nuclear@10: /* nuclear@10: libvmath - a vector math library nuclear@10: Copyright (C) 2004-2015 John Tsiombikas nuclear@10: nuclear@10: This program is free software: you can redistribute it and/or modify nuclear@10: it under the terms of the GNU Lesser General Public License as published nuclear@10: by the Free Software Foundation, either version 3 of the License, or nuclear@10: (at your option) any later version. nuclear@10: nuclear@10: This program is distributed in the hope that it will be useful, nuclear@10: but WITHOUT ANY WARRANTY; without even the implied warranty of nuclear@10: MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the nuclear@10: GNU Lesser General Public License for more details. nuclear@10: nuclear@10: You should have received a copy of the GNU Lesser General Public License nuclear@10: along with this program. If not, see . nuclear@10: */ nuclear@10: nuclear@10: #ifdef __cplusplus nuclear@10: extern "C" { nuclear@10: #endif /* __cplusplus */ nuclear@10: nuclear@10: static inline ray_t ray_cons(vec3_t origin, vec3_t dir) nuclear@10: { nuclear@10: ray_t r; nuclear@10: r.origin = origin; nuclear@10: r.dir = dir; nuclear@10: return r; nuclear@10: } nuclear@10: nuclear@10: #ifdef __cplusplus nuclear@10: } nuclear@10: nuclear@10: inline Ray reflect_ray(const Ray &inray, const Vector3 &norm) nuclear@10: { nuclear@10: Ray ray = inray; nuclear@10: ray.iter--; nuclear@10: ray.dir = ray.dir.reflection(norm); nuclear@10: return ray; nuclear@10: } nuclear@10: nuclear@10: inline Ray refract_ray(const Ray &inray, const Vector3 &norm, scalar_t mat_ior, bool entering, scalar_t ray_mag) nuclear@10: { nuclear@10: Ray ray = inray; nuclear@10: ray.iter--; nuclear@10: nuclear@10: scalar_t ior = ray.calc_ior(entering, mat_ior); nuclear@10: nuclear@10: if(entering) { nuclear@10: ray.enter(mat_ior); nuclear@10: } else { nuclear@10: ray.leave(); nuclear@10: } nuclear@10: nuclear@10: if(ray_mag < 0.0) { nuclear@10: ray_mag = ray.dir.length(); nuclear@10: } nuclear@10: ray.dir = (ray.dir / ray_mag).refraction(norm, ior) * ray_mag; nuclear@10: nuclear@10: /* check TIR */ nuclear@10: if(dot_product(ray.dir, norm) > 0.0) { nuclear@10: if(entering) { nuclear@10: ray.leave(); nuclear@10: } else { nuclear@10: ray.enter(mat_ior); nuclear@10: } nuclear@10: } nuclear@10: return ray; nuclear@10: } nuclear@10: #endif /* __cplusplus */