b86c5cf0dda46157f2aec2d2302ac860289c9098
[carveJwlIkooP6JGAAIwe30JlM.git] / world_gen.c
1 /*
2 * Copyright (C) 2021-2023 Mt.ZERO Software, Harry Godden - All Rights Reserved
3 *
4 * World generation/population. Different to regular loading, since it needs to
5 * create geometry, apply procedural stuff and save that image to files etc.
6 */
7
8 #ifndef WORLD_GEN_C
9 #define WORLD_GEN_C
10
11 #include "world.h"
12 #include "world_gen.h"
13 #include "world_load.h"
14 #include "world_volumes.h"
15 #include "world_gate.h"
16
17 /*
18 * Add all triangles from the model, which match the material ID
19 * applies affine transform to the model
20 */
21 static void world_add_all_if_material( m4x3f transform, scene_context *scene,
22 mdl_context *mdl, u32 id )
23 {
24 for( u32 i=0; i<mdl_arrcount(&mdl->meshs); i++ ){
25 mdl_mesh *mesh = mdl_arritm( &mdl->meshs, i );
26
27 for( u32 j=0; j<mesh->submesh_count; j++ ){
28 mdl_submesh *sm = mdl_arritm( &mdl->submeshs, mesh->submesh_start+j );
29 if( sm->material_id == id ){
30 m4x3f transform2;
31 mdl_transform_m4x3( &mesh->transform, transform2 );
32 m4x3_mul( transform, transform2, transform2 );
33
34 scene_add_mdl_submesh( scene, mdl, sm, transform2 );
35 }
36 }
37 }
38 }
39
40 /*
41 * Adds a small blob shape to the world at a raycast location. This is for the
42 * grass sprites
43 *
44 * /''''\
45 * / \
46 * | |
47 * |________|
48 */
49 static void world_gen_add_blob( vg_rand *rand, world_instance *world,
50 scene_context *scene, ray_hit *hit )
51 {
52 m4x3f transform;
53 v4f qsurface, qrandom;
54 v3f axis;
55
56 v3_cross( (v3f){0.0f,1.0f,0.0f}, hit->normal, axis );
57
58 float angle = v3_dot(hit->normal,(v3f){0.0f,1.0f,0.0f});
59 q_axis_angle( qsurface, axis, angle );
60 q_axis_angle( qrandom, (v3f){0.0f,1.0f,0.0f}, vg_randf64(rand)*VG_TAUf );
61 q_mul( qsurface, qrandom, qsurface );
62 q_m3x3( qsurface, transform );
63 v3_copy( hit->pos, transform[3] );
64
65 scene_vert verts[] =
66 {
67 { .co = { -1.00f, 0.0f, 0.0f } },
68 { .co = { 1.00f, 0.0f, 0.0f } },
69 { .co = { -1.00f, 1.2f, 0.0f } },
70 { .co = { 1.00f, 1.2f, 0.0f } },
71 { .co = { -0.25f, 2.0f, 0.0f } },
72 { .co = { 0.25f, 2.0f, 0.0f } }
73 };
74
75 const u32 indices[] = { 0,1,3, 0,3,2, 2,3,5, 2,5,4 };
76
77 if( scene->vertex_count + vg_list_size(verts) > scene->max_vertices )
78 vg_fatal_error( "Scene vertex buffer overflow" );
79
80 if( scene->indice_count + vg_list_size(indices) > scene->max_indices )
81 vg_fatal_error( "Scene index buffer overflow" );
82
83 scene_vert *dst_verts = &scene->arrvertices[ scene->vertex_count ];
84 u32 *dst_indices = &scene->arrindices [ scene->indice_count ];
85
86 scene_vert *ref = &world->scene_geo.arrvertices[ hit->tri[0] ];
87
88 for( u32 i=0; i<vg_list_size(verts); i++ ){
89 scene_vert *pvert = &dst_verts[ i ],
90 *src = &verts[ i ];
91
92 m4x3_mulv( transform, src->co, pvert->co );
93 scene_vert_pack_norm( pvert, transform[1], 0.0f );
94
95 v2_copy( ref->uv, pvert->uv );
96 }
97
98 for( u32 i=0; i<vg_list_size(indices); i++ )
99 dst_indices[i] = indices[i] + scene->vertex_count;
100
101 scene->vertex_count += vg_list_size(verts);
102 scene->indice_count += vg_list_size(indices);
103 }
104
105 /*
