updated

2025-02-17 18:22:13 +01:00
parent 224c55611a
commit 8104118a08
3 changed files with 120 additions and 18 deletions
@@ -6,7 +6,7 @@
 /*   By: yantoine <yantoine@student.42.fr>          +#+  +:+       +#+        */
 /*                                                +#+#+#+#+#+   +#+           */
 /*   Created: 2025/02/13 20:02:36 by yantoine          #+#    #+#             */
-/*   Updated: 2025/02/17 18:08:03 by yantoine         ###   ########.fr       */
+/*   Updated: 2025/02/17 18:19:10 by yantoine         ###   ########.fr       */
 /*                                                                            */
 /* ************************************************************************** */

@@ -58,7 +58,6 @@ typdef struct s_calc
 	float	y;
 	float	t_cap;
 	float	t_bot;
-	float	dist;
 	float	t_top;
 	t_vec3	p;
 	t_vec3	cp;
@@ -6,26 +6,13 @@
 /*   By: yantoine <yantoine@student.42.fr>          +#+  +:+       +#+        */
 /*                                                +#+#+#+#+#+   +#+           */
 /*   Created: 2025/02/15 19:54:13 by yantoine          #+#    #+#             */
-/*   Updated: 2025/02/17 18:08:15 by yantoine         ###   ########.fr       */
+/*   Updated: 2025/02/17 18:21:13 by yantoine         ###   ########.fr       */
 /*                                                                            */
 /* ************************************************************************** */

 #include "miniRT.h"

-t_scene	parsing_cylinder(const char *line, t_scene scene)
-{
-	const char	**tokens = get_tokens_secure(scene, scene.numCylinders, MAX_CYLINDERS, 6);
-	scene.token_if_exit = tokens;
-	scene.cylinders[scene.numCylinders].center = parse_vector(tokens[1], scene);
-	scene.cylinders[scene.numCylinders].axis = parse_vector_normalize(tokens[2], scene);
-	scene.cylinders[scene.numCylinders].radius = parse_float(tokens[3], scene);
-	scene.cylinders[scene.numCylinders].height = parse_float(tokens[4], scene);
-	scene.cylinders[scene.numCylinders].color = parse_color(tokens[5], scene);
-	ft_free_array(tokens);
-	scene.numCylinders++;
-	return (scene);
-}
-
+/*
 float	intersectCylinder(Ray ray, Cylinder cy, t_vec3 *hitNormal)
 {
 	t_calc calc;
@@ -103,5 +90,116 @@ float	intersectCylinder(Ray ray, Cylinder cy, t_vec3 *hitNormal)
 		*hitNormal = (calc.proj > 0) ? calc.v : vec3_scale(calc.v, -1);
 	}
 	return calc.t_final;
+}*/
+
+t_scene	parsing_cylinder(const char *line, t_scene scene)
+{
+	const char	**tokens = get_tokens_secure(scene, scene.numCylinders, MAX_CYLINDERS, 6);
+	scene.token_if_exit = tokens;
+	scene.cylinders[scene.numCylinders].center = parse_vector(tokens[1], scene);
+	scene.cylinders[scene.numCylinders].axis = parse_vector_normalize(tokens[2], scene);
+	scene.cylinders[scene.numCylinders].radius = parse_float(tokens[3], scene);
+	scene.cylinders[scene.numCylinders].height = parse_float(tokens[4], scene);
+	scene.cylinders[scene.numCylinders].color = parse_color(tokens[5], scene);
+	ft_free_array(tokens);
+	scene.numCylinders++;
+	return (scene);
 }

