rearrange some things
[voxelands-alt.git] / src / collision.c
blobc148d8651efd815ec5ad67d1a5d85c8076bc0f47
1 /************************************************************************
2 * collision.c
3 * voxelands - 3d voxel world sandbox game
4 * Copyright (C) Lisa 'darkrose' Milne 2016 <lisa@ltmnet.com>
6 * This program is free software: you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation, either version 3 of the License, or
9 * (at your option) any later version.
11 * This program is distributed in the hope that it will be useful, but
12 * WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
14 * See the GNU General Public License for more details.
16 * You should have received a copy of the GNU General Public License
17 * along with this program. If not, see <http://www.gnu.org/licenses/>
18 ************************************************************************/
20 #include "common.h"
21 #include "collision.h"
23 #include "array.h"
24 #include "list.h"
26 #include <stdlib.h>
27 #include <math.h>
29 static void collision_initinfo(collisioninfo_t *i)
31 i->type = COLLISION_NODE;
32 i->pos.x = -32768;
33 i->pos.y = -32768;
34 i->pos.z = -32768;
35 i->speed = 0.0;
36 i->speed_o.x = 0.0;
37 i->speed_o.y = 0.0;
38 i->speed_o.z = 0.0;
39 i->speed_n.x = 0.0;
40 i->speed_n.y = 0.0;
41 i->speed_n.z = 0.0;
45 /* checks if movingbox collides with staticbox
46 * -1 no collision, 0 x collision, 1 y collision, 2 z collision
47 * time of collision stored in dtime */
48 static int collision_aa(aabox_t *staticbox, aabox_t *movingbox, v3_t *speed, float d, float *dtime)
50 aabox_t relbox;
51 float xsize;
52 float ysize;
53 float zsize;
54 float dt;
55 v3_t dspeed;
57 xsize = (staticbox->max.x - staticbox->min.x);
58 ysize = (staticbox->max.y - staticbox->min.y);
59 zsize = (staticbox->max.z - staticbox->min.z);
61 relbox.min.x = (movingbox->min.x - staticbox->min.x);
62 relbox.min.y = (movingbox->min.y - staticbox->min.y);
63 relbox.min.z = (movingbox->min.z - staticbox->min.z);
64 relbox.max.x = (movingbox->max.x - staticbox->min.x);
65 relbox.max.y = (movingbox->max.y - staticbox->min.y);
66 relbox.max.z = (movingbox->max.z - staticbox->min.z);
68 /* check against x- */
69 if (speed->x > 0.0) {
70 if (relbox.max.x <= d) {
71 dt = -relbox.max.x/speed->x;
72 *dtime = dt;
73 dspeed.x = speed->x*dt;
74 dspeed.y = speed->y*dt;
75 dspeed.z = speed->z*dt;
76 if (
77 ((relbox.min.y+dspeed.y) < ysize)
78 && ((relbox.max.y+dspeed.y) > 0.0)
79 && ((relbox.min.z+dspeed.z) < zsize)
80 && ((relbox.max.z+dspeed.z) > 0.0)
82 return 0;
83 }else if (relbox.min.x > xsize) {
84 return -1;
86 /* check against x+ */
87 }else if (speed->x < 0.0) {
88 if (relbox.min.x >= (xsize-d)) {
89 dt = (xsize-relbox.min.x)/speed->x;
90 *dtime = dt;
91 dspeed.x = speed->x*dt;
92 dspeed.y = speed->y*dt;
93 dspeed.z = speed->z*dt;
94 if (
95 ((relbox.min.y+dspeed.y) < ysize)
96 && ((relbox.max.y+dspeed.y) > 0.0)
97 && ((relbox.min.z+dspeed.z) < zsize)
98 && ((relbox.max.z+dspeed.z) > 0.0)
100 return 0;
101 }else if (relbox.max.x < 0.0) {
102 return -1;
106 /* check against y- */
107 if (speed->y > 0.0) {
108 if (relbox.max.y <= d) {
109 dt = -relbox.max.y/speed->y;
110 *dtime = dt;
111 dspeed.x = speed->x*dt;
112 dspeed.y = speed->y*dt;
113 dspeed.z = speed->z*dt;
114 if (
115 ((relbox.min.x+dspeed.x) < xsize)
116 && ((relbox.max.x+dspeed.x) > 0.0)
117 && ((relbox.min.z+dspeed.z) < zsize)
118 && ((relbox.max.z+dspeed.z) > 0.0)
120 return 1;
121 }else if (relbox.min.y > ysize) {
122 return -1;
124 /* check against y+ */
125 }else if (speed->y < 0.0) {
126 if (relbox.min.y >= (ysize-d)) {
