forked from BilalY/Rasagar
124 lines
5.0 KiB
C#
124 lines
5.0 KiB
C#
using UnityEngine;
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using UnityEngine.InputSystem;
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#if UNITY_EDITOR
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using UnityEditor;
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#endif
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// Say you want to distinguish a device not only by its type (e.g. "PS4 Controller")
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// but also by the way it is used. This is a common scenario for VR controllers, for
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// example, where the same type of controller may be used once in the left hand and
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// once in the right hand. However, the need for distinguishing devices in a similar
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// manner can pop up in a variety of situations. For example, on Switch it is used
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// to distinguish the current orientation of the Joy-Con controller ("Horizontal" vs.
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// "Vertical") allowing you to take orientation into account when binding actions.
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//
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// The input system allows you to distinguish devices based on the "usages" assigned
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// to them. This is a generic mechanism that can be used to tag devices with arbitrary
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// custom usages.
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//
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// To make this more concrete, let's say we have a game where two players control
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// the game together each one using a gamepad but each receiving control over half
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// the actions in the game.
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//
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// NOTE: What we do here is only one way to achieve this kind of setup. We could
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// alternatively go and just create one control scheme for the first player
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// and one control scheme for the second one and then have two PlayerInputs
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// each using one of the two.
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//
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// So, what we'd like to do is tag one gamepad with "Player1" and one gamepad with
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// with "Player2". Then, in the actions we can set up a binding scheme specifically
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// for this style of play and bind actions such that are driven either from the
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// first player's gamepad or from the second player's gamepad (or from either).
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//
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// The first bit we need for this is to tell the input system that "Player1" and
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// "Player2" are usages that we intend to apply to gamepads. For this, we need
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// to modify the "Gamepad" layout. We do so by applying what's called a "layout
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// override". This needs to happen during initialization so here we go:
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#if UNITY_EDITOR
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[InitializeOnLoad]
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#endif
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public static class InitCustomDeviceUsages
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{
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static InitCustomDeviceUsages()
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{
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Initialize();
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}
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[RuntimeInitializeOnLoadMethod(RuntimeInitializeLoadType.BeforeSceneLoad)]
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private static void Initialize()
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{
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// Here we register the layout override with the system.
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//
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// The layout override is just a fragment of layout information
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// in JSON format.
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//
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// The key property here is "commonUsages" which tells the system
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// that "Player1" and "Player2" are possible usages applied to devices
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// using the given layout ("Gamepad" in our case).
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InputSystem.RegisterLayoutOverride(@"
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{
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""name"" : ""GamepadPlayerUsageTags"",
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""extend"" : ""Gamepad"",
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""commonUsages"" : [
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""Player1"", ""Player2""
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]
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}
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");
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// Now that we have done this, you will see that when using the
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// control picker in the action editor, that there is now a
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// "Gamepad (Player1)" and "Gamepad (Player2)" entry underneath
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// "Gamepad". When you select those, you can bind specifically
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// to a gamepad with the respective device usage.
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//
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// Also, you will now be able to *require* a device with the
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// given usage in a control scheme. So, when creating a control
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// scheme representing the shared Player1+Player2 controls,
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// you can add one "Gamepad (Player1)" and one "Gamepad (Player2)"
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// requirement.
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//
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// You can see an example setup for how this would look in an
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// .inputactions file in the TwoPlayerControls.inputactions file
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// that is part of this sample.
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}
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}
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// However, we are still missing a piece. At runtime, no gamepad will
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// receive either the "Player1" or the "Player2" usage assignment yet.
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// So none of the bindings will work yet.
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//
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// To assign the usage tags to the devices, we need to call
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// InputSystem.AddDeviceUsage or SetDeviceUsage.
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//
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// We could set this up any which way. As a demonstration, let's create
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// a MonoBehaviour here that simply associates a specific tag with a
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// specific gamepad index.
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//
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// In practice, you would probably want to do the assignment in a place
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// where you handle your player setup/joining.
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public class CustomDeviceUsages : MonoBehaviour
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{
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public int gamepadIndex;
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public string usageTag;
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private Gamepad m_Gamepad;
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protected void OnEnable()
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{
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if (gamepadIndex >= 0 && gamepadIndex < Gamepad.all.Count)
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{
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m_Gamepad = Gamepad.all[gamepadIndex];
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InputSystem.AddDeviceUsage(m_Gamepad, usageTag);
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}
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}
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protected void OnDisable()
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{
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// If we grabbed a gamepad and it's still added to the system,
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// remove the usage tag we added.
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if (m_Gamepad != null && m_Gamepad.added)
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InputSystem.RemoveDeviceUsage(m_Gamepad, usageTag);
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m_Gamepad = null;
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}
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}
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