/* model/model.h This file is part of the Osirion project and is distributed under the terms of the GNU General Public License version 2 */ #ifndef __INCLUDED_MODEL_MODEL_H__ #define __INCLUDED_MODEL_MODEL_H__ #include #include #include #include "math/mathlib.h" #include "math/plane3f.h" #include "model/engine.h" #include "model/light.h" #include "model/vertexarray.h" namespace model { /// a model triangle class Triangle { public: /// a new triangle with 3 vertices, a normal, color and a detail flag Triangle(math::Vector3f const &v0, math::Vector3f const &v1, math::Vector3f const &v2, math::Vector3f const &n, math::Color *color=0, bool detail=false); ~Triangle(); /// normal of the triangle inline math::Vector3f const & normal() const { return triangle_normal; } /// color of the triangle inline math::Color const & color() const { return triangle_color;} /// indidcates if this triangle was generated from a detail brush inline bool detail() const { return triangle_detail; } /// triangle vertex 0 math::Vector3f triangle_v0; /// triangle vertex 1 math::Vector3f triangle_v1; /// triangle vertex 2 math::Vector3f triangle_v2; private: math::Vector3f triangle_normal; math::Color triangle_color; bool triangle_detail; }; /// a 3D model contains a list of faces class Model { public: /// load a model from disk Model(std::string const & name); ~Model(); /// the name of the model inline std::string const & name() const { return model_name; } /// maximum values of the bounding box inline math::Vector3f const & maxbbox() const { return model_maxbbox; } /// minimum values of the bounding box inline math::Vector3f const & minbbox() const { return model_minbbox; } /// first vertex in the global VertexArray inline size_t first_vertex() const { return model_first_vertex; } /// number of structural vertices in this model inline size_t vertex_structural() const { return model_vertex_count; } /// number of detail vertices inline size_t vertex_detail() const { return model_vertex_countdetail; } /// first vertex in the global VertexArray inline size_t first_evertex() const { return model_first_evertex; } /// number of structural evertices in this model inline size_t evertex_structural() const { return model_evertex_count; } /// number of detail evertices in this model inline size_t evertex_detail() const { return model_evertex_countdetail; } /// total number of triangles in this model size_t tris() const; /// number of detail triangles in this model size_t details() const; /// radius inline float radius() const { return model_radius; } /// the Model registry static std::map registry; /* ---- static functions for the Model registry -------------------- */ /// get name model, returns 0 if not found static Model *find(std::string const & name); /// get named model from the registry and load it if necessary static Model *get(std::string const & name); /// clear the model registry static void clear(); /// list the content of the model registry static void list(); /// list of Engines std::list model_engine; /// list of Lights std::list model_light; private: void make_face(math::Plane3f *face, std::vector & planes, bool detail); void add_engine(Engine *engine); void add_light(Light *light); std::string model_name; float model_radius; float model_scale; bool model_valid; math::Vector3f model_maxbbox; math::Vector3f model_minbbox; // tmp lists with triangles std::list model_tris; std::list model_etris; size_t model_first_vertex; size_t model_vertex_count; size_t model_vertex_countdetail; size_t model_first_evertex; size_t model_evertex_count; size_t model_evertex_countdetail; }; } #endif // __INCLUDED_MODEL_MODEL_H__