hellbound/Assets/Sources/Lean/Touch+/Scripts/LeanMultiPull.cs

232 lines
8.1 KiB
C#

using UnityEngine;
using UnityEngine.Events;
using Lean.Common;
using FSA = UnityEngine.Serialization.FormerlySerializedAsAttribute;
namespace Lean.Touch
{
/// <summary>This component allows you to perform a continuous action based on the current position of the fingers relative to where they started.
/// This allows you to perform actions like an invisible joystick.</summary>
[HelpURL(LeanTouch.PlusHelpUrlPrefix + "LeanMultiPull")]
[AddComponentMenu(LeanTouch.ComponentPathPrefix + "Multi Pull")]
public class LeanMultiPull : MonoBehaviour
{
public enum CoordinateType
{
ScaledPixels,
ScreenPixels,
ScreenPercentage
}
[System.Serializable] public class FloatEvent : UnityEvent<float> {}
[System.Serializable] public class Vector2Event : UnityEvent<Vector2> {}
[System.Serializable] public class Vector3Event : UnityEvent<Vector3> {}
[System.Serializable] public class Vector3Vector3Event : UnityEvent<Vector3, Vector3> {}
/// <summary>The method used to find fingers to use with this component. See LeanFingerFilter documentation for more information.</summary>
public LeanFingerFilter Use = new LeanFingerFilter(true);
/// <summary>The coordinate space of the OnDelta values.</summary>
public CoordinateType Coordinate { set { coordinate = value; } get { return coordinate; } } [FSA("Coordinate")] [SerializeField] private CoordinateType coordinate;
/// <summary>The delta values will be multiplied by this when output.</summary>
public float Multiplier { set { multiplier = value; } get { return multiplier; } } [FSA("Multiplier")] [SerializeField] private float multiplier = 1.0f;
/// <summary>If you enable this then the delta values will be multiplied by Time.deltaTime. This allows you to maintain frame rate independent actions.</summary>
public bool ScaleByTime { set { scaleByTime = value; } get { return scaleByTime; } } [FSA("ScaleByTime")] [SerializeField] private bool scaleByTime = true;
/// <summary>This event is invoked when the requirements are met.
/// Vector2 = Position Delta based on your Delta setting.</summary>
public Vector2Event OnVector { get { if (onVector == null) onVector = new Vector2Event(); return onVector; } } [SerializeField] private Vector2Event onVector;
/// <summary>Called on the first frame the conditions are met.
/// Float = The distance/magnitude/length of the swipe delta vector.</summary>
public FloatEvent OnDistance { get { if (onDistance == null) onDistance = new FloatEvent(); return onDistance; } } [SerializeField] private FloatEvent onDistance;
/// <summary>The method used to find world coordinates from a finger. See LeanScreenDepth documentation for more information.</summary>
public LeanScreenDepth ScreenDepth = new LeanScreenDepth(LeanScreenDepth.ConversionType.DepthIntercept);
/// <summary>Called on the first frame the conditions are met.
/// Vector3 = Start point in world space.</summary>
public Vector3Event OnWorldFrom { get { if (onWorldFrom == null) onWorldFrom = new Vector3Event(); return onWorldFrom; } } [SerializeField] private Vector3Event onWorldFrom;
/// <summary>Called on the first frame the conditions are met.
/// Vector3 = End point in world space.</summary>
public Vector3Event OnWorldTo { get { if (onWorldTo == null) onWorldTo = new Vector3Event(); return onWorldTo; } } [SerializeField] private Vector3Event onWorldTo;
/// <summary>Called on the first frame the conditions are met.
/// Vector3 = The vector between the start and end points in world space.</summary>
public Vector3Event OnWorldDelta { get { if (onWorldDelta == null) onWorldDelta = new Vector3Event(); return onWorldDelta; } } [SerializeField] private Vector3Event onWorldDelta;
/// <summary>Called on the first frame the conditions are met.
/// Vector3 = Start point in world space.
