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LEFTONE/core/locommon/physics.c
falsycat 84c3a02b9a [RELEASE] u22-v03
This version is submitted to U22 breau.
2020-09-14 00:00:00 +00:00

95 lines
2.2 KiB
C

#include "./physics.h"
#include <assert.h>
#include <stdbool.h>
#include <stddef.h>
#include "util/coly2d/hittest.h"
#include "util/math/algorithm.h"
#include "util/math/vector.h"
#include "./position.h"
bool locommon_physics_entity_valid(const locommon_physics_entity_t* e) {
return
e != NULL &&
locommon_position_valid(&e->pos) &&
vec2_valid(&e->velocity) &&
vec2_valid(&e->size);
}
bool locommon_physics_solve_collision_with_fixed_one(
locommon_physics_entity_t* e1,
const locommon_physics_entity_t* e2,
float dt) {
assert(locommon_physics_entity_valid(e1));
assert(locommon_physics_entity_valid(e2));
assert(vec2_pow_length(&e2->velocity) == 0);
assert(MATH_FLOAT_VALID(dt));
vec2_t size;
vec2_add(&size, &e1->size, &e2->size);
vec2_t pos;
locommon_position_sub(&pos, &e1->pos, &e2->pos);
pos.x /= size.x;
pos.y /= size.y;
vec2_t velocity = e1->velocity;
velocity.x /= size.x;
velocity.y /= size.y;
vec2_t disp;
vec2_mul(&disp, &velocity, dt);
vec2_t spos;
vec2_sub(&spos, &pos, &disp);
static const vec2_t origin = vec2(0, 0);
static const vec2_t sz = vec2(1, 1);
if (!coly2d_hittest_lineseg_and_rect(&spos, &pos, &origin, &sz)) {
return false;
}
if (MATH_ABS(spos.x) < 1 && MATH_ABS(spos.y) < 1) {
float* f = MATH_ABS(spos.x) > MATH_ABS(spos.y)? &spos.x: &spos.y;
*f = MATH_SIGN(*f);
}
vec2_t vt = vec2(MATH_INF, MATH_INF);
if (velocity.x != 0) {
vt.x = -(MATH_SIGN(velocity.x)+spos.x) / velocity.x;
}
if (velocity.y != 0) {
vt.y = -(MATH_SIGN(velocity.y)+spos.y) / velocity.y;
}
/* ---- simulation ---- */
float t = MATH_MIN(vt.x, vt.y);
if (t < 0) t = MATH_MAX(vt.x, vt.y);
if (t < 0 || t >= dt) return false;
vec2_t d, v = velocity, p = spos;
vec2_mul(&d, &v, t);
vec2_addeq(&p, &d);
if (t == vt.x) v.x = 0;
if (t == vt.y) v.y = 0;
vec2_mul(&d, &v, dt-t);
vec2_addeq(&p, &d);
/* ---- return result ---- */
p.x *= size.x;
p.y *= size.y;
v.x *= size.x;
v.y *= size.y;
e1->pos = e2->pos;
vec2_addeq(&e1->pos.fract, &p);
locommon_position_reduce(&e1->pos);
e1->velocity = v;
return true;
}