#if 0
-VG_STATIC void world_pct_spawn( world_instance *world, mdl_node *pnode )
-{
- struct respawn_point *rp = &world->spawns[ world->spawn_count ++ ];
-
- v3_copy( pnode->co, rp->co );
- v4_copy( pnode->q, rp->q );
- rp->name = mdl_pstr( world->meta, pnode->pstr_name );
-}
VG_STATIC void world_pct_audio( world_instance *world, mdl_node *pnode )
{
world->audio_things_count ++;
}
-VG_STATIC void world_pct_world_light( world_instance *world, mdl_node *pnode )
-{
- struct world_light *light = &world->lights[ world->light_count ++ ];
- light->node = pnode;
- light->inf = mdl_get_entdata( world->meta, pnode );
-
- q_m3x3( pnode->q, light->inverse_world );
- v3_copy( pnode->co, light->inverse_world[3] );
- m4x3_invert_affine( light->inverse_world, light->inverse_world );
-
- light->angle_sin_cos[0] = sinf( light->inf->angle * 0.5f );
- light->angle_sin_cos[1] = cosf( light->inf->angle * 0.5f );
-}
-
VG_STATIC void world_pct_nonlocal_gate( world_instance *world, mdl_node *pnode )
{
struct nonlocal_gate *gate = &world->nonlocal_gates[
v2_copy( inf->dims, gate->gate.dims );
}
-VG_STATIC void world_entities_process( world_instance *world )
-{
- struct entity_instruction
- {
- enum classtype ct;
- void (*process)( world_instance *world, mdl_node *pnode );
- }
- entity_instructions[] =
- {
- { k_classtype_spawn, world_pct_spawn },
- { k_classtype_water, world_pct_water },
- { k_classtype_audio, world_pct_audio },
- { k_classtype_world_light, world_pct_world_light },
- { k_classtype_nonlocal_gate, world_pct_nonlocal_gate }
- };
-
- for( int i=0; i<world->meta->info.node_count; i++ )
- {
- mdl_node *pnode = mdl_node_from_id( world->meta, i );
-
- for( int j=0; j<vg_list_size(entity_instructions); j++ )
- {
- struct entity_instruction *instr = &entity_instructions[j];
-
- if( pnode->classtype == instr->ct )
- {
- instr->process( world, pnode );
- break;
- }
- }
- }
-}
VG_STATIC void world_link_nonlocal_gates( int index_a, int index_b )
{
vg_info( "Linking non-local gates\n" );
}
#endif
-#if 0
-VG_STATIC float colour_luminance( v3f v )
-{
- return v3_dot( v, (v3f){0.2126f, 0.7152f, 0.0722f} );
-}
-
-VG_STATIC float calc_light_influence( world_instance *world, v3f position,
- int light )
-{
- struct world_light *world_light = &world->lights[ light ];
- struct classtype_world_light *inf = world_light->inf;
-
- v3f light_delta;
- v3_sub( world_light->node->co, position, light_delta );
- v3_muls( light_delta, 10.0f, light_delta );
-
- float quadratic = v3_dot( light_delta, light_delta ),
- attenuation = 1.0f/( 1.0f + quadratic );
-
- float quadratic_light = attenuation * colour_luminance( inf->colour );
-
- if( (inf->type == k_light_type_point) ||
- (inf->type == k_light_type_point_nighttime_only) )
- {
- return quadratic_light;
- }
- else if( (inf->type == k_light_type_spot) ||
- (inf->type == k_light_type_spot_nighttime_only) )
- {
- v3f dir;
- q_mulv( world_light->node->q, (v3f){0.0f,1.0f,0.0f}, dir );
-
- float spot_theta = vg_maxf( 0.0f, v3_dot( light_delta, dir ) ),
- falloff = spot_theta >= 0.0f? 1.0f: 0.0f;
-
- return quadratic_light * falloff;
- }
- else
- return 0.0f;
-}
-#endif
-
VG_STATIC void world_generate( world_instance *world )
{
/*