106 * Sprinkle foliage models over the map on terrain material
107 */
108 static void world_apply_procedural_foliage( world_instance *world,
109 scene_context *scene,
110 struct world_surface *mat )
111 {
112 if( vg.quality_profile == k_quality_profile_low )
113 return;
114
115 vg_info( "Applying foliage (%u)\n", mat->info.pstr_name );
116
117 v3f volume;
118 v3_sub( world->scene_geo.bbx[1], world->scene_geo.bbx[0], volume );
119 volume[1] = 1.0f;
120
121 int count = 0;
122
123 float area = volume[0]*volume[2];
124 u32 particles = 0.08f * area;
125
126 vg_info( "Map area: %f. Max particles: %u\n", area, particles );
127
128 u64 t0 = SDL_GetPerformanceCounter();
129 #if 0
130 for( u32 i=0; i<particles; i++ ){
131 v3f pos;
132 v3_mul( volume, (v3f){ vg_randf64(), 1000.0f, vg_randf64() }, pos );
133 pos[1] = 1000.0f;
134 v3_add( pos, world->scene_geo.bbx[0], pos );
135
136 ray_hit hit;
137 hit.dist = INFINITY;
138
139 if( ray_world( world, pos, (v3f){0.0f,-1.0f,0.0f}, &hit,
140 k_material_flag_ghosts )){
141 struct world_surface *m1 = ray_hit_surface( world, &hit );
142 if((hit.normal[1] > 0.8f) && (m1 == mat) && (hit.pos[1] > 0.0f+10.0f)){
143 world_gen_add_blob( world, scene, &hit );
144 count ++;
145 }
146 }
147 }
148 #else
149
150 vg_rand rand;
151 vg_rand_seed( &rand, 3030 );
152
153 const f32 tile_scale = 16.0f;
154 v2i tiles = { volume[0]/tile_scale, volume[2]/tile_scale };
155
156 u32 per_tile = particles/(tiles[0]*tiles[1]);
157
158 for( i32 x=0; x<tiles[0]; x ++ ){
159 for( i32 z=0; z<tiles[1]; z ++ ){
160 for( u32 i=0; i<per_tile; i ++ ){
161 v3f co = { (f32)x+vg_randf64(&rand), 0, (f32)z+vg_randf64(&rand) };
162 v3_muls( co, tile_scale, co );
163 co[1] = 1000.0f;
164 v3_add( co, world->scene_geo.bbx[0], co );
165
166 ray_hit hit;
167 hit.dist = INFINITY;
168
169 if( ray_world( world, co, (v3f){0.0f,-1.0f,0.0f}, &hit,
170 k_material_flag_ghosts )){
171 struct world_surface *m1 = ray_hit_surface( world, &hit );
172 if((hit.normal[1] > 0.8f) && (m1 == mat) &&
173 (hit.pos[1] > 0.0f+10.0f)){
174 world_gen_add_blob( &rand, world, scene, &hit );
175 count ++;
176 }
177 }
178
179 }
180 }
181 }
182
183 #endif
184
185
186
187 u64 t1 = SDL_GetPerformanceCounter(),
188 utime_blobs = t1-t0,
189 ufreq = SDL_GetPerformanceFrequency();
190 f64 ftime_blobs = ((f64)utime_blobs / (f64)ufreq)*1000.0;
191
192 vg_info( "%d foliage models added. %f%% (%fms)\n", count,
193 100.0*((f64)count/(f64)particles), ftime_blobs);
194 }
195
196 static
197 void world_unpack_submesh_dynamic( world_instance *world,
198 scene_context *scene, mdl_submesh *sm ){
199 if( sm->flags & k_submesh_flag_consumed ) return;
200
201 m4x3f identity;
202 m4x3_identity( identity );
203 scene_add_mdl_submesh( scene, &world->meta, sm, identity );
204
205 scene_copy_slice( scene, sm );
206 sm->flags |= k_submesh_flag_consumed;
207 }
208
209 /*
210 * Create the main meshes for the world
211 */
212 static void world_gen_generate_meshes( world_instance *world ){
213 /*
214 * Compile meshes into the world scenes
215 */
216 scene_init( &world->scene_geo, 320000, 1200000 );
217 u32 buf_size = scene_mem_required( &world->scene_geo );
218 u8 *buffer = vg_linear_alloc( world->heap, buf_size );
219 scene_supply_buffer( &world->scene_geo, buffer );
