diff options
author | Julian T <julian@jtle.dk> | 2020-03-09 15:44:21 +0100 |
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committer | Julian T <julian@jtle.dk> | 2020-03-09 15:44:21 +0100 |
commit | 0262431a3c78738a0bf44d6f4e54b0942651f59e (patch) | |
tree | 1e785d556ea6beef2633dcc554f628a975a72ec9 /ray.c | |
parent | 0b61f67456ec43f8553b199c4f524436ef467259 (diff) |
Added redundant lambert stufflambert
Diffstat (limited to 'ray.c')
-rw-r--r-- | ray.c | 54 |
1 files changed, 42 insertions, 12 deletions
@@ -129,7 +129,9 @@ object_t *ray_cast(space_t *s, ray_t *r, COORD_T *dist_ret, bool chk, COORD_T ch return smallest; } -static void ray_calc_light(space_t *s, color_t *dest, object_t *o, vector_t *N, vector_t *eye, vector_t *point) +// Calculates the phong lightning at point from position eye. +// N is the normal vector at object o +static void light_phong(space_t *s, color_t *dest, object_t *o, vector_t *N, vector_t *eye, vector_t *point) { ray_t r; r.start = point; @@ -142,8 +144,7 @@ static void ray_calc_light(space_t *s, color_t *dest, object_t *o, vector_t *N, vector_scale_inv(&V, &V, vector_len(&V)); // Cast light rays - light_t *light = s->lights; - while (light) { + for (light_t *light = s->lights; light; light = light->next) { vector_t l; // Calculate distance to light @@ -157,7 +158,6 @@ static void ray_calc_light(space_t *s, color_t *dest, object_t *o, vector_t *N, r.direction = &l; object_t *obs = ray_cast(s, &r, NULL, true, d); if (obs) { - light = light->next; continue; } @@ -165,7 +165,7 @@ static void ray_calc_light(space_t *s, color_t *dest, object_t *o, vector_t *N, color_t tmp; COORD_T cl = vector_dot(&l, N); if (cl > 0) { - color_scale(&tmp, light->defuse, cl * o->m->defuse); + color_scale(&tmp, light->defuse, cl * o->m->phong.defuse); color_add(dest, &tmp, dest); } @@ -178,12 +178,40 @@ static void ray_calc_light(space_t *s, color_t *dest, object_t *o, vector_t *N, // Add it to the light cl = 1 * vector_dot(&R, &V); if (cl > 0) { - cl = pow(cl, o->m->shine); - color_scale(&tmp, light->specular, cl * o->m->specular); + cl = pow(cl, o->m->phong.shine); + color_scale(&tmp, light->specular, cl * o->m->phong.specular); color_add(dest, &tmp, dest); } - light = light->next; + } +} + +static void light_lambert(space_t *s, color_t *dest, object_t *o, vector_t *N, vector_t *eye, vector_t *point) +{ + vector_t l; + ray_t r = {start: point, direction: &l}; + + for (light_t *light = s->lights; light; light = light->next) { + // Calculate direction of lights + vector_sub(&l, light->post, point); + COORD_T d = vector_len(&l); + + // Normalize + vector_scale_inv(&l, &l, vector_len(&l)); + + // Find obstracles + object_t *obj = ray_cast(s, &r, NULL, true, d); + if (obj) { + continue; + } + + // Calculate lambert stuff + COORD_T cl = vector_dot(&l, N); + if (cl > 0) { + color_scale(&tmp, light->defuse, cl * o->m->phong.defuse); + color_add(dest, &tmp, dest); + } + ` } } @@ -202,17 +230,19 @@ int ray_trace_recur(space_t *s, color_t *dest, ray_t *ray, unsigned hop, COORD_T vector_t rdir, rstart; ray_t r = {start: &rstart, direction: &rdir}; + // Calculate hit point vector_scale(r.start, ray->direction, dist); vector_add(r.start, r.start, ray->start); - // Calculate normal vector + // Calculate normal vector at object vector_t N; obj_norm_at(o, &N, r.start); // Check if we should calculate light - if (o->m->defuse + o->m->specular > ZERO_APROX) { - // Add all light hitting o at r.start to c - ray_calc_light(s, &c, o, &N, ray->start, r.start); + switch (o->m->light_type) { + case LIGHT_PHONG: + light_phong(s, &c, o, &N, ray->start, r.start); + } // Calculate reflection vector |