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#include <lcom/lcf.h>
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#include "ent.h"
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#include "graph.h"
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#include "sprite.h"
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#include "utils.h"
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#include "rectangle.h"
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#include "text.h"
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#include "errors.h"
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#include "queue.h"
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#include <math.h>
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#define GREEN_HEALTH_COLOR      0x009900
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static double scale = 1.0;
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static double x_origin = 0;
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static double y_origin = 0;
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void (ent_set_scale) (double n){ scale = n; }
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void (ent_set_origin)(double x, double y){ x_origin = x; y_origin = y; }
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double (ent_get_scale)  (void){ return scale; }
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double (ent_get_XLength)(void){ return graph_get_XRes()/scale; }
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double (ent_get_YLength)(void){ return graph_get_YRes()/scale; }
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struct gunner{
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    double x, y; //real position
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    double spawn_x, spawn_y;
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    sprite_t *dude;
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    sprite_t *weapon;
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    double health, current_health;
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    rectangle_t *green_bar, *red_bar;
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    text_t *txt;
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    uint16_t type;
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    int team;
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};
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gunner_t* (gunner_ctor)(basic_sprite_t *dude, basic_sprite_t *weapon, uint16_t type, int team){
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    gunner_t *ret = malloc(sizeof(gunner_t));
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    if(ret == NULL) return NULL;
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    ret->spawn_x = 0.0;
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    ret->spawn_y = 0.0;
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    ret->x = 0.0;
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    ret->y = 0.0;
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    ret->health = 100;
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    ret->current_health = ret->health;
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    ret->green_bar = rectangle_ctor(0,0,0,0);
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    ret->red_bar   = rectangle_ctor(0,0,0,0);
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    ret->txt = text_ctor(font_get_default(), "");
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    ret->type = type;
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    ret->team = team;
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    ret->dude   = sprite_ctor(dude  );
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    ret->weapon = sprite_ctor(weapon);
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    if(ret->txt == NULL || ret->dude == NULL || ret->weapon == NULL || ret->green_bar == NULL || ret->red_bar == NULL){
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        gunner_dtor(ret);
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        return NULL;
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    }
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    rectangle_set_fill_color(ret->green_bar, GREEN_HEALTH_COLOR);
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    rectangle_set_fill_color(ret->red_bar  , GRAPH_RED         );
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    text_set_size(ret->txt, 15);
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    text_set_valign(ret->txt, text_valign_center);
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    text_set_halign(ret->txt, text_halign_center);
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    text_set_color(ret->txt, GRAPH_WHITE);
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    return ret;
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}
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void (gunner_dtor)(gunner_t *p){
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    if(p == NULL) return;
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    sprite_dtor(p->dude);
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    sprite_dtor(p->weapon);
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    rectangle_dtor(p->green_bar);
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    rectangle_dtor(p->red_bar);
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    text_dtor(p->txt);
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    free(p);
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}
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void (gunner_set_pos)  (gunner_t *p, double x, double y){ p->x = x; p->y = y; }
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void (gunner_set_spawn)  (gunner_t *p, double x, double y){ p->spawn_x = x; p->spawn_y = y; }
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void (gunner_set_angle)(gunner_t *p, double angle      ){
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    sprite_set_angle(p->dude  , angle);
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    sprite_set_angle(p->weapon, angle);
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}
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void (gunner_set_health)        (gunner_t *p, double health) {
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    if (health < 0) health = 0;
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    p->health = health;
