87b5047b14
This allows much more efficient batching, along with pipeline reusage and preparation for the Vulkan API Former-commit-id: 4ed2f66567f7da6b6b6ee073e4d855b9a935000d [formerly b540f468fc700a16d5136d4dbb8632e23882fd3d] [formerly 37fff624ec65cc387130875410b6ea35c1a5bcfb [formerly ab9a88f514f46f6596499e285981fa6da588bb03]] Former-commit-id: a2e8859196c0f72b7d7ffd8764a887e6c8173743 [formerly c886cdade14769db243ff993a1741f6052a2eb2a] Former-commit-id: e1d02662fb1ac165c7e888380afee7601350060f
190 lines
7.0 KiB
C++
190 lines
7.0 KiB
C++
// Copyright (C) 2015 Jérôme Leclercq
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// This file is part of the "Nazara Engine - Graphics module"
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// For conditions of distribution and use, see copyright notice in Config.hpp
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#pragma once
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#ifndef NAZARA_FORWARDRENDERQUEUE_HPP
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#define NAZARA_FORWARDRENDERQUEUE_HPP
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#include <Nazara/Prerequesites.hpp>
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#include <Nazara/Core/Color.hpp>
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#include <Nazara/Graphics/AbstractRenderQueue.hpp>
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#include <Nazara/Graphics/Material.hpp>
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#include <Nazara/Math/Box.hpp>
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#include <Nazara/Math/Matrix4.hpp>
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#include <Nazara/Utility/IndexBuffer.hpp>
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#include <Nazara/Utility/MeshData.hpp>
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#include <Nazara/Utility/VertexBuffer.hpp>
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#include <map>
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#include <tuple>
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namespace Nz
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{
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class AbstractViewer;
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class NAZARA_GRAPHICS_API ForwardRenderQueue : public AbstractRenderQueue
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{
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friend class ForwardRenderTechnique;
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public:
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ForwardRenderQueue() = default;
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~ForwardRenderQueue() = default;
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void AddBillboards(int renderOrder, const Material* material, unsigned int count, SparsePtr<const Vector3f> positionPtr, SparsePtr<const Vector2f> sizePtr, SparsePtr<const Vector2f> sinCosPtr = nullptr, SparsePtr<const Color> colorPtr = nullptr) override;
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void AddBillboards(int renderOrder, const Material* material, unsigned int count, SparsePtr<const Vector3f> positionPtr, SparsePtr<const Vector2f> sizePtr, SparsePtr<const Vector2f> sinCosPtr, SparsePtr<const float> alphaPtr) override;
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void AddBillboards(int renderOrder, const Material* material, unsigned int count, SparsePtr<const Vector3f> positionPtr, SparsePtr<const Vector2f> sizePtr, SparsePtr<const float> anglePtr, SparsePtr<const Color> colorPtr = nullptr) override;
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void AddBillboards(int renderOrder, const Material* material, unsigned int count, SparsePtr<const Vector3f> positionPtr, SparsePtr<const Vector2f> sizePtr, SparsePtr<const float> anglePtr, SparsePtr<const float> alphaPtr) override;
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void AddBillboards(int renderOrder, const Material* material, unsigned int count, SparsePtr<const Vector3f> positionPtr, SparsePtr<const float> sizePtr, SparsePtr<const Vector2f> sinCosPtr = nullptr, SparsePtr<const Color> colorPtr = nullptr) override;
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void AddBillboards(int renderOrder, const Material* material, unsigned int count, SparsePtr<const Vector3f> positionPtr, SparsePtr<const float> sizePtr, SparsePtr<const Vector2f> sinCosPtr, SparsePtr<const float> alphaPtr) override;
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void AddBillboards(int renderOrder, const Material* material, unsigned int count, SparsePtr<const Vector3f> positionPtr, SparsePtr<const float> sizePtr, SparsePtr<const float> anglePtr, SparsePtr<const Color> colorPtr = nullptr) override;
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void AddBillboards(int renderOrder, const Material* material, unsigned int count, SparsePtr<const Vector3f> positionPtr, SparsePtr<const float> sizePtr, SparsePtr<const float> anglePtr, SparsePtr<const float> alphaPtr) override;
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void AddDrawable(int renderOrder, const Drawable* drawable) override;
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void AddMesh(int renderOrder, const Material* material, const MeshData& meshData, const Boxf& meshAABB, const Matrix4f& transformMatrix) override;
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void AddSprites(int renderOrder, const Material* material, const VertexStruct_XYZ_Color_UV* vertices, unsigned int spriteCount, const Texture* overlay = nullptr) override;
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void Clear(bool fully = false) override;
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void Sort(const AbstractViewer* viewer);
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struct MaterialComparator
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{
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bool operator()(const Material* mat1, const Material* mat2) const;
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};
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struct MaterialPipelineComparator
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{
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bool operator()(const MaterialPipeline* pipeline1, const MaterialPipeline* pipeline2) const;
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};
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/// Billboards
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struct BillboardData
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{
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Color color;
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Vector3f center;
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Vector2f size;
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Vector2f sinCos;
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};
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struct BatchedBillboardEntry
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{
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NazaraSlot(Material, OnMaterialRelease, materialReleaseSlot);
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std::vector<BillboardData> billboards;
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};
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typedef std::map<const Material*, BatchedBillboardEntry, MaterialComparator> BatchedBillboardContainer;
