// Copyright Epic Games, Inc. All Rights Reserved. #include "Drawing/TriangleSetComponent.h" #include "DynamicMeshBuilder.h" #include "Engine/CollisionProfile.h" #include "Materials/MaterialRelevance.h" #include "LocalVertexFactory.h" #include "PrimitiveSceneProxy.h" #include "SceneInterface.h" #include "StaticMeshResources.h" #include "Algo/Accumulate.h" #include UE_INLINE_GENERATED_CPP_BY_NAME(TriangleSetComponent) struct FTriangleSetMeshBatchData { FTriangleSetMeshBatchData() : MaterialProxy(nullptr) {} FMaterialRenderProxy* MaterialProxy; int32 StartIndex; int32 NumPrimitives; int32 MinVertexIndex; int32 MaxVertexIndex; }; /** Class for the TriangleSetComponent data passed to the render thread. */ class FTriangleSetSceneProxy final : public FPrimitiveSceneProxy { public: FTriangleSetSceneProxy(UTriangleSetComponent* Component) : FPrimitiveSceneProxy(Component), MaterialRelevance(Component->GetMaterialRelevance(GetScene().GetFeatureLevel())), VertexFactory(GetScene().GetFeatureLevel(), "FPointSetSceneProxy") { const int32 NumTriangleVertices = Algo::Accumulate(Component->TrianglesByMaterial, 0, [](int32 Acc, const TSparseArray& Tris) { return Acc + Tris.Num() * 3; }); const int32 NumTriangleIndices = NumTriangleVertices; const int32 NumTextureCoordinates = 1; VertexBuffers.PositionVertexBuffer.Init(NumTriangleVertices); VertexBuffers.StaticMeshVertexBuffer.Init(NumTriangleVertices, NumTextureCoordinates); VertexBuffers.ColorVertexBuffer.Init(NumTriangleVertices); IndexBuffer.Indices.SetNumUninitialized(NumTriangleIndices); int32 VertexBufferIndex = 0; int32 IndexBufferIndex = 0; // Triangles int32 MaterialIndex = 0; for (const auto& MaterialTriangles : Component->TrianglesByMaterial) { MeshBatchDatas.Emplace(); FTriangleSetMeshBatchData& MeshBatchData = MeshBatchDatas.Last(); MeshBatchData.MinVertexIndex = VertexBufferIndex; MeshBatchData.MaxVertexIndex = VertexBufferIndex + MaterialTriangles.Num() * 3 - 1; MeshBatchData.StartIndex = IndexBufferIndex; MeshBatchData.NumPrimitives = MaterialTriangles.Num(); MeshBatchData.MaterialProxy = Component->GetMaterial(MaterialIndex)->GetRenderProxy(); for (const FRenderableTriangle& Triangle : MaterialTriangles) { VertexBuffers.PositionVertexBuffer.VertexPosition(VertexBufferIndex + 0) = (FVector3f)Triangle.Vertex0.Position; VertexBuffers.PositionVertexBuffer.VertexPosition(VertexBufferIndex + 1) = (FVector3f)Triangle.Vertex1.Position; VertexBuffers.PositionVertexBuffer.VertexPosition(VertexBufferIndex + 2) = (FVector3f)Triangle.Vertex2.Position; VertexBuffers.StaticMeshVertexBuffer.SetVertexTangents(VertexBufferIndex + 0, FVector3f(1, 0, 0), FVector3f(0, 1, 0), (FVector3f)Triangle.Vertex0.Normal); VertexBuffers.StaticMeshVertexBuffer.SetVertexTangents(VertexBufferIndex + 1, FVector3f(1, 0, 0), FVector3f(0, 1, 0), (FVector3f)Triangle.Vertex1.Normal); VertexBuffers.StaticMeshVertexBuffer.SetVertexTangents(VertexBufferIndex + 2, FVector3f(1, 0, 0), FVector3f(0, 1, 