// // Created by Keuin on 2022/4/15. // #include "vec.h" #include "material.h" #include "material_reflective.h" #include "tracelog.h" // perfectly-smooth reflective template<> bool material_reflective_::scatter(ray3d &r, const object &hit_obj, double hit_t, random_uv_gen_3d &ruvg) const { const auto hit_point = r.at(hit_t); const auto nv = hit_obj.normal_vector(hit_point); const auto reflected = nv.reflect(r.direction()); r.source(hit_point); r.direction(reflected); r.decay(albedo); const auto alive = dot(reflected, nv) > 0; #ifdef LOG_TRACE if (!alive) { TRACELOG(" absorbed (perfectly smooth material) (reflected: [%-10f,%-10f,%-10f], nv: [%-10f,%-10f,%-10f])\n", reflected.x, reflected.y, reflected.z, nv.x, nv.y, nv.z); } else { TRACELOG(" reflected (perfectly smooth material)\n"); } #endif return alive; } // fuzzy reflective template<> bool material_reflective_::scatter(ray3d &r, const object &hit_obj, double hit_t, random_uv_gen_3d &ruvg) const { const auto hit_point = r.at(hit_t); const auto nv = hit_obj.normal_vector(hit_point); const auto reflected = nv.reflect(r.direction()) + fuzzy_.f * ruvg.range01(); r.source(hit_point); r.direction(reflected.unit_vec()); r.decay(albedo); const auto alive = dot(reflected, nv) > 0; #ifdef LOG_TRACE if (!alive) { TRACELOG(" absorbed (fuzzy reflective material) (reflected: [%-10f,%-10f,%-10f], nv: [%-10f,%-10f,%-10f])\n", reflected.x, reflected.y, reflected.z, nv.x, nv.y, nv.z); } else { TRACELOG(" reflected (fuzzy reflective material)\n"); } #endif return alive; }