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ParticleEffectForUGUI
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ParticleEffectForUGUI/Scripts/UIParticleAttractor.cs

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5.7 KiB
C#
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using UnityEngine;
using Coffee.UIParticleExtensions;
using UnityEngine.Events;
using System;
namespace Coffee.UIExtensions
{
[ExecuteAlways]
public class UIParticleAttractor : MonoBehaviour
{
public enum Movement
{
Linear,
Smooth,
Sphere,
}
[SerializeField]
private ParticleSystem m_ParticleSystem;
[Range(0.1f, 10f)]
[SerializeField]
private float m_DestinationRadius = 1;
[Range(0f, 0.95f)]
[SerializeField]
private float m_DelayRate = 0;
[Range(0.001f, 100f)]
[SerializeField]
private float m_MaxSpeed = 1;
[SerializeField]
private Movement m_Movement;
[SerializeField]
private UnityEvent m_OnAttracted;
public float delay
{
get
{
return m_DelayRate;
}
set
{
m_DelayRate = value;
}
}
public float maxSpeed
{
get
{
return m_MaxSpeed;
}
set
{
m_MaxSpeed = value;
}
}
public Movement movement
{
get
{
return m_Movement;
}
set
{
m_Movement = value;
}
}
private UIParticle _uiParticle;
private void OnEnable()
{
if (m_ParticleSystem == null)
{
Debug.LogError("No particle system attached to particle attractor script", this);
enabled = false;
return;
}
_uiParticle = m_ParticleSystem.GetComponentInParent<UIParticle>();
if (_uiParticle && !_uiParticle.particles.Contains(m_ParticleSystem))
{
_uiParticle = null;
}
UIParticleUpdater.Register(this);
}
private void OnDisable()
{
_uiParticle = null;
UIParticleUpdater.Unregister(this);
}
internal void Attract()
{
if (m_ParticleSystem == null) return;
var count = m_ParticleSystem.particleCount;
if (count == 0) return;
var particles = ParticleSystemExtensions.GetParticleArray(count);
m_ParticleSystem.GetParticles(particles, count);
var dstPos = GetDestinationPosition();
for (var i = 0; i < count; i++)
{
// Attracted
var p = particles[i];
if (0f < p.remainingLifetime && Vector3.Distance(p.position, dstPos) < m_DestinationRadius)
{
p.remainingLifetime = 0f;
particles[i] = p;
if (m_OnAttracted != null)
{
try
{
m_OnAttracted.Invoke();
}
catch (Exception e)
{
Debug.LogException(e);
}
}
continue;
}
// Calc attracting time
var delayTime = p.startLifetime * m_DelayRate;
var duration = p.startLifetime - delayTime;
var time = Mathf.Max(0, p.startLifetime - p.remainingLifetime - delayTime);
// Delay
if (time <= 0) continue;
// Attract
p.position = GetAttractedPosition(p.position, dstPos, duration, time);
p.velocity *= 0.5f;
particles[i] = p;
}
m_ParticleSystem.SetParticles(particles, count);
}
private Vector3 GetDestinationPosition()
{
var isUI = _uiParticle && _uiParticle.enabled;
var psPos = m_ParticleSystem.transform.position;
var attractorPos = transform.position;
var dstPos = attractorPos;
if (m_ParticleSystem.main.simulationSpace == ParticleSystemSimulationSpace.Local)
{
dstPos = m_ParticleSystem.transform.InverseTransformPoint(dstPos);
if (isUI)
{
dstPos = dstPos.GetScaled(_uiParticle.transform.localScale, _uiParticle.scale3D.Inverse());
}
}
else
{
#if UNITY_EDITOR
if (!Application.isPlaying && isUI)
{
var diff = dstPos - psPos;
diff = diff.GetScaled(_uiParticle.transform.localScale, _uiParticle.scale3D.Inverse());
return psPos + diff;
}
#endif
if (isUI)
{
dstPos.Scale(_uiParticle.transform.localScale);
dstPos.Scale(_uiParticle.scale3D.Inverse());
}
}
return dstPos;
}
private Vector3 GetAttractedPosition(Vector3 current, Vector3 target, float duration, float time)
{
var speed = m_MaxSpeed;
switch (m_Movement)
{
case Movement.Linear:
speed /= duration;
break;
case Movement.Smooth:
target = Vector3.Lerp(current, target, time / duration);
break;
case Movement.Sphere:
target = Vector3.Slerp(current, target, time / duration);
break;
}
return Vector3.MoveTowards(current, target, speed);
}
}
}
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