.inputsystem@1.0/manual/Installation.html#enabling-the-new-input-backends
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// This define is set by Unity, see https://docs.unity3d.com/Manual/PlatformDependentCompilation.html
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//
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// 3. NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT - This is a user-defined define which needs to be not set.
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// NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT is not set by default. It can be set by a user in the
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// player settings to disable gamepad support completely. One reason to do this is to reduce the
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// size of a HapticClip asset, as setting this define changes to HapticImporter to not add the
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// GamepadRumble to the HapticClip. Changing this define requires re-importing all .haptic clip
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// assets to update HapticClip's GamepadRumble.
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//
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// If any of the 3 conditions is not met, GamepadRumbler doesn't contain any calls into
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// UnityEngine.InputSystem, and CanPlay() always returns false.
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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using UnityEngine.InputSystem;
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#endif
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namespace Lofelt.NiceVibrations
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{
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/// <summary>
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/// Contains a vibration pattern to make a gamepad rumble.
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/// </summary>
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///
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/// GamepadRumble contains the information on when to set what motor speeds on a gamepad
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/// to make it rumble with a specific pattern.
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///
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/// GamepadRumble has three arrays of the same length representing the rumble pattern. The
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/// entries for each array index describe for how long to turn on the gamepad's vibration
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/// motors, at what speed.
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[Serializable]
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public struct GamepadRumble
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{
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/// <summary>
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/// The duration, in milliseconds, that the motors will be turned on at the speed set
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/// in \ref lowFrequencyMotorSpeeds and \ref highFrequencyMotorSpeeds at the same array
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/// index
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/// </summary>
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[SerializeField]
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public int[] durationsMs;
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/// <summary>
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/// The total duration of the GamepadRumble, in milliseconds
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/// </summary>
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[SerializeField]
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public int totalDurationMs;
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/// <summary>
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/// The motor speeds of the low frequency motor
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/// </summary>
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[SerializeField]
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public float[] lowFrequencyMotorSpeeds;
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/// <summary>
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/// The motor speeds of the high frequency motor
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/// </summary>
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[SerializeField]
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public float[] highFrequencyMotorSpeeds;
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/// <summary>
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/// Checks if the GamepadRumble is valid and also not empty
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/// </summary>
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/// <returns>Whether the GamepadRumble is valid</returns>
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public bool IsValid()
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{
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return durationsMs != null &&
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lowFrequencyMotorSpeeds != null &&
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highFrequencyMotorSpeeds != null &&
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durationsMs.Length == lowFrequencyMotorSpeeds.Length &&
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durationsMs.Length == highFrequencyMotorSpeeds.Length &&
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durationsMs.Length > 0;
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}
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}
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/// <summary>
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/// Vibrates a gamepad based on a GamepadRumble rumble pattern.
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/// </summary>
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///
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/// GamepadRumbler can load and play back a GamepadRumble pattern on the current
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/// gamepad.
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///
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/// This is a low-level class that normally doesn't need to be used directly. Instead,
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/// you can use HapticSource and HapticController to play back haptic clips, as those
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/// classes support gamepads by using GamepadRumbler internally.
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public static class GamepadRumbler
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{
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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static GamepadRumble loadedRumble;
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static bool rumbleLoaded = false;
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// This Timer is used to wait until it is time to advance to the next entry in loadedRumble.
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// When the Timer is elapsed, ProcessNextRumble() is called to set new motor speeds to the
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// gamepad.
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static Timer rumbleTimer = new Timer();
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// The index of the entry of loadedRumble that is currently being played back
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static int rumbleIndex = -1;
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// The total duration of rumble entries that have been played back so far
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static long rumblePositionMs = 0;
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// Keeps track of how much time elapsed since playback was started
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static Stopwatch playbackWatch = new Stopwatch();
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/// <summary>
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/// A multiplication factor applied to the motor speeds of the low frequency motor.
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/// </summary>
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///
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/// The multiplication factor is applied to the low frequency motor speed of every
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/// GamepadRumble entry before playing it.
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///
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/// In other words, this applies a gain (for factors greater than 1.0) or an attenuation
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/// (for factors less than 1.0) to the clip. If the resulting speed of an entry is
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/// greater than 1.0, it is clipped to 1.0. The speed is clipped hard, no limiter is
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/// used.
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///
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/// The motor speed multiplication is reset when calling Load(), so Load() needs to be
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/// called first before setting the multiplication.
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///
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/// A change of the multiplication is applied to a currently playing rumble, but only
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/// for the next rumble entry, not the one currently playing.
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public static float lowFrequencyMotorSpeedMultiplication = 1.0f;
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/// <summary>
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/// Same as \ref lowFrequencyMotorSpeedMultiplication, but for the high frequency speed
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/// motor.