+// Initialise les variables de calcul et les coefficients du polynôme d'intersection
+static int init_intersection(Ray ray, Cylinder cy, t_calc *calc) {
+    calc->d = ray.dir;
+    calc->oc = vec3_sub(ray.origin, cy.center);
+    calc->v = cy.axis;
+    calc->d_dot_v = vec3_dot(calc->d, calc->v);
+    calc->oc_dot_v = vec3_dot(calc->oc, calc->v);
+    calc->d_perp = vec3_sub(calc->d, vec3_scale(calc->v, calc->d_dot_v));
+    calc->oc_perp = vec3_sub(calc->oc, vec3_scale(calc->v, calc->oc_dot_v));
+    calc->a = vec3_dot(calc->d_perp, calc->d_perp);
+    calc->b = 2 * vec3_dot(calc->d_perp, calc->oc_perp);
+    calc->c = vec3_dot(calc->oc_perp, calc->oc_perp) - cy.radius * cy.radius;
+    calc->disc = calc->b * calc->b - 4 * calc->a * calc->c;
+    if (calc->disc < 0)
+        return -1;
+    calc->sqrtDisc = sqrtf(calc->disc);
+    calc->t0 = (-calc->b - calc->sqrtDisc) / (2 * calc->a);
+    calc->t1 = (-calc->b + calc->sqrtDisc) / (2 * calc->a);
+    return 0;
+}
+
+// Calcule l'intersection sur la surface latérale du cylindre
+static void compute_side_intersection(Ray ray, Cylinder cy, t_calc *calc) {
+    calc->t_side = -1;
+    if (calc->t0 > 1e-3f) {
+        calc->y = calc->oc_dot_v + calc->t0 * calc->d_dot_v;
+        if (fabs(calc->y) <= cy.height / 2.0f)
+            calc->t_side = calc->t0;
+    }
+    if (calc->t_side < 0 && calc->t1 > 1e-3f) {
+        calc->y = calc->oc_dot_v + calc->t1 * calc->d_dot_v;
+        if (fabs(calc->y) <= cy.height / 2.0f)
+            calc->t_side = calc->t1;
+    }
+}
+
+// Calcule l'intersection sur les capuchons supérieur et inférieur
+static void compute_cap_intersection(Ray ray, Cylinder cy, t_calc *calc) {
+    calc->t_cap = -1;
+    if (fabs(calc->d_dot_v) > 1e-6f) {
+        calc->t_bot = ((-cy.height / 2.0f) - calc->oc_dot_v) / calc->d_dot_v;
+        if (calc->t_bot > 1e-3f) {
+            calc->p = vec3_add(ray.origin, vec3_scale(calc->d, calc->t_bot));
+            calc->cp = vec3_sub(calc->p, cy.center);
+            calc->dist = vec3_length(vec3_sub(calc->cp, vec3_scale(calc->v, vec3_dot(calc->cp, calc->v))));
+            if (calc->dist <= cy.radius)
+                calc->t_cap = calc->t_bot;
+        }
+        calc->t_top = ((cy.height / 2.0f) - calc->oc_dot_v) / calc->d_dot_v;
+        if (calc->t_top > 1e-3f) {
+            calc->p = vec3_add(ray.origin, vec3_scale(calc->d, calc->t_top));
+            calc->cp = vec3_sub(calc->p, cy.center);
+            calc->dist = vec3_length(vec3_sub(calc->cp, vec3_scale(calc->v, vec3_dot(calc->cp, calc->v))));
+            if (calc->dist <= cy.radius && (calc->t_cap < 0 || calc->t_top < calc->t_cap))
+                calc->t_cap = calc->t_top;
+        }
+    }
+}
+
+// Sélectionne l'intersection la plus proche entre la surface latérale et les capuchons
+static float select_final_intersection(t_calc *calc) {
+    if (calc->t_side > 1e-3f && calc->t_cap > 1e-3f)
+        calc->t_final = (calc->t_side < calc->t_cap) ? calc->t_side : calc->t_cap;
+    else if (calc->t_side > 1e-3f)
+        calc->t_final = calc->t_side;
+    else
+        calc->t_final = calc->t_cap;
+    return (calc->t_final > 1e-3f) ? calc->t_final : -1;
+}
+
+// Calcule la normale au point d'intersection
+static void compute_hit_normal(Ray ray, Cylinder cy, t_calc *calc, t_vec3 *hitNormal) {
+    calc->hitPoint = vec3_add(ray.origin, vec3_scale(calc->d, calc->t_final));
+    calc->cp = vec3_sub(calc->hitPoint, cy.center);
+    calc->proj = vec3_dot(calc->cp, calc->v);
+    if (fabs(calc->proj) < cy.height / 2.0f - 1e-3f) {