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}
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void (gunner_set_curr_health)   (gunner_t *p, double health) {
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    if (health < 0) health = 0;
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    p->current_health = health;
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}
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double  (gunner_get_x)              (const gunner_t *p){ return p->x; }
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double  (gunner_get_y)              (const gunner_t *p){ return p->y; }
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double  (gunner_get_spawn_x)        (const gunner_t *p){ return p->spawn_x; }
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double  (gunner_get_spawn_y)        (const gunner_t *p){ return p->spawn_y; }
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double  (gunner_get_angle)          (const gunner_t *p){ return sprite_get_angle(p->dude); }
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double  (gunner_get_health)         (const gunner_t *p){ return p->health; }
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double  (gunner_get_curr_health)    (const gunner_t *p){ return p->current_health; }
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int16_t (gunner_get_x_screen)       (const gunner_t *p){ return (int16_t)((p->x-x_origin)*scale); }
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int16_t (gunner_get_y_screen)       (const gunner_t *p){ return (int16_t)((p->y-y_origin)*scale); }
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uint16_t (gunner_get_type)          (const gunner_t *p){ return p->type; }
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int     (gunner_get_team)           (const gunner_t *p){ return p->team; }
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void (gunner_draw)(gunner_t *p){
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    const int16_t x_screen = gunner_get_x_screen(p);
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    const int16_t y_screen = gunner_get_y_screen(p);
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    sprite_set_pos  (p->dude  , x_screen, y_screen);
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    sprite_set_pos  (p->weapon, x_screen, y_screen);
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    sprite_set_scale(p->dude  , scale);
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    sprite_set_scale(p->weapon, scale);
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    sprite_draw     (p->weapon);
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    sprite_draw     (p->dude  );
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    gunner_draw_health(p);
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}
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void (gunner_draw_health)(const gunner_t *p) {
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    const uint16_t w = sprite_get_w(p->dude);
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    const uint16_t h = sprite_get_h(p->dude);
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    int16_t x = gunner_get_x_screen(p) - w/2;
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    int16_t y = gunner_get_y_screen(p) - h/2 - 10;
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    double curr_health = gunner_get_curr_health(p);
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    double health = gunner_get_health(p);
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    double perc = curr_health/health;
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    rectangle_set_pos(p->green_bar, x, y); rectangle_set_size(p->green_bar, (uint16_t)(w*perc), 10);
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    rectangle_set_pos(p->red_bar, x+(int16_t)(w*perc), y); rectangle_set_size(p->red_bar, (uint16_t)(w*(1.0-perc)), 10);
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    char buf[20]; sprintf(buf, "%d/%d", (int)p->current_health, (int)p->health);
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    text_set_string(p->txt, buf);
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    text_set_pos(p->txt, x+w/2, y+10/2);
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    rectangle_draw(p->green_bar);
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    rectangle_draw(p->red_bar);
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    text_draw(p->txt);
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}
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void (gunner_draw_list)(list_t *shooter_list) {
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    if (list_size(shooter_list) == 0) return;
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    list_node_t *it = list_begin(shooter_list);
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    while (it != list_end(shooter_list)) {
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        gunner_draw(*(gunner_t**)list_node_val(it));
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        it = list_node_next(it);
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    }
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}
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double (gunner_distance)(const gunner_t *p1, const gunner_t *p2){
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    double dx = gunner_get_x(p1) - gunner_get_x(p2);
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    double dy = gunner_get_y(p1) - gunner_get_y(p2);
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    return sqrt(dx*dx+dy*dy);
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}
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int (gunner_collides_gunner)(const gunner_t *p1, const gunner_t *p2) {
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    if (p1 == p2) return false;
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    double p1_radius = max_d(sprite_get_w(p1->dude), sprite_get_h(p1->dude))/2.0;
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    double p2_radius = max_d(sprite_get_w(p2->dude), sprite_get_h(p2->dude))/2.0;
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    double distance = gunner_distance(p1, p2);
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    return distance <= p1_radius+p2_radius;
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}
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struct bullet{