220
221 m4x3f midentity;
222 m4x3_identity( midentity );
223
224 /*
225 * Generate scene: collidable geometry
226 * ----------------------------------------------------------------
227 */
228
229 vg_info( "Generating collidable geometry\n" );
230
231 for( u32 i=0; i<world->surface_count; i++ ){
232 struct world_surface *surf = &world->surfaces[ i ];
233
234 if( surf->info.flags & k_material_flag_collision )
235 world_add_all_if_material( midentity, &world->scene_geo,
236 &world->meta, i );
237
238 scene_copy_slice( &world->scene_geo, &surf->sm_geo );
239 scene_set_vertex_flags( &world->scene_geo,
240 surf->sm_geo.vertex_start,
241 surf->sm_geo.vertex_count,
242 (u16)(surf->info.flags & 0xffff) );
243 }
244
245 /* compress that bad boy */
246 u32 new_vert_max = world->scene_geo.vertex_count,
247 new_vert_size = vg_align8(new_vert_max*sizeof(scene_vert)),
248 new_indice_len = world->scene_geo.indice_count*sizeof(u32);
249
250 u32 *src_indices = world->scene_geo.arrindices,
251 *dst_indices = (u32 *)(buffer + new_vert_size);
252
253 memmove( dst_indices, src_indices, new_indice_len );
254
255 world->scene_geo.max_indices = world->scene_geo.indice_count;
256 world->scene_geo.max_vertices = world->scene_geo.vertex_count;
257 buf_size = scene_mem_required( &world->scene_geo );
258
259 buffer = vg_linear_resize( world->heap, buffer, buf_size );
260
261 world->scene_geo.arrvertices = (scene_vert *)(buffer);
262 world->scene_geo.arrindices = (u32 *)(buffer + new_vert_size);
263
264 scene_upload_async( &world->scene_geo, &world->mesh_geo );
265
266 /* need send off the memory to the gpu before we can create the bvh. */
267 vg_async_stall();
268 vg_info( "creating bvh\n" );
269
270 /* setup spacial mapping and rigidbody */
271 world->geo_bh = scene_bh_create( world->heap, &world->scene_geo );
272
273 v3_zero( world->rb_geo.rb.co );
274 v3_zero( world->rb_geo.rb.v );
275 q_identity( world->rb_geo.rb.q );
276 v3_zero( world->rb_geo.rb.w );
277
278 world->rb_geo.type = k_rb_shape_scene;
279 world->rb_geo.inf.scene.bh_scene = world->geo_bh;
280 rb_init_object( &world->rb_geo, 0.0f );
281
282 /*
283 * Generate scene: non-collidable geometry
284 * ----------------------------------------------------------------
285 */
286 vg_info( "Generating non-collidable geometry\n" );
287
288 vg_async_item *call = scene_alloc_async( &world->scene_no_collide,
289 &world->mesh_no_collide,
290 250000, 500000 );
291
292 for( u32 i=0; i<world->surface_count; i++ ){
293 struct world_surface *surf = &world->surfaces[ i ];
294
295 if( !(surf->info.flags & k_material_flag_collision) ){
296 world_add_all_if_material( midentity,
297 &world->scene_no_collide, &world->meta, i );
298 }
299
300 if( surf->info.flags & k_material_flag_grow_grass ){
301 world_apply_procedural_foliage( world, &world->scene_no_collide,
302 surf );
303 }
304
305 scene_copy_slice( &world->scene_no_collide, &surf->sm_no_collide );
306 }
307
308 /* unpack traffic models.. TODO: should we just put all these submeshes in a
309 * dynamic models list? and then the actual entitities point to the
310 * models. we only have 2 types at the moment which need dynamic models but
311 * would make sense to do this when/if we have more.
