2 * Copyright (C) 2021-2022 Mt.ZERO Software, Harry Godden - All Rights Reserved
10 typedef struct world_instance world_instance
;
12 #include "vg/vg_loader.h"
15 #include "network_msg.h"
18 #include "rigidbody.h"
24 #include "shaders/scene_standard.h"
25 #include "shaders/scene_standard_alphatest.h"
26 #include "shaders/scene_vertex_blend.h"
27 #include "shaders/scene_terrain.h"
28 #include "shaders/scene_depth.h"
29 #include "shaders/scene_position.h"
31 #include "shaders/model_sky.h"
33 enum { k_max_ui_segments
= 8 };
35 enum { k_max_ui_elements
= k_max_ui_segments
};
36 enum { k_max_element_verts
= 10 };
37 enum { k_max_element_indices
= 20 };
39 enum { k_route_ui_max_verts
= k_max_ui_elements
*k_max_element_verts
};
40 enum { k_route_ui_max_indices
= k_max_ui_elements
*k_max_element_indices
};
44 k_logic_type_relay
= 1,
45 k_logic_type_chance
= 2,
46 k_logic_type_achievement
= 3
52 k_geo_type_nonsolid
= 1,
56 static const float k_light_cube_size
= 8.0f
;
58 struct world_instance
{
60 * -------------------------------------------------------
64 char world_name
[ 64 ];
66 k_world_status_unloaded
= 0,
67 k_world_status_loading
= 1,
68 k_world_status_loaded
= 2
83 struct ub_world_lighting
{
91 v4f g_nightsky_colour
;
103 float g_shadow_length
;
104 float g_shadow_spread
;
108 float g_sunset_phase
;
111 int g_shadow_samples
;
114 int g_debug_complexity
;
120 GLuint tbo_light_entities
,
124 float probabilities
[3];
128 struct framebuffer heightmap
;
131 * Dynamically allocated when world_load is called.
133 * the following arrays index somewhere into this linear
137 * --------------------------------------------------------------------------
148 struct world_surface
{
156 mdl_array_ptr ent_spawn
,
174 ent_gate
*rendering_gate
;
177 * ----------------------------------------------------
181 scene_context scene_geo
,
185 /* spacial mappings */
191 glmesh mesh_route_lines
;
201 * Allocated as system memory
202 * --------------------------------------------------------------------------
209 mdl_submesh sm_gate_surface
,
212 double sky_time
, sky_rate
, sky_target_rate
;
214 u32 current_run_version
;
215 double time
, rewind_from
, rewind_to
, last_use
;
217 /* water rendering */
219 struct framebuffer fbreflect
, fbdepth
;
223 /* split flap display */
225 glmesh mesh_base
, mesh_display
;
227 u32 active_route_board
;
238 int switching_to_new_world
;
240 world_instance worlds
[4];
254 u32 timer_text_count
;
256 struct text_particle
{
265 u32 text_particle_count
;
269 VG_STATIC world_instance
*get_active_world( void )
271 return &world_global
.worlds
[ world_global
.active_world
];
279 int ray_hit_is_ramp( world_instance
*world
, ray_hit
*hit
);
282 struct world_surface
*ray_hit_surface( world_instance
*world
, ray_hit
*hit
);
285 void ray_world_get_tri( world_instance
*world
, ray_hit
*hit
, v3f tri
[3] );
288 int ray_world( world_instance
*world
, v3f pos
, v3f dir
, ray_hit
*hit
);
291 ent_spawn
*world_find_closest_spawn( world_instance
*world
, v3f position
)
293 ent_spawn
*rp
= NULL
, *r
;
294 float min_dist
= INFINITY
;
296 for( u32 i
=0; i
<mdl_arrcount(&world
->ent_spawn
); i
++ ){
297 r
= mdl_arritm( &world
->ent_spawn
, i
);
298 float d
= v3_dist2( r
->transform
.co
, position
);
