using System; using System.Collections.Generic; using Coffee.UIParticleExtensions; using UnityEngine; using UnityEngine.Profiling; namespace Coffee.UIExtensions { internal static class UIParticleUpdater { static readonly List s_ActiveParticles = new List(); static MaterialPropertyBlock s_Mpb; static ParticleSystem.Particle[] s_Particles = new ParticleSystem.Particle[2048]; private static int frameCount = 0; public static void Register(UIParticle particle) { if (!particle) return; s_ActiveParticles.Add(particle); } public static void Unregister(UIParticle particle) { if (!particle) return; s_ActiveParticles.Remove(particle); } #if UNITY_EDITOR [UnityEditor.InitializeOnLoadMethod] #endif [RuntimeInitializeOnLoadMethod] private static void InitializeOnLoad() { MeshHelper.Init(); MeshPool.Init(); CombineInstanceArrayPool.Init(); Canvas.willRenderCanvases -= Refresh; Canvas.willRenderCanvases += Refresh; } private static void Refresh() { // Do not allow it to be called in the same frame. if (frameCount == Time.frameCount) return; frameCount = Time.frameCount; Profiler.BeginSample("[UIParticle] Refresh"); for (var i = 0; i < s_ActiveParticles.Count; i++) { try { Refresh(s_ActiveParticles[i]); } catch (Exception e) { Debug.LogException(e); } } Profiler.EndSample(); } private static void Refresh(UIParticle particle) { if (!particle || !particle.bakedMesh || !particle.canvas || !particle.canvasRenderer) return; Profiler.BeginSample("[UIParticle] Modify scale"); ModifyScale(particle); Profiler.EndSample(); Profiler.BeginSample("[UIParticle] Bake mesh"); BakeMesh(particle); Profiler.EndSample(); // if (QualitySettings.activeColorSpace == ColorSpace.Linear) // { // Profiler.BeginSample("[UIParticle] Modify color space to linear"); // particle.bakedMesh.ModifyColorSpaceToLinear(); // Profiler.EndSample(); // } Profiler.BeginSample("[UIParticle] Set mesh to CanvasRenderer"); particle.canvasRenderer.SetMesh(particle.bakedMesh); Profiler.EndSample(); Profiler.BeginSample("[UIParticle] Update Animatable Material Properties"); particle.UpdateMaterialProperties(); Profiler.EndSample(); } private static void ModifyScale(UIParticle particle) { if (!particle.ignoreCanvasScaler || !particle.canvas) return; // Ignore Canvas scaling. var s = particle.canvas.rootCanvas.transform.localScale; var modifiedScale = new Vector3( Mathf.Approximately(s.x, 0) ? 1 : 1 / s.x, Mathf.Approximately(s.y, 0) ? 1 : 1 / s.y, Mathf.Approximately(s.z, 0) ? 1 : 1 / s.z); // Scale is already modified. var transform = particle.transform; if (Mathf.Approximately((transform.localScale - modifiedScale).sqrMagnitude, 0)) return; transform.localScale = modifiedScale; } private static Matrix4x4 GetScaledMatrix(ParticleSystem particle) { var transform = particle.transform; var main = particle.main; var space = main.simulationSpace; if (space == ParticleSystemSimulationSpace.Custom && !main.customSimulationSpace) space = ParticleSystemSimulationSpace.Local; switch (space) { case ParticleSystemSimulationSpace.Local: return Matrix4x4.Rotate(transform.rotation).inverse * Matrix4x4.Scale(transform.lossyScale).inverse; case ParticleSystemSimulationSpace.World: return transform.worldToLocalMatrix; case ParticleSystemSimulationSpace.Custom: // #78: Support custom simulation space. return transform.worldToLocalMatrix * Matrix4x4.Translate(main.customSimulationSpace.position); default: return Matrix4x4.identity; } } private static void BakeMesh(UIParticle particle) { // Clear mesh before bake. Profiler.BeginSample("[UIParticle] Bake Mesh > Clear mesh before bake"); MeshHelper.Clear(); particle.bakedMesh.Clear(false); Profiler.EndSample(); // Get camera for baking mesh. var camera = BakingCamera.GetCamera(particle.canvas); var root = particle.transform; var rootMatrix = Matrix4x4.Rotate(root.rotation).inverse * Matrix4x4.Scale(root.lossyScale).inverse; var scale = particle.ignoreCanvasScaler ? Vector3.Scale(particle.canvas.rootCanvas.transform.localScale, particle.scale3D) : particle.scale3D; var scaleMatrix = Matrix4x4.Scale(scale); // Cache position var position = particle.transform.position; var diff = position - particle.cachedPosition; diff.x *= 1f - 1f / Mathf.Max(0.001f, scale.x); diff.y *= 1f - 1f / Mathf.Max(0.001f, scale.y); diff.z *= 1f - 1f / Mathf.Max(0.001f, scale.z); particle.cachedPosition = position; if (particle.activeMeshIndices.CountFast() == 0) diff = Vector3.zero; for (var i = 0; i < particle.particles.Count; i++) { Profiler.BeginSample("[UIParticle] Bake Mesh > Push index"); MeshHelper.activeMeshIndices.Add(false); MeshHelper.activeMeshIndices.Add(false); Profiler.EndSample(); // No particle to render. var currentPs = particle.particles[i]; if (!currentPs || !currentPs.IsAlive() || currentPs.particleCount == 0) continue; var r = currentPs.GetComponent(); if (!r.sharedMaterial && !r.trailMaterial) continue; // Calc matrix. Profiler.BeginSample("[UIParticle] Bake Mesh > Calc matrix"); var matrix = rootMatrix; if (currentPs.transform != root) { if (currentPs.main.simulationSpace == ParticleSystemSimulationSpace.Local) { var relativePos = root.InverseTransformPoint(currentPs.transform.position); matrix = Matrix4x4.Translate(relativePos) * matrix; } else { matrix = matrix * Matrix4x4.Translate(-root.position); } } else { matrix = GetScaledMatrix(currentPs); } matrix = scaleMatrix * matrix; Profiler.EndSample(); // Extra world simulation. if (currentPs.main.simulationSpace == ParticleSystemSimulationSpace.World && 0 < diff.sqrMagnitude) { Profiler.BeginSample("[UIParticle] Bake Mesh > Extra world simulation"); var count = currentPs.particleCount; if (s_Particles.Length < count) { var size = Mathf.NextPowerOfTwo(count); s_Particles = new ParticleSystem.Particle[size]; } currentPs.GetParticles(s_Particles); for (var j = 0; j < count; j++) { var p = s_Particles[j]; p.position += diff; s_Particles[j] = p; } currentPs.SetParticles(s_Particles, count); Profiler.EndSample(); } #if UNITY_2018_3_OR_NEWER // #102: Do not bake particle system to mesh when the alpha is zero. if (Mathf.Approximately(particle.canvasRenderer.GetInheritedAlpha(), 0)) continue; #endif // Bake main particles. if (CanBakeMesh(r)) { Profiler.BeginSample("[UIParticle] Bake Mesh > Bake Main Particles"); var hash = currentPs.GetMaterialHash(false); if (hash != 0) { var m = MeshHelper.GetTemporaryMesh(); r.BakeMesh(m, camera, true); MeshHelper.Push(i * 2, hash, m, matrix); } Profiler.EndSample(); } // Bake trails particles. if (currentPs.trails.enabled) { Profiler.BeginSample("[UIParticle] Bake Mesh > Bake Trails Particles"); var hash = currentPs.GetMaterialHash(true); if (hash != 0) { matrix = currentPs.main.simulationSpace == ParticleSystemSimulationSpace.Local && currentPs.trails.worldSpace ? matrix * Matrix4x4.Translate(-currentPs.transform.position) : matrix; var m = MeshHelper.GetTemporaryMesh(); try { r.BakeTrailsMesh(m, camera, true); MeshHelper.Push(i * 2 + 1, hash, m, matrix); } catch { MeshHelper.DiscardTemporaryMesh(m); } } Profiler.EndSample(); } } // Set active indices. Profiler.BeginSample("[UIParticle] Bake Mesh > Set active indices"); particle.activeMeshIndices = MeshHelper.activeMeshIndices; Profiler.EndSample(); // Combine Profiler.BeginSample("[UIParticle] Bake Mesh > CombineMesh"); MeshHelper.CombineMesh(particle.bakedMesh); MeshHelper.Clear(); Profiler.EndSample(); } private static bool CanBakeMesh(ParticleSystemRenderer renderer) { // #69: Editor crashes when mesh is set to null when `ParticleSystem.RenderMode = Mesh` if (renderer.renderMode == ParticleSystemRenderMode.Mesh && renderer.mesh == null) return false; // #61: When `ParticleSystem.RenderMode = None`, an error occurs if (renderer.renderMode == ParticleSystemRenderMode.None) return false; return true; } } }