312 */
313 for( u32 i=0; i<mdl_arrcount( &world->ent_traffic ); i++ ){
314 ent_traffic *vehc = mdl_arritm( &world->ent_traffic, i );
315
316 for( u32 j=0; j<vehc->submesh_count; j++ ){
317 mdl_submesh *sm = mdl_arritm( &world->meta.submeshs,
318 vehc->submesh_start+j );
319 world_unpack_submesh_dynamic( world, &world->scene_no_collide, sm );
320 world->surfaces[ sm->material_id ].flags |= WORLD_SURFACE_HAS_TRAFFIC;
321 }
322 }
323
324 /* unpack challenge models */
325 for( u32 i=0; i<mdl_arrcount( &world->ent_objective ); i++ ){
326 ent_objective *objective = mdl_arritm( &world->ent_objective, i );
327
328 for( u32 j=0; j<objective->submesh_count; j ++ ){
329 mdl_submesh *sm = mdl_arritm( &world->meta.submeshs,
330 objective->submesh_start+j );
331 world_unpack_submesh_dynamic( world, &world->scene_no_collide, sm );
332 }
333 }
334
335 /* unpack region models */
336 for( u32 i=0; i<mdl_arrcount( &world->ent_region ); i++ ){
337 ent_region *region = mdl_arritm( &world->ent_region, i );
338
339 for( u32 j=0; j<region->submesh_count; j ++ ){
340 mdl_submesh *sm = mdl_arritm( &world->meta.submeshs,
341 region->submesh_start+j );
342 world_unpack_submesh_dynamic( world, &world->scene_no_collide, sm );
343 }
344 }
345
346 /* unpack gate models */
347 for( u32 i=0; i<mdl_arrcount( &world->ent_gate ); i++ ){
348 ent_gate *gate = mdl_arritm( &world->ent_gate, i );
349
350 if( !(gate->flags & k_ent_gate_custom_mesh) ) continue;
351
352 for( u32 j=0; j<gate->submesh_count; j ++ ){
353 mdl_submesh *sm = mdl_arritm( &world->meta.submeshs,
354 gate->submesh_start+j );
355 world_unpack_submesh_dynamic( world, &world->scene_no_collide, sm );
356 }
357 }
358
359 /* unpack prop models */
360 for( u32 i=0; i<mdl_arrcount( &world->ent_prop ); i++ ){
361 ent_prop *prop = mdl_arritm( &world->ent_prop, i );
362
363 for( u32 j=0; j<prop->submesh_count; j ++ ){
364 mdl_submesh *sm = mdl_arritm( &world->meta.submeshs,
365 prop->submesh_start+j );
366 world->surfaces[ sm->material_id ].flags |= WORLD_SURFACE_HAS_PROPS;
367 world_unpack_submesh_dynamic( world, &world->scene_no_collide, sm );
368 }
369 }
370
371 vg_async_dispatch( call, async_scene_upload );
372 }
373
374 /* signed distance function for cone */
375 static f32 fsd_cone_infinite( v3f p, v2f c ){
376 v2f q = { v2_length( (v2f){ p[0], p[2] } ), -p[1] };
377 float s = vg_maxf( 0.0f, v2_dot( q, c ) );
378
379 v2f v0;
380 v2_muls( c, s, v0 );
381 v2_sub( q, v0, v0 );
382
383 float d = v2_length( v0 );
384 return d * ((q[0]*c[1]-q[1]*c[0]<0.0f)?-1.0f:1.0f);
385 }
386
387 struct light_indices_upload_info{
388 world_instance *world;
389 v3i count;
390
391 void *data;
392 };
393
394 /*
395 * Async reciever to buffer light index data
396 */
397 static void async_upload_light_indices( void *payload, u32 size ){
398 struct light_indices_upload_info *info = payload;
399
400 glGenTextures( 1, &info->world->tex_light_cubes );
401 glBindTexture( GL_TEXTURE_3D, info->world->tex_light_cubes );
402 glTexImage3D( GL_TEXTURE_3D, 0, GL_RG32UI,