307 if( mdl_arrcount(&world
->ent_spawn
) ){
308 vg_warn( "Invalid distances to spawns.. defaulting to first one.\n" );
309 return mdl_arritm( &world
->ent_spawn
, 0 );
312 vg_error( "There are no spawns in the level!\n" );
320 ent_spawn
*world_find_spawn_by_name( world_instance
*world
, const char *name
)
322 ent_spawn
*rp
= NULL
, *r
;
323 for( u32 i
=0; i
<mdl_arrcount(&world
->ent_spawn
); i
++ ){
324 r
= mdl_arritm( &world
->ent_spawn
, i
);
325 if( !strcmp( mdl_pstr(&world
->meta
, r
->pstr_name
), name
) ){
332 vg_warn( "No spawn named '%s'\n", name
);
342 k_day_length
= 30.0f
; /* minutes */
344 VG_STATIC
int k_debug_light_indices
= 0,
345 k_debug_light_complexity
= 0,
348 #include "world_routes.h"
349 #include "world_sfd.h"
350 #include "world_render.h"
351 #include "world_water.h"
352 #include "world_volumes.h"
353 #include "world_gen.h"
354 #include "world_gate.h"
357 * -----------------------------------------------------------------------------
359 * -----------------------------------------------------------------------------
362 VG_STATIC
int world_stop_sound( int argc
, const char *argv
[] )
364 world_instance
*world
= get_active_world();
368 VG_STATIC
void world_init(void)
370 VG_VAR_F32( k_day_length
);
371 VG_VAR_I32( k_debug_light_indices
);
372 VG_VAR_I32( k_debug_light_complexity
);
373 VG_VAR_I32( k_light_preview
);
375 world_global
.sky_rate
= 1.0;
376 world_global
.sky_target_rate
= 1.0;
378 shader_scene_standard_register();
379 shader_scene_standard_alphatest_register();
380 shader_scene_vertex_blend_register();
381 shader_scene_terrain_register();
382 shader_scene_depth_register();
383 shader_scene_position_register();
385 shader_model_sky_register();
387 vg_info( "Loading world resources\n" );
389 vg_linear_clear( vg_mem
.scratch
);
392 mdl_open( &msky
, "models/rs_skydome.mdl", vg_mem
.scratch
);
393 mdl_load_metadata_block( &msky
, vg_mem
.scratch
);
394 mdl_async_load_glmesh( &msky
, &world_global
.skydome
);
398 vg_info( "Loading other world systems\n" );
400 vg_loader_step( world_render_init
, NULL
);
401 vg_loader_step( world_sfd_init
, NULL
);
402 vg_loader_step( world_water_init
, NULL
);
403 vg_loader_step( world_gates_init
, NULL
);
404 vg_loader_step( world_routes_init
, NULL
);
406 /* Allocate dynamic world memory arena */
407 u32 max_size
= 76*1024*1024;
408 world_global
.heap
= vg_create_linear_allocator( vg_mem
.rtmemory
, max_size
,
412 VG_STATIC
void ent_volume_call( world_instance
*world
, ent_call
*call
)
414 u32 index
= mdl_entity_id_id( call
->id
);
415 ent_volume
*volume
= mdl_arritm( &world
->ent_volume
, index
);
416 if( !volume
->target
) return;
418 if( call
->function
== k_ent_function_trigger
){
419 call
->id
= volume
->target
;
421 if( volume
->type
== k_volume_subtype_particle
){
422 float *co
= alloca( sizeof(float)*3 );
423 co
[0] = vg_randf()*2.0f
-1.0f
;
424 co
[1] = vg_randf()*2.0f
-1.0f
;
425 co
[2] = vg_randf()*2.0f
-1.0f
;
426 m4x3_mulv( volume
->to_world
, co
, co
);
428 call
->function
= k_ent_function_particle_spawn
;
430 entity_call( world
, call
);
433 entity_call( world
, call
);
438 VG_STATIC
void ent_audio_call( world_instance
*world
, ent_call
*call
)
440 u32 index
= mdl_entity_id_id( call
->id
);
441 ent_audio
*audio
