IndieGame/client/Packages/com.unity.inputsystem@1.7.0/InputSystem/Actions/Interactions/MultiTapInteraction.cs
DOBEST\zhaoyingjie f242607587 初始化工程
2024-10-11 10:12:15 +08:00

231 lines
10 KiB
C#

using System;
using UnityEngine.InputSystem.Controls;
using UnityEngine.Scripting;
#if UNITY_EDITOR
using UnityEditor;
using UnityEngine.InputSystem.Editor;
using UnityEngine.UIElements;
using UnityEditor.UIElements;
#endif
////TODO: add ability to respond to any of the taps in the sequence (e.g. one response for single tap, another for double tap)
////TODO: add ability to perform on final press rather than on release
////TODO: change this so that the interaction stays performed when the tap count is reached until the button is released
namespace UnityEngine.InputSystem.Interactions
{
////REVIEW: Why is this deriving from IInputInteraction<float>? It goes by actuation just like Hold etc.
/// <summary>
/// Interaction that requires multiple taps (press and release within <see cref="tapTime"/>) spaced no more
/// than <see cref="tapDelay"/> seconds apart. This equates to a chain of <see cref="TapInteraction"/> with
/// a maximum delay between each tap.
/// </summary>
/// <remarks>
/// The interaction goes into <see cref="InputActionPhase.Started"/> on the first press and then will not
/// trigger again until either the full tap sequence is performed (in which case the interaction triggers
/// <see cref="InputActionPhase.Performed"/>) or the multi-tap is aborted by a timeout being hit (in which
/// case the interaction will trigger <see cref="InputActionPhase.Canceled"/>).
/// </remarks>
public class MultiTapInteraction : IInputInteraction<float>
{
/// <summary>
/// The time in seconds within which the control needs to be pressed and released to perform the interaction.
/// </summary>
/// <remarks>
/// If this value is equal to or smaller than zero, the input system will use (<see cref="InputSettings.defaultTapTime"/>) instead.
/// </remarks>
[Tooltip("The maximum time (in seconds) allowed to elapse between pressing and releasing a control for it to register as a tap.")]
public float tapTime;
/// <summary>
/// The time in seconds which is allowed to pass between taps.
/// </summary>
/// <remarks>
/// If this time is exceeded, the multi-tap interaction is canceled.
/// If this value is equal to or smaller than zero, the input system will use the duplicate value of <see cref="tapTime"/> instead.
/// </remarks>
[Tooltip("The maximum delay (in seconds) allowed between each tap. If this time is exceeded, the multi-tap is canceled.")]
public float tapDelay;
/// <summary>
/// The number of taps required to perform the interaction.
/// </summary>
/// <remarks>
/// How many taps need to be performed in succession. Two means double-tap, three means triple-tap, and so on.
/// </remarks>
[Tooltip("How many taps need to be performed in succession. Two means double-tap, three means triple-tap, and so on.")]
public int tapCount = 2;
/// <summary>
/// Magnitude threshold that must be crossed by an actuated control for the control to
/// be considered pressed.
/// </summary>
/// <remarks>
/// If this is less than or equal to 0 (the default), <see cref="InputSettings.defaultButtonPressPoint"/> is used instead.
/// </remarks>
/// <seealso cref="InputControl.EvaluateMagnitude()"/>
public float pressPoint;
private float tapTimeOrDefault => tapTime > 0.0 ? tapTime : InputSystem.settings.defaultTapTime;
internal float tapDelayOrDefault => tapDelay > 0.0 ? tapDelay : InputSystem.settings.multiTapDelayTime;
private float pressPointOrDefault => pressPoint > 0 ? pressPoint : ButtonControl.s_GlobalDefaultButtonPressPoint;
private float releasePointOrDefault => pressPointOrDefault * ButtonControl.s_GlobalDefaultButtonReleaseThreshold;
/// <inheritdoc />
public void Process(ref InputInteractionContext context)
{
if (context.timerHasExpired)
{
// We use timers multiple times but no matter what, if they expire it means
// that we didn't get input in time.
context.Canceled();
return;
}
switch (m_CurrentTapPhase)
{
case TapPhase.None:
if (context.ControlIsActuated(pressPointOrDefault))
{
m_CurrentTapPhase = TapPhase.WaitingForNextRelease;
m_CurrentTapStartTime = context.time;
context.Started();
var maxTapTime = tapTimeOrDefault;
var maxDelayInBetween = tapDelayOrDefault;
context.SetTimeout(maxTapTime);
// We'll be using multiple timeouts so set a total completion time that
// effects the result of InputAction.GetTimeoutCompletionPercentage()
// such that it accounts for the total time we allocate for the interaction
// rather than only the time of one single timeout.