403 info->count[0], info->count[1], info->count[2],
404 0, GL_RG_INTEGER, GL_UNSIGNED_INT, info->data );
405 glTexParameteri( GL_TEXTURE_3D, GL_TEXTURE_MIN_FILTER, GL_NEAREST );
406 glTexParameteri( GL_TEXTURE_3D, GL_TEXTURE_MAG_FILTER, GL_NEAREST );
407 }
408
409 /*
410 * Computes light indices for world
411 */
412 static void world_gen_compute_light_indices( world_instance *world ){
413 /* light cubes */
414 v3f cubes_min, cubes_max;
415 v3_muls( world->scene_geo.bbx[0], 1.0f/k_world_light_cube_size, cubes_min );
416 v3_muls( world->scene_geo.bbx[1], 1.0f/k_world_light_cube_size, cubes_max );
417
418 v3_sub( cubes_min, (v3f){ 0.5f, 0.5f, 0.5f }, cubes_min );
419 v3_add( cubes_max, (v3f){ 0.5f, 0.5f, 0.5f }, cubes_max );
420
421 v3_floor( cubes_min, cubes_min );
422 v3_floor( cubes_max, cubes_max );
423
424 v3i icubes_min, icubes_max;
425
426 for( int i=0; i<3; i++ ){
427 icubes_min[i] = cubes_min[i];
428 icubes_max[i] = cubes_max[i];
429 }
430
431 v3f cube_size;
432
433 v3i icubes_count;
434 v3i_sub( icubes_max, icubes_min, icubes_count );
435
436 for( int i=0; i<3; i++ ){
437 int clamped_count = VG_MIN( 128, icubes_count[i]+1 );
438 float clamped_max = icubes_min[i] + clamped_count,
439 max = icubes_min[i] + icubes_count[i]+1;
440
441 icubes_count[i] = clamped_count;
442 cube_size[i] = (max / clamped_max) * k_world_light_cube_size;
443 cubes_max[i] = clamped_max;
444 }
445
446 v3_mul( cubes_min, cube_size, cubes_min );
447 v3_mul( cubes_max, cube_size, cubes_max );
448
449 for( int i=0; i<3; i++ ){
450 float range = cubes_max[i]-cubes_min[i];
451 world->ub_lighting.g_cube_inv_range[i] = 1.0f / range;
452 world->ub_lighting.g_cube_inv_range[i] *= (float)icubes_count[i];
453
454 vg_info( "cubes[%d]: %d\n", i, icubes_count[i] );
455 }
456
457 int total_cubes = icubes_count[0]*icubes_count[1]*icubes_count[2];
458
459 u32 data_size = vg_align8(total_cubes*sizeof(u32)*2),
460 hdr_size = vg_align8(sizeof(struct light_indices_upload_info));
461
462 vg_async_item *call = vg_async_alloc( data_size + hdr_size );
463 struct light_indices_upload_info *info = call->payload;
464 info->data = ((u8*)call->payload) + hdr_size;
465 info->world = world;
466 u32 *cubes_index = info->data;
467
468 for( int i=0; i<3; i++ )
469 info->count[i] = icubes_count[i];
470
471 vg_info( "Computing light cubes (%d) [%f %f %f] -> [%f %f %f]\n",
472 total_cubes, cubes_min[0], -cubes_min[2], cubes_min[1],
473 cubes_max[0], -cubes_max[2], cubes_max[1] );
474 v3_copy( cubes_min, world->ub_lighting.g_cube_min );
475
476 float bound_radius = v3_length( cube_size );
477
478 for( int iz = 0; iz<icubes_count[2]; iz ++ ){
479 for( int iy = 0; iy<icubes_count[1]; iy++ ){
480 for( int ix = 0; ix<icubes_count[0]; ix++ ){
481 boxf bbx;
482 v3_div( (v3f){ ix, iy, iz }, world->ub_lighting.g_cube_inv_range,
483 bbx[0] );
484 v3_div( (v3f){ ix+1, iy+1, iz+1 },
485 world->ub_lighting.g_cube_inv_range,
486 bbx[1] );
487
488 v3_add( bbx[0], world->ub_lighting.g_cube_min, bbx[0] );
489 v3_add( bbx[1], world->ub_lighting.g_cube_min, bbx[1] );
