using System; using Coffee.UIParticleExtensions; using UnityEngine; using UnityEngine.Events; namespace Coffee.UIExtensions { [ExecuteAlways] public class UIParticleAttractor : MonoBehaviour { public enum Movement { Linear, Smooth, Sphere } public enum UpdateMode { Normal, UnscaledTime } [SerializeField] private ParticleSystem m_ParticleSystem; [Range(0.1f, 10f)] [SerializeField] private float m_DestinationRadius = 1; [Range(0f, 0.95f)] [SerializeField] private float m_DelayRate; [Range(0.001f, 100f)] [SerializeField] private float m_MaxSpeed = 1; [SerializeField] private Movement m_Movement; [SerializeField] private UpdateMode m_UpdateMode; [SerializeField] private UnityEvent m_OnAttracted; private UIParticle _uiParticle; public float destinationRadius { get { return m_DestinationRadius; } set { m_DestinationRadius = Mathf.Clamp(value, 0.1f, 10f); } } 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; } } public UpdateMode updateMode { get { return m_UpdateMode; } set { m_UpdateMode = value; } } public UnityEvent onAttracted { get { return m_OnAttracted; } set { m_OnAttracted = value; } } #if UNITY_EDITOR public new ParticleSystem particleSystem #else public ParticleSystem particleSystem #endif { get { return m_ParticleSystem; } set { m_ParticleSystem = value; ApplyParticleSystem(); } } private void OnEnable() { ApplyParticleSystem(); UIParticleUpdater.Register(this); } private void OnDisable() { UIParticleUpdater.Unregister(this); } private void OnDestroy() { _uiParticle = null; m_ParticleSystem = null; } 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; var isLocalSpace = m_ParticleSystem.IsLocalSpace(); if (isLocalSpace) { dstPos = m_ParticleSystem.transform.InverseTransformPoint(dstPos); } if (isUI) { var inverseScale = _uiParticle.parentScale.Inverse(); var scale3d = _uiParticle.scale3DForCalc; dstPos = dstPos.GetScaled(inverseScale, scale3d.Inverse()); // Relative mode if (_uiParticle.positionMode == UIParticle.PositionMode.Relative) { var diff = _uiParticle.transform.position - psPos; diff.Scale(scale3d - inverseScale); diff.Scale(scale3d.Inverse()); dstPos += diff; } #if UNITY_EDITOR if (!Application.isPlaying && !isLocalSpace) { dstPos += psPos - psPos.GetScaled(inverseScale, scale3d.Inverse()); } #endif } return dstPos; } private Vector3 GetAttractedPosition(Vector3 current, Vector3 target, float duration, float time) { var speed = m_MaxSpeed; switch (m_UpdateMode) { case UpdateMode.Normal: speed *= 60 * Time.deltaTime; break; case UpdateMode.UnscaledTime: speed *= 60 * Time.unscaledDeltaTime; break; } 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); } private void ApplyParticleSystem() { _uiParticle = null; if (m_ParticleSystem == null) { #if UNITY_EDITOR if (Application.isPlaying) #endif { Debug.LogError("No particle system attached to particle attractor script", this); } return; } _uiParticle = m_ParticleSystem.GetComponentInParent(true); if (_uiParticle && !_uiParticle.particles.Contains(m_ParticleSystem)) { _uiParticle = null; } } } }