/* * Created by Brett Terpstra 6920201 on 16/10/22. * Copyright (c) 2022 Brett Terpstra. All Rights Reserved. */ #ifndef STEP_2_WORLD_H #define STEP_2_WORLD_H #include "engine/util/std.h" #include "engine/math/vectors.h" #include "engine/util/models.h" #include "engine/math/bvh.h" #include "types.h" #include #ifdef COMPILE_GUI #include "graphics/gl/shader.h" #include "graphics/debug_gui.h" #endif #include namespace Raytracing { class SphereObject : public Object { private: PRECISION_TYPE radius; public: SphereObject(const Vec4& position, PRECISION_TYPE radius, Material* material): radius(radius), Object(material, position) {} [[nodiscard]] virtual HitData checkIfHit(const Ray& ray, PRECISION_TYPE min, PRECISION_TYPE max) const; }; class ModelObject : public Object { private: std::vector> triangles; std::unique_ptr triangleBVH; public: ModelObject(const Vec4& position, ModelData& data, Material* material): Object(material, position) { // since all of this occurs before the main ray tracing algorithm it's fine to do sequentially TriangulatedModel model {data}; this->triangles = model.triangles; this->aabb = std::move(model.aabb); std::vector triangulatedObjects; for (const auto& tri : triangles){ TriangleBVHObject triangleObject; triangleObject.tri = tri; triangleObject.aabb = tri->aabb; triangleObject.position = position; triangulatedObjects.push_back(triangleObject); } triangleBVH = std::make_unique(triangulatedObjects); #ifdef COMPILE_GUI vao = new VAO(triangles); #endif } [[nodiscard]] virtual DebugBVHData getBVHTree(){return {triangleBVH.get(), false}; } [[nodiscard]] virtual HitData checkIfHit(const Ray& ray, PRECISION_TYPE min, PRECISION_TYPE max) const; }; class DiffuseMaterial : public Material { private: public: explicit DiffuseMaterial(const Vec4& scatterColor): Material(scatterColor) {} [[nodiscard]] virtual ScatterResults scatter(const Ray& ray, const HitData& hitData) const; }; class MetalMaterial : public Material { protected: static inline Vec4 reflect(const Vec4& incomingVector, const Vec4& normal) { return incomingVector - 2 * Vec4::dot(incomingVector, normal) * normal; } public: explicit MetalMaterial(const Vec4& metalColor): Material(metalColor) {} [[nodiscard]] virtual ScatterResults scatter(const Ray& ray, const HitData& hitData) const; }; class BrushedMetalMaterial : public MetalMaterial { private: PRECISION_TYPE fuzzyness; public: explicit BrushedMetalMaterial(const Vec4& metalColor, PRECISION_TYPE fuzzyness): MetalMaterial(metalColor), fuzzyness(fuzzyness) {} [[nodiscard]] virtual ScatterResults scatter(const Ray& ray, const HitData& hitData) const; }; class TexturedMaterial : public Material { public: explicit TexturedMaterial(const std::string& file): Material({}) { } }; struct WorldConfig { bool useBVH = true; bool padding[7]{}; Shader& worldShader; explicit WorldConfig(Shader& shader): worldShader(shader) {} }; class World { private: // store all the objects in the world, std::vector objects; std::unique_ptr bvhObjects; std::unordered_map materials; WorldConfig m_config; public: explicit World(WorldConfig config): m_config(config) {}; World(const World& world) = delete; World(const World&& world) = delete; // Called by the raytracer class after all objects have been added to the world // this allows us to generate a statically unchanging BVH for easy rendering void generateBVH(); #ifdef COMPILE_GUI // currently disabled. TODO: BVH renderer class void drawBVH(Shader& worldShader) {} #endif inline void add(Object* object) { objects.push_back(object); if (object->getBVHTree().bvhTree != nullptr && !object->getBVHTree().isRegular) new DebugBVH{(TriangleBVHTree*) object->getBVHTree().bvhTree, m_config.worldShader}; } inline void add(const std::string& materialName, Material* mat) { materials.insert({materialName, mat}); } inline Material* getMaterial(const std::string& materialName) { return materials.at(materialName); } [[nodiscard]] inline BVHTree* getBVH() { return bvhObjects.get(); } [[nodiscard]] inline std::vector getObjectsInWorld(){return objects; } [[nodiscard]] virtual std::pair checkIfHit(const Ray& ray, PRECISION_TYPE min, PRECISION_TYPE max) const; ~World(); }; } #endif //STEP_2_WORLD_H