75 lines
4.4 KiB
C++
75 lines
4.4 KiB
C++
// Copyright (C) 2022 Jérôme "Lynix" Leclercq (lynix680@gmail.com)
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// This file is part of the "Nazara Engine - Utility 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_UTILITY_ALGORITHM_HPP
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#define NAZARA_UTILITY_ALGORITHM_HPP
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#include <Nazara/Prerequisites.hpp>
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#include <Nazara/Core/Color.hpp>
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#include <Nazara/Core/SparsePtr.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/Math/Quaternion.hpp>
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#include <Nazara/Math/Vector2.hpp>
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#include <Nazara/Math/Vector3.hpp>
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#include <Nazara/Math/Vector4.hpp>
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#include <Nazara/Utility/IndexIterator.hpp>
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namespace Nz
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{
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class Joint;
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struct VertexStruct_XYZ_Normal_UV_Tangent;
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struct VertexStruct_XYZ_Normal_UV_Tangent_Skinning;
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using MeshVertex = VertexStruct_XYZ_Normal_UV_Tangent;
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using SkeletalMeshVertex = VertexStruct_XYZ_Normal_UV_Tangent_Skinning;
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struct SkinningData
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{
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const Joint* joints;
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const SkeletalMeshVertex* inputVertex;
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MeshVertex* outputVertex;
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};
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struct VertexPointers
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{
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SparsePtr<Vector3f> normalPtr;
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SparsePtr<Vector3f> positionPtr;
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SparsePtr<Vector3f> tangentPtr;
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SparsePtr<Vector2f> uvPtr;
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};
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NAZARA_UTILITY_API Boxf ComputeAABB(SparsePtr<const Vector3f> positionPtr, std::size_t vertexCount);
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NAZARA_UTILITY_API void ComputeBoxIndexVertexCount(const Vector3ui& subdivision, std::size_t* indexCount, std::size_t* vertexCount);
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NAZARA_UTILITY_API UInt64 ComputeCacheMissCount(IndexIterator indices, UInt32 indexCount);
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NAZARA_UTILITY_API void ComputeConeIndexVertexCount(unsigned int subdivision, std::size_t* indexCount, std::size_t* vertexCount);
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NAZARA_UTILITY_API void ComputeCubicSphereIndexVertexCount(unsigned int subdivision, std::size_t* indexCount, std::size_t* vertexCount);
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NAZARA_UTILITY_API void ComputeIcoSphereIndexVertexCount(unsigned int recursionLevel, std::size_t* indexCount, std::size_t* vertexCount);
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NAZARA_UTILITY_API void ComputePlaneIndexVertexCount(const Vector2ui& subdivision, std::size_t* indexCount, std::size_t* vertexCount);
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NAZARA_UTILITY_API void ComputeUvSphereIndexVertexCount(unsigned int sliceCount, unsigned int stackCount, std::size_t* indexCount, std::size_t* vertexCount);
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NAZARA_UTILITY_API void GenerateBox(const Vector3f& lengths, const Vector3ui& subdivision, const Matrix4f& matrix, const Rectf& textureCoords, VertexPointers vertexPointers, IndexIterator indices, Boxf* aabb = nullptr, unsigned int indexOffset = 0);
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NAZARA_UTILITY_API void GenerateCone(float length, float radius, unsigned int subdivision, const Matrix4f& matrix, const Rectf& textureCoords, VertexPointers vertexPointers, IndexIterator indices, Boxf* aabb = nullptr, unsigned int indexOffset = 0);
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NAZARA_UTILITY_API void GenerateCubicSphere(float size, unsigned int subdivision, const Matrix4f& matrix, const Rectf& textureCoords, VertexPointers vertexPointers, IndexIterator indices, Boxf* aabb = nullptr, unsigned int indexOffset = 0);
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NAZARA_UTILITY_API void GenerateIcoSphere(float size, unsigned int recursionLevel, const Matrix4f& matrix, const Rectf& textureCoords, VertexPointers vertexPointers, IndexIterator indices, Boxf* aabb = nullptr, unsigned int indexOffset = 0);
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NAZARA_UTILITY_API void GeneratePlane(const Vector2ui& subdivision, const Vector2f& size, const Matrix4f& matrix, const Rectf& textureCoords, VertexPointers vertexPointers, IndexIterator indices, Boxf* aabb = nullptr, unsigned int indexOffset = 0);
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NAZARA_UTILITY_API void GenerateUvSphere(float size, unsigned int sliceCount, unsigned int stackCount, const Matrix4f& matrix, const Rectf& textureCoords, VertexPointers vertexPointers, IndexIterator indices, Boxf* aabb = nullptr, unsigned int indexOffset = 0);
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NAZARA_UTILITY_API void OptimizeIndices(IndexIterator indices, unsigned int indexCount);
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NAZARA_UTILITY_API void SkinPosition(const SkinningData& data, std::size_t startVertex, std::size_t vertexCount);
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NAZARA_UTILITY_API void SkinPositionNormal(const SkinningData& data, std::size_t startVertex, std::size_t vertexCount);
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NAZARA_UTILITY_API void SkinPositionNormalTangent(const SkinningData& data, std::size_t startVertex, std::size_t vertexCount);
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NAZARA_UTILITY_API void TransformVertices(VertexPointers vertexPointers, std::size_t vertexCount, const Matrix4f& matrix);
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template<typename T> constexpr ComponentType ComponentTypeId();
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template<typename T> constexpr ComponentType GetComponentTypeOf();
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}
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#include <Nazara/Utility/Algorithm.inl>
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#endif // NAZARA_UTILITY_ALGORITHM_HPP
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