using System.Collections; using System.Collections.Generic; using UnityEngine; using UnityEngine.Profiling; using UnityEngine.UI; namespace Coffee.UIExtensions { /// /// Render maskable and sortable particle effect ,without Camera, RenderTexture or Canvas. /// [ExecuteInEditMode] public class UIParticle : MaskableGraphic { //################################ // Constant or Readonly Static Members. //################################ static readonly int s_IdMainTex = Shader.PropertyToID ("_MainTex"); static readonly List s_Vertices = new List (); static readonly List s_TempRelatables = new List (); static readonly List s_ActiveParticles = new List (); //################################ // Serialize Members. //################################ [Tooltip ("The ParticleSystem rendered by CanvasRenderer")] [SerializeField] ParticleSystem m_ParticleSystem; [Tooltip ("The UIParticle to render trail effect")] [SerializeField] UIParticle m_TrailParticle; [HideInInspector] [SerializeField] bool m_IsTrail = false; [Tooltip ("Particle effect scale")] [SerializeField] float m_Scale = 1; [Tooltip ("Ignore parent scale")] [SerializeField] bool m_IgnoreParent = false; //################################ // Public/Protected Members. //################################ public override Texture mainTexture { get { Texture tex = null; if (!m_IsTrail && cachedParticleSystem) { Profiler.BeginSample ("Check TextureSheetAnimation module"); var textureSheet = cachedParticleSystem.textureSheetAnimation; if (textureSheet.enabled && textureSheet.mode == ParticleSystemAnimationMode.Sprites && 0 < textureSheet.spriteCount) { tex = textureSheet.GetSprite (0).texture; } Profiler.EndSample (); } if (!tex && _renderer) { Profiler.BeginSample ("Check material"); var mat = m_IsTrail ? _renderer.trailMaterial : Application.isPlaying ? _renderer.material : _renderer.sharedMaterial; if (mat && mat.HasProperty (s_IdMainTex)) { tex = mat.mainTexture; } Profiler.EndSample (); } return tex ?? s_WhiteTexture; } } /// /// Particle effect scale. /// public float scale { get { return _parent ? _parent.scale : m_Scale; } set { m_Scale = value; } } /// /// Should the soft mask ignore parent soft masks? /// /// If set to true the soft mask will ignore any parent soft mask settings. public bool ignoreParent { get { return m_IgnoreParent; } set { if (m_IgnoreParent != value) { m_IgnoreParent = value; OnTransformParentChanged (); } } } /// /// Is this the root UIParticle? /// public bool isRoot { get { return !_parent; } } /// /// Should this graphic be considered a target for raycasting? /// public override bool raycastTarget { get { return false; } set { base.raycastTarget = value; } } /// /// ParticleSystem. /// public ParticleSystem cachedParticleSystem { get { return m_ParticleSystem ? m_ParticleSystem : (m_ParticleSystem = GetComponent ()); } } /// /// Perform material modification in this function. /// /// Modified material. /// Configured Material. public override Material GetModifiedMaterial (Material baseMaterial) { return base.GetModifiedMaterial (_renderer ? _renderer.sharedMaterial : baseMaterial); } /// /// This function is called when the object becomes enabled and active. /// protected override void OnEnable () { // Register. if (s_ActiveParticles.Count == 0) { Canvas.willRenderCanvases += UpdateMeshes; } s_ActiveParticles.Add (this); // Reset the parent-child relation. GetComponentsInChildren (false, s_TempRelatables); for (int i = s_TempRelatables.Count - 1; 0 <= i; i--) { s_TempRelatables [i].OnTransformParentChanged (); } s_TempRelatables.Clear (); _renderer = cachedParticleSystem ? cachedParticleSystem.GetComponent () : null; // Create objects. _mesh = new Mesh (); _mesh.MarkDynamic (); CheckTrail (); base.OnEnable (); } /// /// This function is called when the behaviour becomes disabled. /// protected override void OnDisable () { // Unregister. s_ActiveParticles.Remove (this); if (s_ActiveParticles.Count == 0) { Canvas.willRenderCanvases -= UpdateMeshes; } // Reset the parent-child relation. for (int i = _children.Count - 1; 0 <= i; i--) { _children [i].SetParent (_parent); } _children.Clear (); SetParent (null); // Destroy objects. DestroyImmediate (_mesh); _mesh = null; CheckTrail (); base.OnDisable (); } /// /// Call to update the geometry of the Graphic onto the CanvasRenderer. /// protected override