int total_cubes = icubes_count[0]*icubes_count[1]*icubes_count[2];
u32 *cubes_index = vg_linear_alloc( world_global.generic_heap,
- total_cubes * sizeof(u32) * 2.0f );
+ vg_align8(total_cubes*sizeof(u32)*2) );
vg_info( "Computing light cubes (%d) [%f %f %f] -> [%f %f %f]\n",
total_cubes, cubes_min[0], -cubes_min[2], cubes_min[1],
world->texture_count = world->meta.textures.count+1;
world->textures = vg_linear_alloc( world_global.generic_heap,
- sizeof(GLuint)*world->texture_count );
+ vg_align8(sizeof(GLuint)*world->texture_count) );
vg_acquire_thread_sync();
{
world->surface_count = world->meta.materials.count+1;
world->surfaces = vg_linear_alloc( world_global.generic_heap,
- sizeof(struct world_surface)*world->surface_count );
+ vg_align8(sizeof(struct world_surface)*world->surface_count) );
/* error material */
struct world_surface *errmat = &world->surfaces[0];
world->water.enabled = 1;
water_set_surface( world, water->transform.co[1] );
}
+
+ /* volumes */
+ for( u32 j=0; j<mdl_arrcount(&world->ent_volume); j++ ){
+ ent_volume *volume = mdl_arritm( &world->ent_volume, j );
+ mdl_transform_m4x3( &volume->transform, volume->to_world );
+ m4x3_invert_full( volume->to_world, volume->to_local );
+ }
+
+ /* audio packs */
+ for( u32 j=0; j<mdl_arrcount(&world->ent_audio); j++ ){
+ ent_audio *audio = mdl_arritm( &world->ent_audio, j );
+
+ for( u32 k=0; k<audio->clip_count; k++ ){
+ ent_audio_clip *clip = mdl_arritm( &world->ent_audio_clip,
+ audio->clip_start+k );
+
+ if( clip->file.pack_size ){
+ u32 size = clip->file.pack_size,
+ offset = clip->file.pack_offset;
+
+ /* FIXME: Ditchable asset! */
+ void *data = mdl_arritm(&world->meta.pack, clip->file.pack_offset);
+
+ clip->clip.path = NULL;
+ clip->clip.flags = audio->flags;
+ clip->clip.data = data;
+ clip->clip.size = size;
+ }
+ else{
+ clip->clip.path = mdl_pstr( &world->meta, clip->file.pstr_path );
+ clip->clip.flags = audio->flags;
+ clip->clip.data = NULL;
+ clip->clip.size = 0;
+ }
+
+ audio_clip_load( &clip->clip, world_global.generic_heap );
+ }
+ }
}
VG_STATIC void world_load( world_instance *world, const char *path )
mdl_load_metadata_block( &world->meta, world_global.generic_heap );
mdl_load_animation_block( &world->meta, world_global.generic_heap );
mdl_load_mesh_block( &world->meta, world_global.generic_heap );
+
+ /* TODO: This should get a seperate memory area */
mdl_load_pack_block( &world->meta, world_global.generic_heap );
mdl_load_array( &world->meta, &world->ent_gate,
"ent_route", world_global.generic_heap );
mdl_load_array( &world->meta, &world->ent_water,
"ent_water", world_global.generic_heap );
+ mdl_load_array( &world->meta, &world->ent_audio_clip,
+ "ent_audio_clip", world_global.generic_heap );
+ mdl_load_array( &world->meta, &world->ent_audio,
+ "ent_audio", world_global.generic_heap );
+ mdl_load_array( &world->meta, &world->ent_volume,
+ "ent_volume", world_global.generic_heap );
mdl_close( &world->meta );
#endif
world_routes_ent_init( world );
world_entities_init( world );
+ world->volume_bh = bh_create( world_global.generic_heap,
+ &bh_system_volumes,
+ world,
+ mdl_arrcount( &world->ent_volume ),
+ 1 );
/* main bulk */
world_generate( world );