aboutsummaryrefslogtreecommitdiff
path: root/src/engine/entity.c
blob: 535759df4312cf66c78cdf054693ad6f66f3b0ea (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
#include <stdbool.h>

#include "engine/entity.h"
#include "engine/maths.h"

/*
    PLAYER: (pos on X)
    ,___,
    |   |
    | X |
    |___|

*/

bool hh_collision(vec_cor pos1, vec2 pos2){
    if (pos2.x == CLAMP(pos2.x, pos1.x, pos1.x+16)){// hit x
        return true;
    }

    if (pos2.y == CLAMP(pos2.y, pos1.y, pos1.y+16)){// hit y
        return true;
    }
    return false;
}

void hh_solve_collision(vec2 pos_environment, hh_entity* entity){
	if (!hh_collision(pos_environment,entity->pos))
		return;

	printf("BONK!/n");
	// if (entity->vel.y > 0){
	// 	entity->pos.y = MAX(entity->pos.y,pos_environment.y);
	// 	entity->vel.y = 0;
	// } else {
	// 	entity->pos.y = MIN(entity->pos.y,pos_environment.y);
	// 	entity->vel.y = 0;
	// }
	// if (entity->vel.x <= 0){
	// 	entity->pos.x = MIN(entity->pos.x,pos_environment.x-16);
	// 	entity->vel.x = 0;
	// } else {
	// 	entity->pos.x = MAX(entity->pos.x,pos_environment.x+16);
	// 	entity->vel.x = 0;
	// } 
}
hh_entity hh_background_collision (hh_entity temp_old_entity,hh_entity temp_new_entity){

		temp_old_entity.is_grounded = false;
 
// solves x collision
	if (temp_old_entity.vel.x <= 0) {
		if (hh_colidable(hh_world_to_tile((vec2){.x=temp_new_entity.pos.x + 0, .y=temp_old_entity.pos.y + 0})) || 
			hh_colidable(hh_world_to_tile((vec2){.x=temp_new_entity.pos.x + 0, .y=temp_old_entity.pos.y + 15}))) {
			temp_new_entity.pos.x = (temp_new_entity.pos.x & ~15) + 16,
			temp_new_entity.vel.x = 0;
		}
	} else {
		if (hh_colidable(hh_world_to_tile((vec2){.x=temp_new_entity.pos.x + 16, .y=temp_old_entity.pos.y + 0})) || 
			hh_colidable(hh_world_to_tile((vec2){.x=temp_new_entity.pos.x + 16, .y=temp_old_entity.pos.y + 15}))) {
			temp_new_entity.pos.x = temp_new_entity.pos.x & ~15, // <-- magic comma, NOT TOUCHY
			temp_new_entity.vel.x = 0;
		}
	}

	//solves y collision
	if (temp_old_entity.vel.y <= 0) {
		if (hh_colidable(hh_world_to_tile((vec2){.x=temp_new_entity.pos.x + 0, .y=temp_new_entity.pos.y + 0})) || 
			hh_colidable(hh_world_to_tile((vec2){.x=temp_new_entity.pos.x + 15, .y=temp_new_entity.pos.y + 0}))) {
			temp_new_entity.pos.y = (temp_new_entity.pos.y & ~15) + 16,
			temp_new_entity.vel.y = 0;
		}
	} else {
		if (hh_colidable(hh_world_to_tile((vec2){.x=temp_new_entity.pos.x + 0, .y=temp_new_entity.pos.y + 15})) || 
			hh_colidable(hh_world_to_tile((vec2){.x=temp_new_entity.pos.x + 15, .y=temp_new_entity.pos.y + 15}))) {
			temp_new_entity.pos.y = temp_new_entity.pos.y & ~15,
			temp_new_entity.vel.y = 0;
			temp_old_entity.is_grounded = true;
		}
	}
	temp_old_entity.pos = temp_new_entity.pos; 
	temp_old_entity.vel = temp_new_entity.vel;
	return temp_old_entity;
}

hh_entity hh_enemy_collision(hh_entity temp_player, hh_entity temp_enemy){
	
	bool collide = hh_distance_circles( temp_player.pos,  temp_enemy.pos, temp_player.radius, temp_enemy.radius);

	if (collide == true && temp_player.is_hit == false)
	{
		temp_player.is_hit = true;
		//angle = atan2( tempEntity.pos_y - tempPlayer.pos_y, tempEntity.pos_x - tempPlayer.pos_x);
		if(temp_player.pos.x <= temp_enemy.pos.x) //player left of enemy -- creates flinch movement L or R
		{
		//	printf("BONK-left!/n");
			temp_player.vel.y = -5;
			temp_player.vel.x = -8;
		}	else {
		//	printf("BONK-right!/n");
			temp_player.vel.y = -5;
			temp_player.vel.x = 8;
		}
		// ghost mode / invulnerable or other things on hit
		//	temp_player.hp--;
			
	} else {
		temp_player.is_hit = false;
		
	}


return temp_player;
}


bool hh_distance_circles (vec2 object_1, vec2 object_2, int radius_1, int radius_2){
	int a_squared = (object_1.x - object_2.x) * (object_1.x - object_2.x);
	int b_squared = (object_1.y - object_2.y) * (object_1.y - object_2.y);
	int c_squared = a_squared + b_squared; 
	int radius = ( radius_1 + radius_2) * ( radius_1 + radius_2 );

		if( c_squared <= radius ){
			return true;
		} else {
			return false;
		}
}