// // Created by Keuin on 2022/4/15. // #ifndef RT_MATERIAL_H #define RT_MATERIAL_H #include "object.h" class object; // A material is of some characteristics that manipulates the lighted ray in some certain ways. // An object can have one certain subclass of material, making it seemed to be different with other objects. // A material instance can be configured when constructing. It should be immutable and thread-safe. // It is suggested not to have mutable states in its internal implementation. // User should have a global table containing references to all the materials the scene is using. class material { public: // If this matter scatters, manipulate r and return true. Otherwise return false (the light is absorbed entirely). // To make it thread-safe without locking mechanism, private states are passed-in as parameters. virtual bool scatter(ray3d &r, const object &hit_obj, double hit_t, random_uv_gen_3d &ruvg) const = 0; }; class material_diffuse_lambertian : public material { double albedo; public: explicit material_diffuse_lambertian(double albedo); bool scatter(ray3d &r, const object &hit_obj, double hit_t, random_uv_gen_3d &ruvg) const override; }; class material_diffuse_simple : public material { double albedo; public: explicit material_diffuse_simple(double albedo); bool scatter(ray3d &r, const object &hit_obj, double hit_t, random_uv_gen_3d &ruvg) const override; }; class material_diffuse_hemispherical : public material { double albedo; public: explicit material_diffuse_hemispherical(double albedo); bool scatter(ray3d &r, const object &hit_obj, double hit_t, random_uv_gen_3d &ruvg) const override; }; #endif //RT_MATERIAL_H