possibility to choose angle of view

srcs/cube3d.c

@@ -53,7 +53,7 @@ int		main(int ac, char **av)
 	// infinite loop that waits for events to occurs
 */
 
-//	mlx_loop_hook(game->mlx_ptr, hook_action, game);
+	mlx_loop_hook(game->mlx_ptr, hook_action, game);
 	mlx_loop(game->mlx_ptr);
 	return (0);
 }

srcs/draw/draw.c

@@ -75,7 +75,9 @@ void	draw_line(t_game *game, t_vec vec, int color)
 	{
 		t_coord	incr;
 		t_coord	pos;
+		int		cell;
 	
+		cell = game->map.cell;
 		incr.x = 0;
 		pos.x = 0;
 		pos.y = 0;
@@ -85,19 +87,19 @@ void	draw_line(t_game *game, t_vec vec, int color)
 			while ((game->map.content)[incr.x][incr.y])
 			{
 				if ((game->map.content)[incr.x][incr.y] == '1' )
-					draw_square(game, pos, 0x00999999, 0x00000000, CELL, 0);
+					draw_square(game, pos, 0x00999999, 0x00000000, cell, 0);
 				else
-					draw_square(game, pos, 0x00555555, 0x00333333, CELL, 0);
+					draw_square(game, pos, 0x00555555, 0x00333333, cell, 0);
 				(incr.y)++;
-				pos.x += CELL;
+				pos.x += cell;
 			}
 			(incr.x)++;
 			pos.x = 0;
-			pos.y += CELL;
+			pos.y += cell;
 		}
-		pos.x = game->plr.pos.x - CELL / 2;
-		pos.y = game->plr.pos.y - CELL / 2;
-		draw_square(game, pos, 0x00999900, 0x00330033, CELL, 1);
+		pos.x = game->plr.pos.x - cell / 2;
+		pos.y = game->plr.pos.y - cell / 2;
+		draw_square(game, pos, 0x00999900, 0x00330033, cell, 1);
 	}
 
 	static void	draw_screen(t_game *game, t_rcast *rcast)

srcs/draw/ray_intersect.c

@@ -12,8 +12,8 @@ static void	init_raycast(t_rcast *rcast, t_vec *ray)
 	if (ray->start.y < ray->end.y)
 		rcast->ray_sign_y = -1;
 	// cell position of ray
-	rcast->cell_x = ray->start.x / CELL;
-	rcast->cell_y = ray->start.y / CELL;
+	rcast->cell_x = ray->start.x / rcast->cell;
+	rcast->cell_y = ray->start.y / rcast->cell;
 	// slope of ray
 	rcast->slope_x = ray->end.x - ray->start.x;
 	rcast->slope_y = ray->end.y - ray->start.y;
@@ -21,23 +21,23 @@ static void	init_raycast(t_rcast *rcast, t_vec *ray)
 	rcast->next_cell_x = -rcast->ray_sign_x;
 	rcast->next_cell_y = -rcast->ray_sign_y;
 	// ray steps in both axis
-	rcast->ray_step_x = ft_abs(CELL * rcast->slope_y);
-	rcast->ray_step_y = ft_abs(CELL * rcast->slope_x);
+	rcast->ray_step_x = ft_abs(rcast->cell * rcast->slope_y);
+	rcast->ray_step_y = ft_abs(rcast->cell * rcast->slope_x);
 }
 
 static void	init_first_step(t_rcast *rcast, t_vec *ray)
 {
 	// first next time ray cross grid
-	rcast->first_next_x = ray->start.x % CELL;
+	rcast->first_next_x = ray->start.x % rcast->cell;
 	if (rcast->first_next_x && rcast->ray_sign_x < 0)
-		rcast->first_next_x = CELL - rcast->first_next_x;
+		rcast->first_next_x = rcast->cell - rcast->first_next_x;
 	if (!rcast->first_next_x && rcast->ray_sign_x < 0)
-		rcast->first_next_x = CELL;
-	rcast->first_next_y = ray->start.y % CELL;
+		rcast->first_next_x = rcast->cell;
+	rcast->first_next_y = ray->start.y % rcast->cell;
 	if (rcast->first_next_y && rcast->ray_sign_y < 0)
-		rcast->first_next_y = CELL - rcast->first_next_y;
+		rcast->first_next_y = rcast->cell - rcast->first_next_y;
 	if (!rcast->first_next_y && rcast->ray_sign_y < 0)
-		rcast->first_next_y = CELL;
+		rcast->first_next_y = rcast->cell;
 	rcast->next_x = ft_abs(rcast->first_next_x * rcast->slope_y);
 	rcast->next_y = ft_abs(rcast->first_next_y * rcast->slope_x);
 }
@@ -62,9 +62,9 @@ static void	calcul_ray_end(t_rcast *rcast, t_vec *ray)
 {
 	if (rcast->is_x)
 	{
-		ray->end.x = rcast->cell_x * CELL;
+		ray->end.x = rcast->cell_x * rcast->cell;
 		if (rcast->ray_sign_x == 1)
-			ray->end.x += CELL;
+			ray->end.x += rcast->cell;
 		if (rcast->slope_x)
 		{
 			rcast->ratio = (double)(ray->end.x - ray->start.x) / (double)rcast->slope_x;
@@ -73,9 +73,9 @@ static void	calcul_ray_end(t_rcast *rcast, t_vec *ray)
 	}
 	else
 	{
-		ray->end.y = rcast->cell_y * CELL;
+		ray->end.y = rcast->cell_y * rcast->cell;
 		if (rcast->ray_sign_y == 1)
-			ray->end.y += CELL;
+			ray->end.y += rcast->cell;
 		if (rcast->slope_y)
 		{
 			rcast->ratio = (double)(ray->end.y - ray->start.y) / (double)rcast->slope_y;
@@ -89,7 +89,7 @@ void	ray_intersect(t_game *game, t_rcast *rcast, t_vec *ray)
 	ray->start.x = rcast->ray.start.x + game->plr.pos.x;
 	ray->start.y = rcast->ray.start.y + game->plr.pos.y;
 	ray->end.x = rcast->ray.end.x + game->plr.pos.x;
-	ray->end.x += rcast->ray_nb * SCREEN_SIZE / SCREEN_DEF;
+	ray->end.x += rcast->ray_nb;
 	ray->end.y = rcast->ray.end.y + game->plr.pos.y;
 	rotate(&(game->plr), &(ray->end));
 	init_raycast(rcast, ray);