0), (FVector3f)Triangle.Vertex2.Normal); VertexBuffers.StaticMeshVertexBuffer.SetVertexUV(VertexBufferIndex + 0, 0, FVector2f(Triangle.Vertex0.UV)); VertexBuffers.StaticMeshVertexBuffer.SetVertexUV(VertexBufferIndex + 1, 0, FVector2f(Triangle.Vertex1.UV)); VertexBuffers.StaticMeshVertexBuffer.SetVertexUV(VertexBufferIndex + 2, 0, FVector2f(Triangle.Vertex2.UV)); VertexBuffers.ColorVertexBuffer.VertexColor(VertexBufferIndex + 0) = Triangle.Vertex0.Color; VertexBuffers.ColorVertexBuffer.VertexColor(VertexBufferIndex + 1) = Triangle.Vertex1.Color; VertexBuffers.ColorVertexBuffer.VertexColor(VertexBufferIndex + 2) = Triangle.Vertex2.Color; IndexBuffer.Indices[IndexBufferIndex + 0] = VertexBufferIndex + 0; IndexBuffer.Indices[IndexBufferIndex + 1] = VertexBufferIndex + 1; IndexBuffer.Indices[IndexBufferIndex + 2] = VertexBufferIndex + 2; VertexBufferIndex += 3; IndexBufferIndex += 3; } MaterialIndex++; } ENQUEUE_RENDER_COMMAND(LineSetVertexBuffersInit)( [this](FRHICommandListImmediate& RHICmdList) { VertexBuffers.PositionVertexBuffer.InitResource(); VertexBuffers.StaticMeshVertexBuffer.InitResource(); VertexBuffers.ColorVertexBuffer.InitResource(); FLocalVertexFactory::FDataType Data; VertexBuffers.PositionVertexBuffer.BindPositionVertexBuffer(&VertexFactory, Data); VertexBuffers.StaticMeshVertexBuffer.BindTangentVertexBuffer(&VertexFactory, Data); VertexBuffers.StaticMeshVertexBuffer.BindTexCoordVertexBuffer(&VertexFactory, Data); VertexBuffers.ColorVertexBuffer.BindColorVertexBuffer(&VertexFactory, Data); VertexFactory.SetData(Data); VertexFactory.InitResource(); IndexBuffer.InitResource(); }); } virtual ~FTriangleSetSceneProxy() { VertexBuffers.PositionVertexBuffer.ReleaseResource(); VertexBuffers.StaticMeshVertexBuffer.ReleaseResource(); VertexBuffers.ColorVertexBuffer.ReleaseResource(); IndexBuffer.ReleaseResource(); VertexFactory.ReleaseResource(); } virtual void GetDynamicMeshElements(const TArray& Views, const FSceneViewFamily& ViewFamily, uint32 VisibilityMap, FMeshElementCollector& Collector) const override { QUICK_SCOPE_CYCLE_COUNTER(STAT_OverlaySceneProxy_GetDynamicMeshElements); for (int32 ViewIndex = 0; ViewIndex < Views.Num(); ViewIndex++) { if (VisibilityMap & (1 << ViewIndex)) { for (const FTriangleSetMeshBatchData& MeshBatchData : MeshBatchDatas) { FMeshBatch& Mesh = Collector.AllocateMesh(); FMeshBatchElement& BatchElement = Mesh.Elements[0]; BatchElement.IndexBuffer = &IndexBuffer; Mesh.bWireframe = false; Mesh.VertexFactory = &VertexFactory; Mesh.MaterialRenderProxy = MeshBatchData.MaterialProxy; FDynamicPrimitiveUniformBuffer& DynamicPrimitiveUniformBuffer = Collector.AllocateOneFrameResource(); DynamicPrimitiveUniformBuffer.Set(GetLocalToWorld(), GetLocalToWorld(), GetBounds(), GetLocalBounds(), true, false, AlwaysHasVelocity()); BatchElement.PrimitiveUniformBufferResource = &DynamicPrimitiveUniformBuffer.UniformBuffer; BatchElement.FirstIndex = MeshBatchData.StartIndex; BatchElement.NumPrimitives = MeshBatchData.NumPrimitives; BatchElement.MinVertexIndex = MeshBatchData.MinVertexIndex; BatchElement.MaxVertexIndex = MeshBatchData.MaxVertexIndex; Mesh.ReverseCulling = IsLocalToWorldDeterminantNegative(); Mesh.Type = PT_TriangleList; Mesh.DepthPriorityGroup = SDPG_World; Mesh.bCanApplyViewModeOverrides = false; Collector.AddMesh(ViewIndex, Mesh); } } } } virtual FPrimitiveViewRelevance GetViewRelevance(const FSceneView* View) const override { FPrimitiveViewRelevance Result; Result.bDrawRelevance = IsShown(View); Result.bShadowRelevance = IsShadowCast(View); Result.bDynamicRelevance = true; Result.bRenderInMainPass = ShouldRenderInMainPass(); Result.bUsesLightingChannels = GetLightingChannelMask() != GetDefaultLightingChannelMask(); Result.bRenderCustomDepth = ShouldRenderCustomDepth(); Result.bTranslucentSelfShadow = bCastVolumetricTranslucentShadow; MaterialRelevance.SetPrimitiveViewRelevance(Result); Result.bVelocityRelevance = DrawsVelocity() && Result.bOpaque && Result.bRenderInMainPass; return Result; } virtual bool CanBeOccluded() const override { return !MaterialRelevance.bDisableDepthTest; } virtual uint32 GetMemoryFootprint() const override { return sizeof(*this) + GetAllocatedSize(); } uint32 GetAllocatedSize() const { return FPrimitiveSceneProxy::GetAllocatedSize(); } virtual SIZE_T GetTypeHash() const override { static SIZE_T UniquePointer; return reinterpret_cast(&UniquePointer); } private: TArray MeshBatchDatas; FMaterialRelevance MaterialRelevance; FLocalVertexFactory VertexFactory; FStaticMeshVertexBuffers VertexBuffers; FDynamicMeshIndexBuffer32 IndexBuffer; }; UTriangleSetComponent::UTriangleSetComponent() { CastShadow = false; bSelectable = false; PrimaryComponentTick.bCanEverTick = false; bBoundsDirty = true; UPrimitiveComponent::SetCollisionProfileName(UCollisionProfile::NoCollision_ProfileName); } int32 UTriangleSetComponent::FindOrAddMaterialIndex(UMaterialInterface* Material) { const int32* MaterialIndexPtr = MaterialToIndex.Find(Material); if (MaterialIndexPtr == nullptr) { const int32 MaterialIndex = TrianglesByMaterial.Add(TSparseArray()); MaterialToIndex.Add(Material, MaterialIndex); SetMaterial(MaterialIndex, Material); return MaterialIndex; } return *MaterialIndexPtr; } void UTriangleSetComponent::Clear() { Triangles.Reset(); for (int32 Index = 0; Index < TrianglesByMaterial.Num(); Index++) { SetMaterial(Index, nullptr); } TrianglesByMaterial.Reset(); MaterialToIndex.Reset(); MarkRenderStateDirty(); bBoundsDirty = true; } void UTriangleSetComponent::ReserveTriangles(const int32 MaxID) { Triangles.Reserve(MaxID); } int32 UTriangleSetComponent::AddTriangle(const FRenderableTriangle& OverlayTriangle) { const int32 MaterialIndex = FindOrAddMaterialIndex(OverlayTriangle.Material); const int32 IndexByMaterial = TrianglesByMaterial[MaterialIndex].Add(OverlayTriangle); const int32 ID = Triangles.Add(MakeTuple(MaterialIndex, IndexByMaterial)); MarkRenderStateDirty(); bBoundsDirty = true; return ID; } void