#include "cub3d.h"

int *kill_prog(t_structure_main *w) {
    mlx_destroy_window(w->s_win.mlx, w->s_win.win);
    mlx_destroy_image(w->s_win.mlx, w->s_img.buffer);
    mlx_destroy_image(w->s_win.mlx, w->s_img.img_player);
    mlx_destroy_image(w->s_win.mlx, w->s_img.img_wall);
    mlx_destroy_image(w->s_win.mlx, w->s_img.pedro_wall);

    // Libérer les images de roomadslam
    int i = -1;
    while (++i <= 10)
        mlx_destroy_image(w->s_win.mlx, w->s_img.roomadslam[i]);

    // Libérer la carte si elle a été allouée
    if (w->s_map.map) {
        free(w->s_map.map);
        w->s_map.map = NULL; // Sécurité supplémentaire après la libération
    }

    mlx_destroy_display(w->s_win.mlx);
    free(w->s_win.mlx);
    exit(0);
    return (0);
}

void move(int key, t_structure_main *w) {
    int xo = 0;
    if (w->s_player.pdx < 0) { xo = -w->s_map.mapS / 2; } else { xo = w->s_map.mapS / 2; }
    int yo = 0;
    if (w->s_player.pdy < 0) { yo = -w->s_map.mapS / 2; } else { yo = w->s_map.mapS / 2; }

    // Convertir la position du joueur en coordonnées de grille
    int ipx = w->s_player.px / w->s_map.mapS;
    int ipy = w->s_player.py / w->s_map.mapS;

    // Calculer les positions potentielles après le mouvement
    int ipx_add_xo = (w->s_player.px + xo) / w->s_map.mapS;
    int ipy_add_yo = (w->s_player.py + yo) / w->s_map.mapS;

    int ipx_sub_xo = (w->s_player.px - xo) / w->s_map.mapS;
    int ipy_sub_yo = (w->s_player.py - yo) / w->s_map.mapS;

    // Déplacement vers l'avant
    if (key == 119) {
        if (w->s_map.map[ipy * w->s_map.mapX + ipx_add_xo] == '0') { w->s_player.px += w->s_player.pdx; }
        if (w->s_map.map[ipy_add_yo * w->s_map.mapX + ipx] == '0') { w->s_player.py += w->s_player.pdy; }
    }
    // Déplacement vers la droite
    else if (key == 100) {
        if (w->s_map.map[ipy * w->s_map.mapX + ipx_add_xo] == '0') { w->s_player.px += cos(w->s_player.pa + M_PI_2) * 5; }
        if (w->s_map.map[ipy_add_yo * w->s_map.mapX + ipx] == '0') { w->s_player.py += sin(w->s_player.pa + M_PI_2) * 5; }
    }
    // Déplacement vers l'arrière
    else if (key == 115) {
        if (w->s_map.map[ipy * w->s_map.mapX + ipx_sub_xo] == '0') { w->s_player.px -= w->s_player.pdx; }
        if (w->s_map.map[ipy_sub_yo * w->s_map.mapX + ipx] == '0') { w->s_player.py -= w->s_player.pdy; }
    }
    // Déplacement vers la gauche
    else if (key == 97) {
        if (w->s_map.map[ipy * w->s_map.mapX + ipx_sub_xo] == '0') { w->s_player.px += cos(w->s_player.pa - M_PI_2) * 5; }
        if (w->s_map.map[ipy_sub_yo * w->s_map.mapX + ipx] == '0') { w->s_player.py += sin(w->s_player.pa - M_PI_2) * 5; }
    }
}


int	deal_key(int key, t_structure_main *w)
{
	//printf("key pressed = %d\n", key);
	if (key == 65307)
		kill_prog(w);
	else if (key == 65361)
	{
		w->s_player.pa -= 3*((PI/3)/240);
		if (w->s_player.pa < 0)
			w->s_player.pa += 2 * PI;
		w->s_player.pdx = cos(w->s_player.pa) * 5;
		w->s_player.pdy = sin(w->s_player.pa) * 5;
	}
	else if (key == 65363)
	{
		w->s_player.pa += 3*((PI/3)/240);
		if (w->s_player.pa > 2 * PI)
			w->s_player.pa -= 2 * PI;
		w->s_player.pdx = cos(w->s_player.pa) * 5;
		w->s_player.pdy = sin(w->s_player.pa) * 5;
	}
	else if (key == 65362)
		;
	else if (key == 65364)
		;
	else if (key == 119 || key == 100 || key == 115 || key == 97) // w, d, s, a
		move(key,w);
	else if (key == 114)
		;
	else if (key == 102)
		;
	else
		return (key);
	return (key);
}