127 dt = (ysize-relbox.min.y)/speed->y;
128 *dtime = dt;
129 dspeed.x = speed->x*dt;
130 dspeed.y = speed->y*dt;
131 dspeed.z = speed->z*dt;
132 if (
133 ((relbox.min.x+dspeed.x) < xsize)
134 && ((relbox.max.x+dspeed.x) > 0.0)
135 && ((relbox.min.z+dspeed.z) < zsize)
136 && ((relbox.max.z+dspeed.z) > 0.0)
138 return 1;
139 }else if (relbox.max.y < 0) {
140 return -1;
144 /* check against z- */
145 if (speed->z > 0.0) {
146 if(relbox.max.z <= d) {
147 dt = -relbox.max.z/speed->z;
148 *dtime = dt;
149 dspeed.x = speed->x*dt;
150 dspeed.y = speed->y*dt;
151 dspeed.z = speed->z*dt;
152 if (
153 ((relbox.min.x+dspeed.x) < xsize)
154 && ((relbox.max.x+dspeed.x) > 0.0)
155 && ((relbox.min.y+dspeed.y) < ysize)
156 && ((relbox.max.y+dspeed.y) > 0)
158 return 2;
160 /* check against z+ */
161 }else if (speed->z < 0.0) {
162 if (relbox.min.z >= (zsize-d)) {
163 dt = (zsize-relbox.min.z)/speed->z;
164 *dtime = dt;
165 dspeed.x = speed->x*dt;
166 dspeed.y = speed->y*dt;
167 dspeed.z = speed->z*dt;
168 if (
169 ((relbox.min.x+dspeed.x) < xsize)
170 && ((relbox.max.x+dspeed.x) > 0.0)
171 && ((relbox.min.y+dspeed.y) < ysize)
172 && ((relbox.max.y+dspeed.y) > 0.0)
174 return 2;
178 return -1;
181 /* checks if movingbox+y_increase would hit a ceiling */
182 static int collision_ceiling(array_t *staticboxes, aabox_t *movingbox, float y_increase, float d)
184 int i;
185 aabox_t *s;
187 if (y_increase < 0)
188 return 0;
190 for (i=0; i<staticboxes->length; i++) {
191 s = &((collisionblock_t**)staticboxes->data)[i]->box;
192 if (!s)
193 return 0;
194 if (
195 ((movingbox->max.y-d) <= s->min.y)
196 && ((movingbox->max.y+y_increase) > s->min.y)
197 && (movingbox->min.x < s->max.x)
198 && (movingbox->max.x > s->min.x)
199 && (movingbox->min.z < s->max.z)
200 && (movingbox->max.z > s->min.z)
202 return 1;
205 return 0;
208 /* gets any block that could be collided with */
209 static int collision_get_nearby(array_t *hits, v3_t *pos, v3_t *speed, float dtime)
211 /* TODO: this, once content*.c/h is done */
212 return 0;
215 /* move pos by (speed+(accel*dtime))*dtime, checking for collisions */
216 /* TODO: this will need something changed for the client, so it doesn't use the server map */
217 collisionresult_t *collision_move(float pos_max_d, aabox_t *box, float stepheight, float dtime, v3_t *pos, v3_t *speed, v3_t accel)
219 collisionresult_t *result;
220 collisionblock_t *cb;
221 collisioninfo_t *info = NULL;
222 array_t hits;
223 aabox_t mbox;
224 aabox_t sbox;
225 int i;
226 int k;
227 float d = pos_max_d * 1.1;
229 if (d <= pos_max_d)
230 return NULL;
232 result = malloc(sizeof(collisionresult_t));
233 if (!result)
234 return NULL;
236 result->touching_ground = 0;
237 result->in_liquid = 0;
238 result->touching_lethal = 0;
239 result->collides = 0;
240 result->collides_xz = 0;
241 result->standing_on_unloaded = 0;
242 result->collisions = NULL;
244 if (dtime > 0.5)
245 dtime = 0.5;
247 speed->x += (accel.x*dtime);
248 speed->y += (accel.y*dtime);
249 speed->z += (accel.z*dtime);
251 /* no movement == no collision */
252 if (speed->x == 0.0 && speed->y == 0.0 && speed->z == 0.0)
253 return result;
255 if (speed->x > 5000.0) {
256 speed->x = 5000.0;
257 }else if (speed->x < -5000.0) {
258 speed->x = -5000.0;
260 if (speed->y > 5000.0) {
261 speed->y = 5000.0;
262 }else if (speed->y < -5000.0) {
263 speed->y = -5000.0;
265 if (speed->z > 5000.0) {
266 speed->z = 5000.0;
267 }else if (speed->z < -5000.0) {
268 speed->z = -5000.0;
271 array_init(&hits, ARRAY_TYPE_PTR);
273 if (!collision_get_nearby(&hits,pos,speed,dtime)) {
274 array_free(&hits,0);
275 return result;