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struct BatchedBillboardPipelineEntry
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{
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BatchedBillboardContainer materialMap;
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bool enabled = false;
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};
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typedef std::map<const MaterialPipeline*, BatchedBillboardPipelineEntry, MaterialPipelineComparator> BillboardPipelineBatches;
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/// Sprites
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struct SpriteChain_XYZ_Color_UV
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{
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const VertexStruct_XYZ_Color_UV* vertices;
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unsigned int spriteCount;
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};
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struct BatchedSpriteEntry
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{
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NazaraSlot(Texture, OnTextureRelease, textureReleaseSlot);
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std::vector<SpriteChain_XYZ_Color_UV> spriteChains;
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};
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typedef std::map<const Texture*, BatchedSpriteEntry> SpriteOverlayBatches;
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struct BatchedBasicSpriteEntry
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{
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NazaraSlot(Material, OnMaterialRelease, materialReleaseSlot);
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SpriteOverlayBatches overlayMap;
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bool enabled = false;
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};
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typedef std::map<const Material*, BatchedBasicSpriteEntry, MaterialComparator> SpriteMaterialBatches;
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struct BatchedSpritePipelineEntry
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{
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SpriteMaterialBatches materialMap;
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bool enabled = false;
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};
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typedef std::map<const MaterialPipeline*, BatchedSpritePipelineEntry, MaterialPipelineComparator> SpritePipelineBatches;
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/// Meshes
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struct MeshDataComparator
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{
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bool operator()(const MeshData& data1, const MeshData& data2) const;
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};
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struct MeshInstanceEntry
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{
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NazaraSlot(IndexBuffer, OnIndexBufferRelease, indexBufferReleaseSlot);
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NazaraSlot(VertexBuffer, OnVertexBufferRelease, vertexBufferReleaseSlot);
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std::vector<Matrix4f> instances;
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Spheref squaredBoundingSphere;
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};
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typedef std::map<MeshData, MeshInstanceEntry, MeshDataComparator> MeshInstanceContainer;
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struct BatchedModelEntry
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{
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NazaraSlot(Material, OnMaterialRelease, materialReleaseSlot);
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MeshInstanceContainer meshMap;
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bool enabled = false;
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};
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typedef std::map<const Material*, BatchedModelEntry, MaterialComparator> MeshMaterialBatches;
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struct BatchedMaterialEntry
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{
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std::size_t maxInstanceCount = 0;
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MeshMaterialBatches materialMap;
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};
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typedef std::map<const MaterialPipeline*, BatchedMaterialEntry, MaterialPipelineComparator> MeshPipelineBatches;
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struct TransparentModelData
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{
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Matrix4f transformMatrix;
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MeshData meshData;
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Spheref squaredBoundingSphere;
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const Material* material;
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};
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typedef std::vector<unsigned int> TransparentModelContainer;
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struct Layer
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{
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BillboardPipelineBatches billboards;
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SpritePipelineBatches basicSprites;
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MeshPipelineBatches opaqueModels;
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TransparentModelContainer transparentModels;
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std::vector<TransparentModelData> transparentModelData;
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std::vector<const Drawable*> otherDrawables;
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unsigned int clearCount = 0;
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};
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std::map<int, Layer> layers;
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private:
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BillboardData* GetBillboardData(int renderOrder, const Material* material, unsigned int count);
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Layer& GetLayer(int i); ///TODO: Inline
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void OnIndexBufferInvalidation(const IndexBuffer* indexBuffer);
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void OnMaterialInvalidation(const Material* material);
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void OnTextureInvalidation(const Texture* texture);
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void OnVertexBufferInvalidation(const VertexBuffer* vertexBuffer);
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};
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}
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#endif // NAZARA_FORWARDRENDERQUEUE_HPP
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