srcs/draw/raycast.c

@@ -5,7 +5,7 @@ void	raycast(t_game *game, t_rcast *rcast)
 	t_vec	ray;
 
 	rcast->ray_nb = 0;
-	while (rcast->ray_nb <= SCREEN_DEF)
+	while (rcast->ray_nb <= rcast->screen_def)
 	{
 		ray_intersect(game, rcast, &ray);
 

srcs/hook/keyhook.c

@@ -1,12 +1,12 @@
 #include "cube3d.h"
 
 // temp, to map all the keys on linux and mac
-static int		print_keycode(int keycode)
-{
-	ft_putnbr_fd(keycode, 1);
-	ft_putchar_fd('\n', 1);
-	return(0);
-}
+	static int		print_keycode(int keycode)
+	{
+		ft_putnbr_fd(keycode, 1);
+		ft_putchar_fd('\n', 1);
+		return(0);
+	}
 // temp end
 
 int	hook_action(t_game *game)
@@ -38,7 +38,7 @@ int		keypress(int keycode, t_game *game)
 	unsigned	i;
 
 	// temp
-	print_keycode(keycode);
+		print_keycode(keycode);
 	// temp end
 
 	i = 0;
@@ -48,7 +48,7 @@ int		keypress(int keycode, t_game *game)
 		game->k_hook[i] = 0;
 	else if (i < MAX_NB_KEY)
 		game->k_hook[i] = keycode;
-	hook_action(game);
+//	hook_action(game);
 	return (0);
 }
 

srcs/init/init_struct.c

@@ -12,6 +12,7 @@ static void	init_map(t_map *map)
 {
 	map->size_x = 24;
 	map->size_y = 24;
+	map->cell = CELL;
 	// map
 	int	tmp[24][24] = {
 		{1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1},
@@ -64,21 +65,26 @@ static void	init_map(t_map *map)
 
 static void	init_raycast(t_rcast *rcast)
 {
-	// draw screen dist
+	double	dist;
+
+	dist = (SCREEN_FOCAL / 2) * M_PI / 180;
+	dist = cos(dist) * ((SCREEN_DEF / 2) / sin(dist));
+	rcast->screen_def = SCREEN_DEF;
+	// screen dist
 	rcast->screen_dist.start.x = 0;
 	rcast->screen_dist.start.y = 0;
 	rcast->screen_dist.end.x = 0;
-	rcast->screen_dist.end.y = -SCREEN_DIST;
-	// draw screen size
-	rcast->screen_size.start.x = -SCREEN_SIZE / 2;
-	rcast->screen_size.start.y = -SCREEN_DIST;
-	rcast->screen_size.end.x = SCREEN_SIZE / 2;
-	rcast->screen_size.end.y = -SCREEN_DIST;
-	// draw ray
+	rcast->screen_dist.end.y = -dist;
+	// screen size
+	rcast->screen_size.start.x = -SCREEN_DEF / 2;
+	rcast->screen_size.start.y = -dist;
+	rcast->screen_size.end.x = SCREEN_DEF / 2;
+	rcast->screen_size.end.y = -dist;
+	// first ray
 	rcast->ray.start.x = 0;
 	rcast->ray.start.y = 0;
-	rcast->ray.end.x = -SCREEN_SIZE / 2;
-	rcast->ray.end.y = -SCREEN_DIST;
+	rcast->ray.end.x = -SCREEN_DEF / 2;
+	rcast->ray.end.y = -dist;
 }
 
 static void	init_plr(t_plr *plr)
@@ -118,6 +124,7 @@ t_game	*init_game(void)
 	ft_bzero(&game->k_hook, sizeof(game->k_hook));
 	// raycasting
 	init_raycast(&(game->rcast));
+	game->rcast.cell = game->map.cell;
 	// create image and get its data address
 	init_img(&(game->map_img), game);
 	return (game);

srcs/player/player_limits.c

@@ -20,8 +20,8 @@ int	plr_out_limits(t_game *game, int x, int y)
 
 	xmax = game->map_img.sizel / (game->map_img.bpp / 8);
 	ymax = game->map_win.size_y;
-	cell_x = x / CELL;
-	cell_y = y / CELL;
+	cell_x = x / game->map.cell;
+	cell_y = y / game->map.cell;
 	if (is_wall(game, cell_x, cell_y))
 		return (1);
 	if (x < 0 || y < 0 || x > xmax || y > ymax)