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    const gunner_t *shooter;
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    double x, y; //real position
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    double vx, vy;
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    sprite_t *b;
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    double damage;
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};
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bullet_t* (bullet_ctor)(const gunner_t *shooter, const basic_sprite_t *b, double x, double y, double vx, double vy){
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    bullet_t *ret = malloc(sizeof(bullet_t));
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    if(ret == NULL) return NULL;
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    ret->shooter = shooter;
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    ret-> x =  x;
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    ret-> y =  y;
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    ret->vx = vx;
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    ret->vy = vy;
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    ret->damage = 10;
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    ret->b = sprite_ctor(b);
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    if(ret->b == NULL){
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        bullet_dtor(ret);
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        return NULL;
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    }
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    double angle = atan2(-ret->vy, ret->vx);
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    sprite_set_angle(ret->b, angle-M_PI_2);
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    return ret;
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}
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void (bullet_dtor)(bullet_t *p){
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    if(p == NULL) return;
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    sprite_dtor(p->b);
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    free(p);
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}
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double  (bullet_get_x)       (const bullet_t *p){ return p->x; }
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double  (bullet_get_y)       (const bullet_t *p){ return p->y; }
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double  (bullet_get_vx)      (const bullet_t *p){ return p->vx; }
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double  (bullet_get_vy)      (const bullet_t *p){ return p->vy; }
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int16_t (bullet_get_x_screen)(const bullet_t *p){ return (int16_t)((p->x-x_origin)*scale); }
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int16_t (bullet_get_y_screen)(const bullet_t *p){ return (int16_t)((p->y-y_origin)*scale); }
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double  (bullet_get_damage)  (const bullet_t *p){ return p->damage; }
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void    (bullet_set_damage)  (bullet_t *p, double damage) {
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    if (damage < 0) damage = 0;
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    p->damage = damage;
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}
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const gunner_t* (bullet_get_shooter)(const bullet_t *p){ return p->shooter; }
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void (bullet_update_movement)(bullet_t *p){
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    p->x += p->vx;
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    p->y += p->vy;
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}
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void (bullet_update_movement_list)(list_t *bullet_list){
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    if (list_size(bullet_list) == 0) return;
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    list_node_t *it = list_begin(bullet_list);
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    while (it != list_end(bullet_list)) {
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        bullet_update_movement(*(bullet_t**)list_node_val(it));
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        it = list_node_next(it);
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    }
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}
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void (bullet_draw)(bullet_t *p){
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    const int16_t x_screen = bullet_get_x_screen(p);
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    const int16_t y_screen = bullet_get_y_screen(p);
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    sprite_set_pos  (p->b, x_screen, y_screen);
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    sprite_set_scale(p->b, scale);
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    sprite_draw     (p->b);
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}
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void (bullet_draw_list)(list_t *bullet_list) {
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    if (list_size(bullet_list) == 0) return;
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    list_node_t *it = list_begin(bullet_list);
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    while (it != list_end(bullet_list)) {
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        bullet_draw(*(bullet_t**)list_node_val(it));
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        it = list_node_next(it);
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    }
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}
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struct map{
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    basic_sprite_t *bsp_background;
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    sprite_t *background;
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    uint8_t *collide;
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    uint8_t *collide_gunner;
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    int32_t *prev;
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    uint8_t *visited;
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};