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/// </summary>
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public static float highFrequencyMotorSpeedMultiplication = 1.0f;
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static int currentGamepadID = -1;
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#endif
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/// <summary>
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/// Initializes the GamepadRumbler.
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/// </summary>
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///
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/// This needs to be called from the main thread, which is the reason why this is a method
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/// instead of a static constructor: Sometimes Unity calls static constructors from a
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/// different thread, and an explicit Init() method gives us more control over this.
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public static void Init()
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{
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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// Initialize rumbleTimer, so that ProcessNextRumble() will be called on the main thread
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// when the timer is triggered.
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var syncContext = System.Threading.SynchronizationContext.Current;
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rumbleTimer.Elapsed += (object obj, System.Timers.ElapsedEventArgs args) =>
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{
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syncContext.Post(_ =>
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{
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ProcessNextRumble();
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}, null);
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};
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#endif
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}
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/// <summary>
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/// Checks whether a call to Play() would trigger playback on a gamepad.
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/// </summary>
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///
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/// Playing back a rumble pattern with Play() only works if a gamepad is connected and if
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/// a GamepadRumble has been loaded with Load() before.
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///
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/// <returns>Whether a vibration can be triggered on a gamepad</returns>
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public static bool CanPlay()
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{
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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return IsConnected() && rumbleLoaded && loadedRumble.IsValid();
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#else
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return false;
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#endif
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}
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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/// <summary>
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/// Gets the Gamepad object corresponding to the specified gamepad ID.
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/// </summary>
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///
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/// If the specified ID is out of range of the connected gamepad(s),
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/// <c>InputSystem.Gamepad.current</c> will be returned.
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///
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/// <param name="gamepadID">The ID of the gamepad to be returned.</c> </param>
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/// <returns> A <c> InputSystem.Gamepad</c> </returns>
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static UnityEngine.InputSystem.Gamepad GetGamepad(int gamepadID)
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{
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if (gamepadID >= 0)
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{
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if (gamepadID >= UnityEngine.InputSystem.Gamepad.all.Count)
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{
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return UnityEngine.InputSystem.Gamepad.current;
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}
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else
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{
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return UnityEngine.InputSystem.Gamepad.all[gamepadID];
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}
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}
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return UnityEngine.InputSystem.Gamepad.current;
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}
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#endif
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/// <summary>
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/// Set the current gamepad for haptics playback by ID.
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/// </summary>
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///
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/// This method needs be called before haptics playback, e.g. \ref HapticController.Play(),
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/// \ref HapticPatterns.PlayEmphasis(), \ref HapticPatterns.PlayConstant(), etc, for
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/// for the gamepad to be properly selected.
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///
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/// If this method isn't called, haptics will be played on <c>InputSystem.Gamepad.current</c>
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///
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/// For example, if you have 3 controllers connected, you have to choose between values 0, 1,
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/// and 2.
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///
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/// If the gamepad ID value doesn't match any connected gamepad, calling
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/// this method has no effect.
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/// <param name="gamepadID">The ID of the gamepad</param>
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public static void SetCurrentGamepad(int gamepadID)
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{
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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if (gamepadID < UnityEngine.InputSystem.Gamepad.all.Count)
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{
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currentGamepadID = gamepadID;
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}
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#endif
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}
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/// <summary>
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/// Checks whether a gamepad is connected and recognized by Unity's input system.
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/// </summary>
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///
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/// If the input system package is not installed or not enabled, the gamepad is not
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/// recognized and treated as not connected here.
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///
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/// If the <c>NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT</c> define is set in the player settings,
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/// this function pretends no gamepad is connected.
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///
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/// <returns>Whether a gamepad is connected</returns>
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public static bool IsConnected()
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{
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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return GetGamepad(currentGamepadID) != null;
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#else
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return false;
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#endif
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}
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/// <summary>
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/// Loads a rumble pattern for later playback.
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/// </summary>
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///
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/// <param name="rumble">The rumble pattern to load</param>
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public static void Load(GamepadRumble rumble)
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{
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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if (rumble.IsValid())
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{
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loadedRumble = rumble;
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rumbleLoaded = true;
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lowFrequencyMotorSpeedMultiplication = 1.0f;
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highFrequencyMotorSpeedMultiplication = 1.0f;
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}
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else
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{
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Unload();
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}
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#endif
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}
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/// <summary>
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/// Plays back the rumble pattern loaded previously with Load().
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/// </summary>
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///
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/// If no rumble pattern has been loaded, or if no gamepad is connected, this method does
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/// nothing.
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public static void Play()
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{
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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if (CanPlay())
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{
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rumbleIndex = 0;
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rumblePositionMs = 0;
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playbackWatch.Restart();
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ProcessNextRumble();
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}
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#endif
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}
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/// <summary>
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/// Stops playback previously started with Play() by turning off the gamepad's motors.