void UpdateGeometry () { } /// /// This function is called when the parent property of the transform of the GameObject has changed. /// protected override void OnTransformParentChanged () { UIParticle newParent = null; if (isActiveAndEnabled && !m_IgnoreParent) { var parentTransform = transform.parent; while (parentTransform && (!newParent || !newParent.enabled)) { newParent = parentTransform.GetComponent (); parentTransform = parentTransform.parent; } } SetParent (newParent); base.OnTransformParentChanged (); } /// /// Callback for when properties have been changed by animation. /// protected override void OnDidApplyAnimationProperties () { } #if UNITY_EDITOR /// /// This function is called when the script is loaded or a value is changed in the inspector(Called in the editor only). /// protected override void OnValidate () { OnTransformParentChanged (); base.OnValidate (); } #endif //################################ // Private Members. //################################ Mesh _mesh; ParticleSystemRenderer _renderer; UIParticle _parent; List _children = new List (); Matrix4x4 scaleaMatrix = default (Matrix4x4); /// /// Update meshes. /// static void UpdateMeshes () { foreach (var uip in s_ActiveParticles) { if(uip) { uip.UpdateMesh (); } } } /// /// Update meshe. /// void UpdateMesh () { try { Profiler.BeginSample ("CheckTrail"); CheckTrail (); Profiler.EndSample (); if (m_ParticleSystem && canvas) { var rootCanvas = canvas.rootCanvas; Profiler.BeginSample ("Disable ParticleSystemRenderer"); if (Application.isPlaying) { _renderer.enabled = false; } Profiler.EndSample (); Profiler.BeginSample ("Make Matrix"); scaleaMatrix = m_ParticleSystem.main.scalingMode == ParticleSystemScalingMode.Hierarchy ? Matrix4x4.Scale (scale * Vector3.one) : Matrix4x4.Scale (scale * rootCanvas.transform.localScale); Matrix4x4 matrix = default (Matrix4x4); switch (m_ParticleSystem.main.simulationSpace) { case ParticleSystemSimulationSpace.Local: matrix = scaleaMatrix * Matrix4x4.Rotate (m_ParticleSystem.transform.rotation).inverse * Matrix4x4.Scale (m_ParticleSystem.transform.lossyScale).inverse; break; case ParticleSystemSimulationSpace.World: matrix = scaleaMatrix * m_ParticleSystem.transform.worldToLocalMatrix; break; case ParticleSystemSimulationSpace.Custom: break; } Profiler.EndSample (); _mesh.Clear (); if (0 < m_ParticleSystem.particleCount) { Profiler.BeginSample ("Bake Mesh"); var cam = rootCanvas.renderMode == RenderMode.ScreenSpaceOverlay ? UIParticleOverlayCamera.GetCameraForOvrelay (rootCanvas) : canvas.worldCamera ?? Camera.main; if (!cam) { return; } if (m_IsTrail) { _renderer.BakeTrailsMesh (_mesh, cam, true); } else { _renderer.BakeMesh (_mesh, cam, true); } Profiler.EndSample (); // Apply matrix. Profiler.BeginSample ("Apply matrix to position"); _mesh.GetVertices (s_Vertices); var count = s_Vertices.Count; for (int i = 0; i < count; i++) { s_Vertices [i] = matrix.MultiplyPoint3x4 (s_Vertices [i]); } _mesh.SetVertices (s_Vertices); s_Vertices.Clear (); Profiler.EndSample (); } // Set mesh to CanvasRenderer. Profiler.BeginSample ("Set mesh and texture to CanvasRenderer"); canvasRenderer.SetMesh (_mesh); canvasRenderer.SetTexture (mainTexture); Profiler.EndSample (); } } catch (System.Exception e) { Debug.LogException (e); } } /// /// Checks the trail. /// void CheckTrail () { if (isActiveAndEnabled && !m_IsTrail && m_ParticleSystem && m_ParticleSystem.trails.enabled) { if (!m_TrailParticle) { m_TrailParticle = new GameObject ("[UIParticle] Trail").AddComponent (); var trans = m_TrailParticle.transform; trans.SetParent (transform); trans.localPosition = Vector3.zero; trans.localRotation = Quaternion.identity; trans.localScale = Vector3.one; m_TrailParticle._renderer = GetComponent (); m_TrailParticle.m_ParticleSystem = GetComponent (); m_TrailParticle.m_IsTrail = true; } m_TrailParticle.enabled = true; } else if (m_TrailParticle) { m_TrailParticle.enabled = false; } } /// /// Set the parent of the soft mask. /// /// The parent soft mask to use. void SetParent (UIParticle newParent) { if (_parent != newParent && this != newParent) { if (_parent && _parent._children.Contains (this)) { _parent._children.Remove (this); _parent._children.RemoveAll (x => x == null); } _parent = newParent; } if (_parent && !_parent._children.Contains (this)) { _parent._children.Add (this); } } } }