/// Vector3 = End point in world space.</summary>
public Vector3Vector3Event OnWorldFromTo { get { if (onWorldFromTo == null) onWorldFromTo = new Vector3Vector3Event(); return onWorldFromTo; } } [SerializeField] private Vector3Vector3Event onWorldFromTo;
/// <summary>If you've set Use to ManuallyAddedFingers, then you can call this method to manually add a finger.</summary>
public void AddFinger(LeanFinger finger)
{
Use.AddFinger(finger);
}
/// <summary>If you've set Use to ManuallyAddedFingers, then you can call this method to manually remove a finger.</summary>
public void RemoveFinger(LeanFinger finger)
{
Use.RemoveFinger(finger);
}
/// <summary>If you've set Use to ManuallyAddedFingers, then you can call this method to manually remove all fingers.</summary>
public void RemoveAllFingers()
{
Use.RemoveAllFingers();
}
#if UNITY_EDITOR
protected virtual void Reset()
{
Use.UpdateRequiredSelectable(gameObject);
}
#endif
protected virtual void Awake()
{
Use.UpdateRequiredSelectable(gameObject);
}
protected virtual void Update()
{
// Get fingers
var fingers = Use.UpdateAndGetFingers();
if (fingers.Count > 0)
{
var screenFrom = LeanGesture.GetStartScreenCenter(fingers);
var screenTo = LeanGesture.GetScreenCenter(fingers);
var finalDelta = screenTo - screenFrom;
var timeScale = 1.0f;
if (scaleByTime == true)
{
timeScale = Time.deltaTime;
}
switch (coordinate)
{
case CoordinateType.ScaledPixels: finalDelta *= LeanTouch.ScalingFactor; break;
case CoordinateType.ScreenPercentage: finalDelta *= LeanTouch.ScreenFactor; break;
}
finalDelta *= multiplier;
if (onVector != null)
{
onVector.Invoke(finalDelta * timeScale);
}
if (onDistance != null)
{
onDistance.Invoke(finalDelta.magnitude * timeScale);
}
var worldFrom = ScreenDepth.Convert(screenFrom, gameObject);
var worldTo = ScreenDepth.Convert(screenTo , gameObject);
if (onWorldFrom != null)
{
onWorldFrom.Invoke(worldFrom);
}
if (onWorldTo != null)
{
onWorldTo.Invoke(worldTo);
}
if (onWorldDelta != null)
{
onWorldDelta.Invoke((worldTo - worldFrom) * timeScale);
}
if (onWorldFromTo != null)
{
onWorldFromTo.Invoke(worldFrom, worldTo);
}
}
}
}
}
#if UNITY_EDITOR
namespace Lean.Touch.Editor
{
using TARGET = LeanMultiPull;
[UnityEditor.CanEditMultipleObjects]
[UnityEditor.CustomEditor(typeof(TARGET))]
public class LeanMultiPull_Editor : LeanEditor
{
protected override void OnInspector()
{
TARGET tgt; TARGET[] tgts; GetTargets(out tgt, out tgts);
Draw("Use");
Separator();
var usedA = Any(tgts, t => t.OnVector.GetPersistentEventCount() > 0);
var usedB = Any(tgts, t => t.OnDistance.GetPersistentEventCount() > 0);
var usedC = Any(tgts, t => t.OnWorldFrom.GetPersistentEventCount() > 0);
var usedD = Any(tgts, t => t.OnWorldTo.GetPersistentEventCount() > 0);
var usedE = Any(tgts, t => t.OnWorldDelta.GetPersistentEventCount() > 0);
var usedF = Any(tgts, t => t.OnWorldFromTo.GetPersistentEventCount() > 0);
var showUnusedEvents = DrawFoldout("Show Unused Events", "Show all events?");
if (usedA == true || usedB == true || showUnusedEvents == true)
{
Draw("coordinate", "The coordinate space of the OnDelta values.");
Draw("multiplier", "The delta values will be multiplied by this when output.");
}
if (usedA == true || usedB == true || usedE == true || showUnusedEvents == true)
{
Draw("scaleByTime", "If you enable this then the delta values will be multiplied by Time.deltaTime. This allows you to maintain frame rate independent actions.");
}
if (usedA == true || showUnusedEvents == true)
{
Draw("onVector");
}
if (usedB == true || showUnusedEvents == true)
{
Draw("onDistance");
}
if (usedC == true || usedD == true || usedE == true || usedF == true || showUnusedEvents == true)
{
Draw("ScreenDepth");
}
if (usedC == true || showUnusedEvents == true)
{
Draw("onWorldFrom");
}
if (usedD == true || showUnusedEvents == true)
{
Draw("onWorldTo");
}
if (usedE == true || showUnusedEvents == true)
{
Draw("onWorldDelta");
}
if (usedF == true || showUnusedEvents == true)
{
Draw("onWorldFromTo");
}
}
}
}
#endif