/* ************************************************************************** */ /* */ /* ::: :::::::: */ /* part1.c :+: :+: :+: */ /* +:+ +:+ +:+ */ /* By: tomoron +#+ +:+ +#+ */ /* +#+#+#+#+#+ +#+ */ /* Created: 2024/07/17 23:03:36 by tomoron #+# #+# */ /* Updated: 2024/12/17 03:44:38 by tomoron ### ########.fr */ /* */ /* ************************************************************************** */ #include #include #include #include "libft/libft.h" typedef struct s_pos { int x; int y; } t_pos; typedef struct s_vis { t_pos pos; int dir[2]; struct s_vis *next; } t_vis; typedef struct s_lst { t_pos pos; uint32_t score; int dir[2]; struct s_lst *next; } t_lst; void *create_map(char **map, uint8_t fill, int bloc_size) { int width; int height; int i; void **res; height = 0; while(map[height]) height++; width = 0; while(map[0][width]) width++; res = malloc((height + 1) * sizeof(void *)); i = 0; while(i < height) { res[i] = malloc((width + 1) * bloc_size); ft_memset(res[i], fill, width * bloc_size); ((char **)res)[i][width * bloc_size] = 0; i++; } return(res); } void get_char(char **map, t_pos *pos, char c) { pos->y = 0; while(map[pos->y]) { pos->x = 0; while(map[pos->y][pos->x]) { if(map[pos->y][pos->x] == c) return; pos->x++; } pos->y++; } } int is_visited(t_vis *vis, t_pos pos, int dir[2]) { while(vis) { if(vis->pos.x == pos.x && vis->pos.y == pos.y && vis->dir[0] == dir[0] && vis->dir[1] == dir[1]) return(1); vis = vis->next; } return(0); } int get_new_pos(t_lst **lst, t_vis *vis, t_pos *pos, uint32_t *score, int *dir) { t_lst *cur; t_lst *sel; t_lst *p_sel; t_lst *prev; uint32_t min; if(!*lst) return(0); cur = *lst; sel = 0; p_sel = 0; prev = 0; min = -1; while(cur) { if(cur->score < min) { sel = cur; p_sel = prev; min = cur->score; } prev = cur; cur = cur->next; } if(*lst && sel == *lst) *lst = (*lst)->next; if(p_sel) p_sel->next = sel->next; sel->next = 0; *score = sel->score; pos->x = sel->pos.x; pos->y = sel->pos.y; dir[0] = sel->dir[0]; dir[1] = sel->dir[1]; free(sel); if(is_visited(vis, *pos, dir)) get_new_pos(lst, vis, pos, score, dir); return(1); } void visited_add(t_vis **visited, t_pos *pos, int dir[2]) { t_vis *new; new = malloc(sizeof(t_vis)); new->dir[0] = dir[0]; new->dir[1] = dir[1]; new->pos.x = pos->x; new->pos.y = pos->y; new->next = *visited; *visited = new; } void add_lst(t_lst **lst, uint32_t score, t_pos pos, int dir[2]) { t_lst *new; new = malloc(sizeof(t_lst)); new->dir[0] = dir[0]; new->dir[1] = dir[1]; new->pos.x = pos.x; new->pos.y = pos.y; new->score = score; new->next = *lst; *lst = new; } int *rotate_dir(int dir[2], int inv, int *res) { res[0] = 0; res[1] = 0; if(dir[0]) res[1] = dir[0]; if(dir[1]) res[0] = dir[1]; if(inv) { res[0] = -res[0]; res[1] = -res[1]; } return(res); } uint32_t dijkstra(char **map, t_pos *pos) { int dir[2]; int tmp[2]; t_vis *visited; t_lst *lst; uint32_t score; visited = 0; lst = 0; add_lst(&lst, 0, *pos, (int [2]){0, 1}); while(get_new_pos(&lst, visited, pos, &score, dir)) { visited_add(&visited, pos, dir); if(map[pos->y][pos->x] == '#') continue; if(map[pos->y][pos->x] == 'E') return(score); add_lst(&lst, score + 1, (t_pos){pos->x + dir[1], pos->y + dir[0]}, dir); rotate_dir(dir, 0, tmp); add_lst(&lst, score + 1000, *pos, tmp); rotate_dir(dir, 1, tmp); add_lst(&lst, score + 1000, *pos, tmp); } return(0); } long int resolve_part1(char *input, char **split) { (void)input; t_pos pos; get_char(split, &pos, 'S'); return(dijkstra(split, &pos)); }