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static int (map_collides_gunner_pos)(const map_t *p, double shooter_x, double shooter_y, double radius) {
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    for (double x = -radius; x <= radius; x += 1) {
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        double y1 = sqrt(radius*radius - x*x);
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        double y2 = -y1;
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        if (map_collides_point(p, shooter_x + x, shooter_y + y1) || map_collides_point(p, shooter_x + x, shooter_y + y2)) return 1;
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    }
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    return 0;
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}
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static int16_t (map_get_x_screen)(const map_t *p){ (void)p; return (int16_t)((-x_origin)*scale); }
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static int16_t (map_get_y_screen)(const map_t *p){ (void)p; return (int16_t)((-y_origin)*scale); }
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map_t* (map_ctor)(const char *const *background, const char *const *collide){
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    map_t *ret = malloc(sizeof(map_t));
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    if(ret == NULL) return NULL;
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    ret->bsp_background = NULL;
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    ret->background     = NULL;
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    ret->collide        = NULL;
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    ret->prev           = NULL;
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    ret->visited        = NULL;
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    ret->bsp_background = basic_sprite_ctor(background, 0, 0);
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    ret->background     = sprite_ctor(ret->bsp_background);
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    if(ret->bsp_background == NULL ||
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       ret->background     == NULL){ map_dtor(ret); return NULL; }
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    basic_sprite_t *bsp_collide = basic_sprite_ctor(collide, 0, 0);
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    if(bsp_collide == NULL){ map_dtor(ret); return NULL; }
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    const uint16_t W = basic_sprite_get_w(bsp_collide);
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    const uint16_t H = basic_sprite_get_h(bsp_collide);
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    ret->collide = malloc(W*H*sizeof(uint8_t));
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    if(ret->collide == NULL){ map_dtor(ret); return NULL; }
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    const uint8_t *m = basic_sprite_get_map(bsp_collide);
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    for(unsigned i = 0; i < W*H; ++i){
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        ret->collide[i] = (m[4*i+3] < ALPHA_THRESHOLD ? 1 : 0);
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    }
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    basic_sprite_dtor(bsp_collide);
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    ret->collide_gunner = malloc(W*H*sizeof(uint8_t));
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    if(ret->collide_gunner == NULL){ map_dtor(ret); return NULL; }
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    for(size_t i = 0; i < W*H; ++i){
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        uint16_t x = i%W, y = (uint16_t)(i/W);
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        ret->collide_gunner[i] = (map_collides_gunner_pos(ret, x, y, 36) ? 1 : 0);
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    }
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    ret->prev = malloc(W*H*sizeof(int32_t));
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    ret->visited = malloc(W*H*sizeof(uint8_t));
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    if(ret->prev == NULL || ret->visited == NULL){
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        map_dtor(ret);
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        return NULL;
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    }
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    return ret;
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}
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void (map_dtor)(map_t *p){
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    if(p == NULL) return;
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    sprite_dtor(p->background);
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    basic_sprite_dtor(p->bsp_background);
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    free(p->collide);
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    free(p->prev);
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    free(p->visited);
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    free(p);
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}
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uint16_t (map_get_width)   (const map_t *p){ return sprite_get_w(p->background); }
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uint16_t (map_get_height)  (const map_t *p){ return sprite_get_h(p->background); }
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int (map_make_dijkstra)(map_t *p, double x_, double y_){
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    int16_t x = (int16_t)x_, y = (int16_t)y_;
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    const uint16_t W = basic_sprite_get_w(p->bsp_background),
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                   H = basic_sprite_get_h(p->bsp_background);
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    static uint8_t first_time = true;
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    if(first_time){
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        for(size_t i = 0; i < W*H; ++i) p->prev[i] = -1;
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        first_time = false;
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    }
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    /// ACTUAL DIJKSTRA
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    queue_t *q = queue_ctor();