490
491 v3f center;
492 v3_add( bbx[0], bbx[1], center );
493 v3_muls( center, 0.5f, center );
494
495 u32 indices[6] = { 0, 0, 0, 0, 0, 0 };
496 u32 count = 0;
497
498 float influences[6] = { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f };
499 const int N = vg_list_size( influences );
500
501 for( u32 j=0; j<mdl_arrcount(&world->ent_light); j ++ ){
502 ent_light *light = mdl_arritm( &world->ent_light, j );
503 v3f closest;
504 closest_point_aabb( light->transform.co, bbx, closest );
505
506 f32 dist2 = v3_dist2( closest, light->transform.co );
507
508 if( dist2 > light->range*light->range )
509 continue;
510
511 f32 dist = sqrtf(dist2),
512 influence = 1.0f/(dist+1.0f);
513
514 if( light->type == k_light_type_spot){
515 v3f local;
516 m4x3_mulv( light->inverse_world, center, local );
517
518 float r = fsd_cone_infinite( local, light->angle_sin_cos );
519
520 if( r > bound_radius )
521 continue;
522 }
523
524 int best_pos = N;
525 for( int k=best_pos-1; k>=0; k -- )
526 if( influence > influences[k] )
527 best_pos = k;
528
529 if( best_pos < N ){
530 for( int k=N-1; k>best_pos; k -- ){
531 influences[k] = influences[k-1];
532 indices[k] = indices[k-1];
533 }
534
535 influences[best_pos] = influence;
536 indices[best_pos] = j;
537 }
538 }
539
540 for( int j=0; j<N; j++ )
541 if( influences[j] > 0.0f )
542 count ++;
543
544 int base_index = iz * (icubes_count[0]*icubes_count[1]) +
545 iy * (icubes_count[0]) +
546 ix;
547
548 int lower_count = VG_MIN( 3, count );
549 u32 packed_index_lower = lower_count;
550 packed_index_lower |= indices[0]<<2;
551 packed_index_lower |= indices[1]<<12;
552 packed_index_lower |= indices[2]<<22;
553
554 int upper_count = VG_MAX( 0, count - lower_count );
555 u32 packed_index_upper = upper_count;
556 packed_index_upper |= indices[3]<<2;
557 packed_index_upper |= indices[4]<<12;
558 packed_index_upper |= indices[5]<<22;
559
560 cubes_index[ base_index*2 + 0 ] = packed_index_lower;
561 cubes_index[ base_index*2 + 1 ] = packed_index_upper;
562 }
563 }
564 }
565
566 vg_async_dispatch( call, async_upload_light_indices );
567 }
568
569 /*
570 * Rendering pass needed to complete the world
571 */
572 static void async_world_postprocess( void *payload, u32 _size ){
573 /* create scene lighting buffer */
574 world_instance *world = payload;
575
576 u32 size = VG_MAX(mdl_arrcount(&world->ent_light),1) * sizeof(float)*12;
577 vg_info( "Upload %ubytes (lighting)\n", size );
578
579 glGenBuffers( 1, &world->tbo_light_entities );
580 glBindBuffer( GL_TEXTURE_BUFFER, world->tbo_light_entities );
581 glBufferData( GL_TEXTURE_BUFFER, size, NULL, GL_DYNAMIC_DRAW );
582
583 /* buffer layout
584 *
585 * colour position direction (spots)
586 * | . . . . | . . . . | . . . . |
587 * | Re Ge Be Night | Xco Yco Zco Range | Dx Dy Dz Da |
588 *
589 */
590
591 v4f *light_dst = glMapBuffer( GL_TEXTURE_BUFFER, GL_WRITE_ONLY );
592 for( u32 i=0; i<mdl_arrcount(&world->ent_light); i++ ){
593 ent_light *light = mdl_arritm( &world->ent_light, i );