context.SetTotalTimeoutCompletionTime(maxTapTime * tapCount + (tapCount - 1) * maxDelayInBetween);
}
break;
case TapPhase.WaitingForNextRelease:
if (!context.ControlIsActuated(releasePointOrDefault))
{
if (context.time - m_CurrentTapStartTime <= tapTimeOrDefault)
{
++m_CurrentTapCount;
if (m_CurrentTapCount >= tapCount)
{
context.Performed();
}
else
{
m_CurrentTapPhase = TapPhase.WaitingForNextPress;
m_LastTapReleaseTime = context.time;
context.SetTimeout(tapDelayOrDefault);
}
}
else
{
context.Canceled();
}
}
break;
case TapPhase.WaitingForNextPress:
if (context.ControlIsActuated(pressPointOrDefault))
{
if (context.time - m_LastTapReleaseTime <= tapDelayOrDefault)
{
m_CurrentTapPhase = TapPhase.WaitingForNextRelease;
m_CurrentTapStartTime = context.time;
context.SetTimeout(tapTimeOrDefault);
}
else
{
context.Canceled();
}
}
break;
}
}
/// <inheritdoc />
public void Reset()
{
m_CurrentTapPhase = TapPhase.None;
m_CurrentTapCount = 0;
m_CurrentTapStartTime = 0;
m_LastTapReleaseTime = 0;
}
private TapPhase m_CurrentTapPhase;
private int m_CurrentTapCount;
private double m_CurrentTapStartTime;
private double m_LastTapReleaseTime;
private enum TapPhase
{
None,
WaitingForNextRelease,
WaitingForNextPress,
}
}
#if UNITY_EDITOR
/// <summary>
/// UI that is displayed when editing <see cref="HoldInteraction"/> in the editor.
/// </summary>
internal class MultiTapInteractionEditor : InputParameterEditor<MultiTapInteraction>
{
protected override void OnEnable()
{
m_TapTimeSetting.Initialize("Max Tap Duration",
"Time (in seconds) within with a control has to be released again for it to register as a tap. If the control is held "
+ "for longer than this time, the tap is canceled.",
"Default Tap Time",
() => target.tapTime, x => target.tapTime = x, () => InputSystem.settings.defaultTapTime);
m_TapDelaySetting.Initialize("Max Tap Spacing",
"The maximum delay (in seconds) allowed between each tap. If this time is exceeded, the multi-tap is canceled.",
"Default Tap Spacing",
() => target.tapDelay, x => target.tapDelay = x, () => InputSystem.settings.multiTapDelayTime);
m_PressPointSetting.Initialize("Press Point",
"The amount of actuation a control requires before being considered pressed. If not set, default to "
+ "'Default Button Press Point' in the global input settings.",
"Default Button Press Point",
() => target.pressPoint, v => target.pressPoint = v,
() => InputSystem.settings.defaultButtonPressPoint);
}
public override void OnGUI()
{
target.tapCount = EditorGUILayout.IntField(m_TapCountLabel, target.tapCount);
m_TapDelaySetting.OnGUI();
m_TapTimeSetting.OnGUI();
m_PressPointSetting.OnGUI();
}
#if UNITY_INPUT_SYSTEM_UI_TK_ASSET_EDITOR
public override void OnDrawVisualElements(VisualElement root, Action onChangedCallback)
{
var tapCountField = new IntegerField(m_TapCountLabel.text) { value = target.tapCount };
tapCountField.RegisterValueChangedCallback(evt =>
{
target.tapCount = evt.newValue;
onChangedCallback?.Invoke();
});
root.Add(tapCountField);
m_TapDelaySetting.OnDrawVisualElements(root, onChangedCallback);
m_TapTimeSetting.OnDrawVisualElements(root, onChangedCallback);
m_PressPointSetting.OnDrawVisualElements(root, onChangedCallback);
}
#endif
private readonly GUIContent m_TapCountLabel = new GUIContent("Tap Count", "How many taps need to be performed in succession. Two means double-tap, three means triple-tap, and so on.");
private CustomOrDefaultSetting m_PressPointSetting;
private CustomOrDefaultSetting m_TapTimeSetting;
private CustomOrDefaultSetting m_TapDelaySetting;
}
#endif
}