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    memset(p->visited, false, W*H*sizeof(uint8_t));
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    int *ptr;
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    int32_t c, pos;
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    c = y*W+x; p->prev[c] = c; ptr = malloc(sizeof(int)); *ptr = c; queue_push(q, ptr);
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    while(!queue_empty(q)){
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        c = *(int*)queue_top(q); free(queue_top(q)); queue_pop(q);
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        x = (int16_t)(c%W), y = (int16_t)(c/W);
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        if(p->visited[c]) continue;
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        p->visited[c] = true;
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        if(p->collide_gunner[c]) continue;
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        if(0   <= x-1){ pos = y*W+(x-1); if(!p->visited[pos] && p->prev[pos] != c){ p->prev[pos] = c; ptr = malloc(sizeof(int)); *ptr = pos; queue_push(q, ptr); }}
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        if(x+1 <  W  ){ pos = y*W+(x+1); if(!p->visited[pos] && p->prev[pos] != c){ p->prev[pos] = c; ptr = malloc(sizeof(int)); *ptr = pos; queue_push(q, ptr); }}
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        if(0   <= y-1){ pos = (y-1)*W+x; if(!p->visited[pos] && p->prev[pos] != c){ p->prev[pos] = c; ptr = malloc(sizeof(int)); *ptr = pos; queue_push(q, ptr); }}
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        if(y+1 <  H  ){ pos = (y+1)*W+x; if(!p->visited[pos] && p->prev[pos] != c){ p->prev[pos] = c; ptr = malloc(sizeof(int)); *ptr = pos; queue_push(q, ptr); }}
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    }
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    queue_dtor(q);
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    return SUCCESS;
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}
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int (map_where_to_follow)(const map_t *p, double x, double y, double *theta){
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    const uint16_t W = basic_sprite_get_w(p->bsp_background);
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    int16_t x_ = (int16_t)x, y_ = (int16_t)y;
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    int32_t pos = y_*W+x_;
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    int16_t newx = (int16_t)(p->prev[pos]%W), newy = (int16_t)(p->prev[pos]/W);
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    *theta = atan2(-(newy-y_), newx-x_);
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    return SUCCESS;
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}
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void   (map_draw)(map_t *p){
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    const int16_t x_screen = map_get_x_screen(p);
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    const int16_t y_screen = map_get_y_screen(p);
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    sprite_set_pos  (p->background, x_screen, y_screen);
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    sprite_set_scale(p->background, scale);
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    sprite_draw     (p->background);
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}
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int (map_collides_point)(const map_t *p, double x, double y){
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    const uint16_t w = sprite_get_w(p->background), h = sprite_get_h(p->background);
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    int16_t x_ = (int16_t)x, y_ = (int16_t)y;
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    if(x_ < 0 || w <= x_ || y_ < 0 || h <= y_) return 0;
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    int32_t pos = x_ + y_*w;
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    if(0 <= pos && pos < w*h) return p->collide[pos];
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    else return false;
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}
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int (map_collides_gunner)(const map_t *p, const gunner_t *shooter) {
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    double radius = max_d(sprite_get_w(shooter->dude), sprite_get_h(shooter->dude))/2.0;
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    return map_collides_gunner_pos(p, gunner_get_x(shooter), gunner_get_y(shooter), radius);
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}
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int (map_collides_bullet)(const map_t *p, const bullet_t *bull){
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    double radius = max_d(sprite_get_w(bull->b), sprite_get_h(bull->b))/2.0;
359
    double bullet_x = bullet_get_x(bull);
360
    double bullet_y = bullet_get_y(bull);
361
    for (double x = -radius; x < radius; x += 1){
362
        double y1 = sqrt(radius*radius - x*x);
363
        double y2 = -y1;
364
        if (map_collides_point(p, bullet_x + x, bullet_y + y1) || map_collides_point(p, bullet_x + x, bullet_y + y2)) return 1;
365
    }
366
    return 0;
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}
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int (gunner_collides_bullet)(const gunner_t *shooter, const bullet_t *bull){
369
    if(bull->shooter == shooter) return false;
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371
    double shooter_radius = max_d(sprite_get_w(shooter->dude), sprite_get_h(shooter->dude))/2.0;
372
    double shooter_x = gunner_get_x(shooter);
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    double shooter_y = gunner_get_y(shooter);
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375
    double bullet_radius = max_d(sprite_get_w(bull->b), sprite_get_h(bull->b))/2.0;
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    double bullet_x = bullet_get_x(bull);
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    double bullet_y = bullet_get_y(bull);
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379
    double dx = shooter_x - bullet_x;
380
    double dy = shooter_y - bullet_y;
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    double distance = sqrt(dx*dx + dy*dy);
382
    return distance <= shooter_radius+bullet_radius;
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}