+        calc->n = vec3_sub(calc->cp, vec3_scale(calc->v, calc->proj));
+        *hitNormal = vec3_normalize(calc->n);
+    } else {
+        *hitNormal = (calc->proj > 0) ? calc->v : vec3_scale(calc->v, -1);
+    }
+}
+
+// Fonction principale d'intersection du cylindre
+float intersectCylinder(Ray ray, Cylinder cy, t_vec3 *hitNormal) {
+    t_calc calc;
+    if (init_intersection(ray, cy, &calc) < 0)
+        return -1;
+    compute_side_intersection(ray, cy, &calc);
+    compute_cap_intersection(ray, cy, &calc);
+    if (select_final_intersection(&calc) < 0)
+        return -1;
+    compute_hit_normal(ray, cy, &calc, hitNormal);
+    return calc.t_final;
+}
+
+
@@ -102,6 +102,9 @@ color	miniRT.h	/^	t_vec3		color;$/;"	m	struct:s_cylinder	typeref:typename:t_vec3
 color	miniRT.h	/^	t_vec3		color;$/;"	m	struct:s_light	typeref:typename:t_vec3
 color	miniRT.h	/^	t_vec3		color;$/;"	m	struct:s_plane	typeref:typename:t_vec3
 color	miniRT.h	/^	t_vec3		color;$/;"	m	struct:s_sphere	typeref:typename:t_vec3
+compute_cap_intersection	parsing_cylinder.c	/^static void compute_cap_intersection(Ray ray, Cylinder cy, t_calc *calc) {$/;"	f	typeref:typename:void	file:
+compute_hit_normal	parsing_cylinder.c	/^static void compute_hit_normal(Ray ray, Cylinder cy, t_calc *calc, t_vec3 *hitNormal) {$/;"	f	typeref:typename:void	file:
+compute_side_intersection	parsing_cylinder.c	/^static void compute_side_intersection(Ray ray, Cylinder cy, t_calc *calc) {$/;"	f	typeref:typename:void	file:
 cp	miniRT.h	/^	t_vec3	cp;$/;"	m	struct:s_calc	typeref:typename:t_vec3
 create_scene	scene.c	/^t_scene	create_scene(void)$/;"	f	typeref:typename:t_scene
 cylinders	miniRT.h	/^	t_cylinder	cylinders[MAX_CYLINDERS];$/;"	m	struct:s_scene	typeref:typename:t_cylinder[]
@@ -117,7 +120,8 @@ fov	raytracer_formatted.c	/^float					fov = 90.0f;$/;"	v	typeref:typename:float
 get_tokens_secure	parsing_utils.c	/^inline	char	**get_tokens_secure(t_scene scene, const int numObject, const int numObjectMax, cons/;"	f	typeref:typename:char **
 height	miniRT.h	/^	float		height;$/;"	m	struct:s_cylinder	typeref:typename:float
 hitPoint	miniRT.h	/^	t_vec3	hitPoint;$/;"	m	struct:s_calc	typeref:typename:t_vec3
-intersectCylinder	parsing_cylinder.c	/^float	intersectCylinder(Ray ray, Cylinder cy, t_vec3 *hitNormal)$/;"	f	typeref:typename:float
+init_intersection	parsing_cylinder.c	/^static int init_intersection(Ray ray, Cylinder cy, t_calc *calc) {$/;"	f	typeref:typename:int	file:
+intersectCylinder	parsing_cylinder.c	/^float intersectCylinder(Ray ray, Cylinder cy, t_vec3 *hitNormal) {$/;"	f	typeref:typename:float
 intersectCylinder	raytracer_formatted.c	/^float	intersectCylinder(Ray ray, Cylinder cy, t_vec3 *hitNormal)$/;"	f	typeref:typename:float
 intersectPlane	parsing_plane.c	/^float	intersectPlane(Ray ray, Plane p, t_vec3 *hitNormal)$/;"	f	typeref:typename:float
 intersectPlane	raytracer_formatted.c	/^float	intersectPlane(Ray ray, Plane p, t_vec3 *hitNormal)$/;"	f	typeref:typename:float
@@ -171,6 +175,7 @@ s_ray	miniRT.h	/^typedef struct s_ray$/;"	s
 s_scene	miniRT.h	/^typedef struct s_scene$/;"	s
 s_sphere	miniRT.h	/^typedef struct s_sphere$/;"	s
 s_vec3	miniRT.h	/^typedef struct s_vec3$/;"	s
+select_final_intersection	parsing_cylinder.c	/^static float select_final_intersection(t_calc *calc) {$/;"	f	typeref:typename:float	file:
 spheres	miniRT.h	/^	t_sphere	spheres[MAX_SPHERES];$/;"	m	struct:s_scene	typeref:typename:t_sphere[]
 sqrtDisc	miniRT.h	/^	float	sqrtDisc;$/;"	m	struct:s_calc	typeref:typename:float
 t	miniRT.h	/^	float	t;$/;"	m	struct:s_calc	typeref:typename:float