278 for (i=0; i<100 && dtime>1e-10; ++i) {
279 int nearest_collided = -1;
280 float nearest_dtime = dtime;
281 int nearest_boxindex = -1;
283 mbox.min.x = box->min.x+pos->x;
284 mbox.min.y = box->min.y+pos->y;
285 mbox.min.z = box->min.z+pos->z;
286 mbox.max.x = box->max.x+pos->x;
287 mbox.max.y = box->max.y+pos->y;
288 mbox.max.z = box->max.z+pos->z;
290 for (k=0; k<hits.length; k++) {
291 float dtime_tmp;
292 int collided;
293 cb = ((collisionblock_t**)hits.data)[k];
294 if (cb->is_stepup)
295 continue;
297 collided = collision_aa(
298 &cb->box,
299 &mbox,
300 speed,
302 &dtime_tmp
305 if (collided == -1 || dtime_tmp >= nearest_dtime)
306 continue;
308 nearest_dtime = dtime_tmp;
309 nearest_collided = collided;
310 nearest_boxindex = k;
313 /* no collision */
314 if (nearest_collided == -1) {
315 pos->x += speed->x*dtime;
316 pos->y += speed->y*dtime;
317 pos->z += speed->z*dtime;
318 dtime = 0;
319 break;
320 /* collision occurred */
321 }else{
322 cb = ((collisionblock_t**)hits.data)[nearest_boxindex];
324 /* steps are not counted as a collision */
325 if (
326 (nearest_collided != 1)
327 && (mbox.min.y < cb->box.max.y)
328 && ((mbox.min.y+stepheight) > cb->box.max.y)
329 && (!collision_ceiling(&hits, &mbox, cb->box.max.y-mbox.min.y, d))
331 cb->is_stepup = 1;
332 continue;
333 }else if (nearest_dtime >= 0.0) {
334 pos->x += speed->x*nearest_dtime;
335 pos->y += speed->y*nearest_dtime;
336 pos->z += speed->z*nearest_dtime;
337 dtime -= nearest_dtime;
338 }else{
339 if (nearest_collided == 0)
340 pos->x += speed->x*nearest_dtime;
341 if (nearest_collided == 1)
342 pos->y += speed->y*nearest_dtime;
343 if (nearest_collided == 2)
344 pos->z += speed->z*nearest_dtime;
347 if (cb->is_unloaded)
348 continue;
350 if (!info)
351 info = malloc(sizeof(collisioninfo_t));
353 if (!info)
354 break;
356 collision_initinfo(info);
358 info->pos = cb->pos;
359 info->speed_o = *speed;
361 switch (nearest_collided) {
362 case 0:
363 speed->x = 0;
364 result->collides = 1;
365 result->collides_xz = 1;
366 break;
367 case 1:
368 speed->y = 0;
369 result->collides = 1;
370 break;
371 case 2:
372 speed->z = 0;
373 result->collides = 1;
374 result->collides_xz = 1;
375 break;
376 default:;
379 info->speed_n = *speed;
380 if (math_distance(&info->speed_n,&info->speed_o) >= 0.1) {
381 result->collisions = list_push(&result->collisions,info);
382 info = NULL;
387 if (info)
388 free(info);
390 sbox.min.x = box->min.x+pos->x;
391 sbox.min.y = box->min.y+pos->y;
392 sbox.min.z = box->min.z+pos->z;
393 sbox.max.x = box->max.x+pos->x;
394 sbox.max.y = box->max.y+pos->y;
395 sbox.max.z = box->max.z+pos->z;
396 for (i=0; i<hits.length; i++) {
397 cb = ((collisionblock_t**)hits.data)[i];
400 See if the object is touching ground.
402 Object touches ground if object's minimum Y is near node's
403 maximum Y and object's X-Z-area overlaps with the node's
404 X-Z-area.
406 Use 0.15*BS so that it is easier to get on a node.
408 if (
409 (cb->box.max.x-d) > sbox.min.x
410 && (cb->box.min.x+d) < sbox.max.x
411 && (cb->box.max.z-d) > sbox.min.z
412 && (cb->box.min.z+d) < sbox.max.z
414 if (cb->is_stepup) {
415 float diff = (cb->box.max.y-sbox.min.y);
416 pos->y += diff;
417 sbox.min.y += diff;
418 sbox.max.y += diff;
420 if (fabs(cb->box.max.y-sbox.min.y) < 0.15) {
421 result->touching_ground = 1;
422 if (cb->is_unloaded)
423 result->standing_on_unloaded = 1;
428 array_free(&hits,0);
430 return result;
433 /* free a collisionresult_t */
434 void collision_free(collisionresult_t *r)
436 collisioninfo_t *i;
437 if (!r)
438 return;
440 while ((i = list_pop(&r->collisions))) {
441 free(i);
444 free(r);