UTriangleSetComponent::InsertTriangle(const int32 ID, const FRenderableTriangle& OverlayTriangle) { const int32 MaterialIndex = FindOrAddMaterialIndex(OverlayTriangle.Material); const int32 IndexByMaterial = TrianglesByMaterial[MaterialIndex].Add(OverlayTriangle); Triangles.Insert(ID, MakeTuple(MaterialIndex, IndexByMaterial)); MarkRenderStateDirty(); bBoundsDirty = true; } void UTriangleSetComponent::RemoveTriangle(const int32 ID) { const TTuple MaterialAndTriangleIndex = Triangles[ID]; const int32 MaterialIndex = MaterialAndTriangleIndex.Get<0>(); const int32 IndexByMaterial = MaterialAndTriangleIndex.Get<1>(); TSparseArray& Container = TrianglesByMaterial[MaterialIndex]; Container.RemoveAt(IndexByMaterial); if (Container.Num() == 0) { TrianglesByMaterial.RemoveAt(MaterialIndex); MaterialToIndex.Remove(GetMaterial(MaterialIndex + 2)); SetMaterial(MaterialIndex, nullptr); } Triangles.RemoveAt(ID); MarkRenderStateDirty(); bBoundsDirty = true; } int32 UTriangleSetComponent::AddTriangle(const FVector& A, const FVector& B, const FVector& C, const FVector& Normal, const FColor& Color, UMaterialInterface* Material) { FRenderableTriangle NewTriangle; NewTriangle.Material = Material; NewTriangle.Vertex0 = { A, FVector2D(0,0), Normal, Color }; NewTriangle.Vertex1 = { B, FVector2D(1,0), Normal, Color }; NewTriangle.Vertex2 = { C, FVector2D(1,1), Normal, Color }; return AddTriangle(NewTriangle); } UE::Geometry::FIndex2i UTriangleSetComponent::AddQuad(const FVector& A, const FVector& B, const FVector& C, const FVector& D, const FVector& Normal, const FColor& Color, UMaterialInterface* Material) { FRenderableTriangle NewTriangle0; NewTriangle0.Material = Material; NewTriangle0.Vertex0 = { A, FVector2D(0,0), Normal, Color }; NewTriangle0.Vertex1 = { B, FVector2D(1,0), Normal, Color }; NewTriangle0.Vertex2 = { C, FVector2D(1,1), Normal, Color }; FRenderableTriangle NewTriangle1 = NewTriangle0; NewTriangle1.Vertex1 = NewTriangle1.Vertex2; NewTriangle1.Vertex2 = { D, FVector2D(0,1), Normal, Color }; int32 Index0 = AddTriangle(NewTriangle0); int32 Index1 = AddTriangle(NewTriangle1); return UE::Geometry::FIndex2i(Index0, Index1); } bool UTriangleSetComponent::IsTriangleValid(const int32 ID) const { return Triangles.IsValidIndex(ID); } FPrimitiveSceneProxy* UTriangleSetComponent::CreateSceneProxy() { if (Triangles.Num() > 0) { return new FTriangleSetSceneProxy(this); } return nullptr; } int32 UTriangleSetComponent::GetNumMaterials() const { return TrianglesByMaterial.GetMaxIndex(); } FBoxSphereBounds UTriangleSetComponent::CalcBounds(const FTransform& LocalToWorld) const { if (bBoundsDirty) { FBox Box(ForceInit); for (const TSparseArray& TriangleArray : TrianglesByMaterial) { for (const FRenderableTriangle& Triangle : TriangleArray) { Box += Triangle.Vertex0.Position; Box += Triangle.Vertex1.Position; Box += Triangle.Vertex2.Position; } } Bounds = FBoxSphereBounds(Box); bBoundsDirty = false; } return Bounds.TransformBy(LocalToWorld); }