594
595 /* colour + night */
596 v3_muls( light->colour, light->colour[3] * 2.0f, light_dst[i*3+0] );
597 light_dst[i*3+0][3] = 2.0f;
598
599 if( !light->daytime ){
600 u32 hash = (i * 29986577u) & 0xffu;
601 float switch_on = hash;
602 switch_on *= (1.0f/255.0f);
603
604 light_dst[i*3+0][3] = 0.44f + switch_on * 0.015f;
605 }
606
607 /* position + 1/range^2 */
608 v3_copy( light->transform.co, light_dst[i*3+1] );
609 light_dst[i*3+1][3] = 1.0f/(light->range*light->range);
610
611 /* direction + angle */
612 q_mulv( light->transform.q, (v3f){0.0f,-1.0f,0.0f}, light_dst[i*3+2]);
613 light_dst[i*3+2][3] = cosf( light->angle );
614 }
615
616 glUnmapBuffer( GL_TEXTURE_BUFFER );
617
618 glGenTextures( 1, &world->tex_light_entities );
619 glBindTexture( GL_TEXTURE_BUFFER, world->tex_light_entities );
620 glTexBuffer( GL_TEXTURE_BUFFER, GL_RGBA32F, world->tbo_light_entities );
621
622 /* Upload lighting uniform buffer */
623 if( world->water.enabled )
624 v4_copy( world->water.plane, world->ub_lighting.g_water_plane );
625
626 v4f info_vec;
627 v3f *bounds = world->scene_geo.bbx;
628
629 info_vec[0] = bounds[0][0];
630 info_vec[1] = bounds[0][2];
631 info_vec[2] = 1.0f/ (bounds[1][0]-bounds[0][0]);
632 info_vec[3] = 1.0f/ (bounds[1][2]-bounds[0][2]);
633 v4_copy( info_vec, world->ub_lighting.g_depth_bounds );
634
635 /*
636 * Rendering the depth map
637 */
638 camera ortho;
639
640 v3f extent;
641 v3_sub( world->scene_geo.bbx[1], world->scene_geo.bbx[0], extent );
642
643 float fl = world->scene_geo.bbx[0][0],
644 fr = world->scene_geo.bbx[1][0],
645 fb = world->scene_geo.bbx[0][2],
646 ft = world->scene_geo.bbx[1][2],
647 rl = 1.0f / (fr-fl),
648 tb = 1.0f / (ft-fb);
649
650 m4x4_zero( ortho.mtx.p );
651 ortho.mtx.p[0][0] = 2.0f * rl;
652 ortho.mtx.p[2][1] = 2.0f * tb;
653 ortho.mtx.p[3][0] = (fr + fl) * -rl;
654 ortho.mtx.p[3][1] = (ft + fb) * -tb;
655 ortho.mtx.p[3][3] = 1.0f;
656 m4x3_identity( ortho.transform );
657 camera_update_view( &ortho );
658 camera_finalize( &ortho );
659
660 glDisable(GL_DEPTH_TEST);
661 glDisable(GL_BLEND);
662 glDisable(GL_CULL_FACE);
663 render_fb_bind( &world->heightmap, 0 );
664 shader_blitcolour_use();
665 shader_blitcolour_uColour( (v4f){-9999.0f,-9999.0f,-9999.0f,-9999.0f} );
666 render_fsquad();
667
668 glEnable(GL_BLEND);
669 glBlendFunc(GL_ONE, GL_ONE);
670 glBlendEquation(GL_MAX);
671
672 render_world_position( world, &ortho );
673 glDisable(GL_BLEND);
674 glEnable(GL_DEPTH_TEST);
675 glBindFramebuffer( GL_FRAMEBUFFER, 0 );
676
677 /* upload full buffer */
678 glBindBuffer( GL_UNIFORM_BUFFER, world->ubo_lighting );
679 glBufferSubData( GL_UNIFORM_BUFFER, 0,
680 sizeof(struct ub_world_lighting), &world->ub_lighting );
681
682 /*
683 * Allocate cubemaps
684 */
685 for( u32 i=0; i<mdl_arrcount(&world->ent_cubemap); i++ ){
686 ent_cubemap *cm = mdl_arritm(&world->ent_cubemap,i);
687
688 glGenTextures( 1, &cm->texture_id );
689 glBindTexture( GL_TEXTURE_CUBE_MAP, cm->texture_id );
690 glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_MIN_FILTER, GL_LINEAR);