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/// </summary>
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public static void Stop()
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{
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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if (GetGamepad(currentGamepadID) != null)
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{
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GetGamepad(currentGamepadID).ResetHaptics();
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}
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rumbleTimer.Enabled = false;
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rumbleIndex = -1;
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rumblePositionMs = 0;
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playbackWatch.Stop();
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#endif
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}
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/// <summary>
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/// Stops playback and unloads the currently loaded GamepadRumble from memory.
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/// </summary>
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public static void Unload()
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{
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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loadedRumble.highFrequencyMotorSpeeds = null;
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loadedRumble.lowFrequencyMotorSpeeds = null;
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loadedRumble.durationsMs = null;
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rumbleLoaded = false;
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Stop();
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#endif
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}
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// Advances the position in the GamepadRumble by one.
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//
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// If the end of the rumble has been reached, playback is stopped and false is returned.
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private static bool IncreaseRumbleIndex()
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{
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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rumblePositionMs += loadedRumble.durationsMs[rumbleIndex];
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rumbleIndex++;
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if (rumbleIndex == loadedRumble.durationsMs.Length)
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{
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Stop();
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return false;
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}
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return true;
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#else
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return false;
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#endif
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}
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// Processes the next entry in loadedRumble by setting the gamepad's motor speeds to the
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// speeds stored in that entry.
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//
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// Afterwards, the rumbleTimer is set to call this method again, after the time stored
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// in entry of loadedRumble.
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private static void ProcessNextRumble()
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{
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#if ((!UNITY_ANDROID && !UNITY_IOS) || UNITY_EDITOR) && NICE_VIBRATIONS_INPUTSYSTEM_INSTALLED && ENABLE_INPUT_SYSTEM && !NICE_VIBRATIONS_DISABLE_GAMEPAD_SUPPORT
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// rumbleIndex can be -1 after Stop() has been called after the call to
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// ProcessNextRumble() has already been queued up via SynchronizationContext.
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if (rumbleIndex == -1)
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{
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return;
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}
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if (rumbleIndex == loadedRumble.durationsMs.Length)
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{
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Stop();
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return;
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}
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UnityEngine.Debug.Assert(loadedRumble.IsValid());
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UnityEngine.Debug.Assert(rumbleLoaded);
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UnityEngine.Debug.Assert(rumbleIndex >= 0 && rumbleIndex <= loadedRumble.durationsMs.Length);
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// Figure out for how long the current rumble entry should be played (durationToWait).
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// Due to the timer not waiting for exactly the same amount of time that we requested,
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// there can be a bit of error that we need to compensate for. For example, if the timer
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// waited for 3ms longer than we requested, we play the next rumble entry for a 3ms
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// less to compensate for that.
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// In fact, Unity triggers the timer only once per frame, so at 30 FPS, the timer
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// resolution is 32ms. That means that the timing error can be bigger than the duration
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// of the whole rumble entry, and to compensate for that, the entire rumble entry needs
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// to be skipped. That's what the loop does: It skips rumble entries to compensate for
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// timer error.
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long elapsed = playbackWatch.ElapsedMilliseconds;
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long durationToWait = 0;
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while (true)
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{
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long rumbleEntryDuration = loadedRumble.durationsMs[rumbleIndex];
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long error = elapsed - rumblePositionMs;
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durationToWait = rumbleEntryDuration - error;
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// If durationToWait is <= 0, the current rumble entry needs to be skipped to
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// compensate for timer error. Otherwise break and play the current rumble entry.
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if (durationToWait > 0)
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{
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break;
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}
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// If the end of the rumble has been reached, return, as playback has stopped.
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if (!IncreaseRumbleIndex())
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{
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return;
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}
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}
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float lowFrequencySpeed = loadedRumble.lowFrequencyMotorSpeeds[rumbleIndex] * Mathf.Max(lowFrequencyMotorSpeedMultiplication, 0.0f);
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float highFrequencySpeed = loadedRumble.highFrequencyMotorSpeeds[rumbleIndex] * Mathf.Max(highFrequencyMotorSpeedMultiplication, 0.0f);
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UnityEngine.InputSystem.Gamepad currentGamepad = GetGamepad(currentGamepadID);
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// Check if gamepad was disconnected while playing
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if (currentGamepad != null)
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{
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currentGamepad.SetMotorSpeeds(lowFrequencySpeed, highFrequencySpeed);
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}
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else
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{
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return;
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}
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// Set up the timer to call ProcessNextRumble() again with the next rumble entry, after
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// the duration of the current rumble entry.
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rumblePositionMs += loadedRumble.durationsMs[rumbleIndex];
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rumbleIndex++;
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rumbleTimer.Interval = durationToWait;
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rumbleTimer.AutoReset = false;
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rumbleTimer.Enabled = true;
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#endif
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}
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}
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}
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