691 glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
692 glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
693 glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
694 glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_WRAP_R, GL_CLAMP_TO_EDGE);
695
696 for( u32 j=0; j<6; j ++ ) {
697 glTexImage2D( GL_TEXTURE_CUBE_MAP_POSITIVE_X + j, 0, GL_RGB,
698 WORLD_CUBEMAP_RES, WORLD_CUBEMAP_RES,
699 0, GL_RGB, GL_UNSIGNED_BYTE, NULL );
700 }
701
702 glGenFramebuffers( 1, &cm->framebuffer_id );
703 glBindFramebuffer( GL_FRAMEBUFFER, cm->framebuffer_id );
704 glGenRenderbuffers(1, &cm->renderbuffer_id );
705 glBindRenderbuffer( GL_RENDERBUFFER, cm->renderbuffer_id );
706 glRenderbufferStorage( GL_RENDERBUFFER, GL_DEPTH_COMPONENT24,
707 WORLD_CUBEMAP_RES, WORLD_CUBEMAP_RES );
708
709 glFramebufferTexture2D( GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0,
710 GL_TEXTURE_CUBE_MAP_POSITIVE_X, cm->texture_id, 0 );
711 glFramebufferRenderbuffer( GL_FRAMEBUFFER, GL_DEPTH_ATTACHMENT,
712 GL_RENDERBUFFER, cm->renderbuffer_id );
713
714 glFramebufferTexture2D( GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0,
715 GL_TEXTURE_CUBE_MAP_POSITIVE_X, cm->texture_id, 0 );
716
717 if( glCheckFramebufferStatus(GL_FRAMEBUFFER) != GL_FRAMEBUFFER_COMPLETE ){
718 vg_error( "Cubemap framebuffer incomplete.\n" );
719 }
720 }
721
722 glBindFramebuffer( GL_FRAMEBUFFER, 0 );
723 }
724
725 /* Loads textures from the pack file */
726 static void world_gen_load_surfaces( world_instance *world ){
727 vg_info( "Loading textures\n" );
728 world->texture_count = 0;
729
730 world->texture_count = world->meta.textures.count+1;
731 world->textures = vg_linear_alloc( world->heap,
732 vg_align8(sizeof(GLuint)*world->texture_count) );
733 world->textures[0] = vg.tex_missing;
734
735 for( u32 i=0; i<mdl_arrcount(&world->meta.textures); i++ ){
736 mdl_texture *tex = mdl_arritm( &world->meta.textures, i );
737
738 if( !tex->file.pack_size ){
739 vg_fatal_error( "World models must have packed textures!" );
740 }
741
742 vg_linear_clear( vg_mem.scratch );
743 void *src_data = vg_linear_alloc( vg_mem.scratch,
744 tex->file.pack_size );
745 mdl_fread_pack_file( &world->meta, &tex->file, src_data );
746
747 vg_tex2d_load_qoi_async( src_data, tex->file.pack_size,
748 VG_TEX2D_NEAREST|VG_TEX2D_REPEAT,
749 &world->textures[i+1] );
750 }
751
752 vg_info( "Loading materials\n" );
753
754 world->surface_count = world->meta.materials.count+1;
755 world->surfaces = vg_linear_alloc( world->heap,
756 vg_align8(sizeof(struct world_surface)*world->surface_count) );
757
758 /* error material */
759 struct world_surface *errmat = &world->surfaces[0];
760 memset( errmat, 0, sizeof(struct world_surface) );
761
762 for( u32 i=0; i<mdl_arrcount(&world->meta.materials); i++ ){
763 struct world_surface *surf = &world->surfaces[i+1];
764 surf->info = *(mdl_material *)mdl_arritm( &world->meta.materials, i );
765 surf->flags = 0;
766 }
767 }
768
769 #endif /* WORLD_GEN_C */