= mdl_arritm( &world
->ent_audio
, index
);
445 if( call
->function
== k_ent_function_particle_spawn
){
446 v3_copy( call
->data
, sound_co
);
448 else if( call
->function
== k_ent_function_trigger
){
449 v3_copy( audio
->transform
.co
, sound_co
);
452 vg_fatal_error( "ent_audio_call (invalid function id)" );
454 float chance
= vg_randf()*100.0f
,
457 for( u32 i
=0; i
<audio
->clip_count
; i
++ ){
458 ent_audio_clip
*clip
= mdl_arritm( &world
->ent_audio_clip
,
459 audio
->clip_start
+i
);
461 float mod
= world
->probabilities
[ audio
->probability_curve
],
462 p
= clip
->probability
* mod
;
470 if( audio
->behaviour
== k_channel_behaviour_unlimited
){
471 audio_oneshot_3d( &clip
->clip
, sound_co
,
472 audio
->transform
.s
[0],
475 else if( audio
->behaviour
== k_channel_behaviour_discard_if_full
){
477 audio_get_group_idle_channel( audio
->group
,
478 audio
->max_channels
);
481 audio_channel_init( ch
, &clip
->clip
, audio
->flags
);
482 audio_channel_group( ch
, audio
->group
);
483 audio_channel_set_spacial( ch
, sound_co
, audio
->transform
.s
[0] );
484 audio_channel_edit_volume( ch
, audio
->volume
, 1 );
485 ch
= audio_relinquish_channel( ch
);
488 else if( audio
->behaviour
== k_channel_behaviour_crossfade_if_full
){
490 audio_get_group_idle_channel( audio
->group
,
491 audio
->max_channels
);
495 audio_channel
*existing
=
496 audio_get_group_first_active_channel( audio
->group
);
499 if( existing
->source
== &clip
->clip
){
505 existing
= audio_channel_fadeout(existing
, audio
->crossfade
);
508 ch
= audio_get_first_idle_channel();
512 audio_channel_init( ch
, &clip
->clip
, audio
->flags
);
513 audio_channel_group( ch
, audio
->group
);
514 audio_channel_fadein( ch
, audio
->crossfade
);
515 ch
= audio_relinquish_channel( ch
);
525 VG_STATIC
void world_update( world_instance
*world
, v3f pos
)
527 world_global
.sky_time
+= world_global
.sky_rate
* vg
.time_delta
;
528 world_global
.sky_rate
= vg_lerp( world_global
.sky_rate
,
529 world_global
.sky_target_rate
,
530 vg
.time_delta
* 5.0 );
532 world_routes_update_timer_texts( world
);
533 world_routes_update( world
);
534 //world_routes_debug( world );
536 /* ---- traffic -------- */
538 for( u32 i
=0; i
<mdl_arrcount( &world
->ent_traffic
); i
++ ){
539 ent_traffic
*traffic
= mdl_arritm( &world
->ent_traffic
, i
);
541 u32 i1
= traffic
->index
,
545 if( i1
== 0 ) i0
= traffic
->node_count
-1;
548 if( i2
>= traffic
->node_count
) i2
= 0;
550 i0
+= traffic
->start_node
;
551 i1
+= traffic
->start_node
;
552 i2
+= traffic
->start_node
;
556 ent_route_node
*rn0
= mdl_arritm( &world
->ent_route_node
, i0
),
557 *rn1
= mdl_arritm( &world
->ent_route_node
, i1
),
558 *rn2
= mdl_arritm( &world
->ent_route_node
, i2
);
560 v3_copy( rn1
->co
, h
[1] );
561 v3_lerp( rn0
->co
, rn1
->co
, 0.5f
, h
[0] );
562 v3_lerp( rn1
->co
, rn2
->co
, 0.5f
, h
[2] );
564 float const k_sample_dist
= 0.0025f
;
566 eval_bezier3( h
[0], h
[1], h
[2], traffic
->t
, pc
);
567 eval_bezier3( h
[0], h
[1], h
[2], traffic
->t
+k_sample_dist
, pd
);
570 v3_sub( pd
, pc
, v0
);
571 float length
= vg_maxf( 0.0001f
, v3_length( v0
) );
572 v3_muls( v0
, 1.0f
/length
, v0
);
574 float mod
= k_sample_dist
/ length
;
576 traffic
->t
+= traffic
->speed
* vg
.time_delta
* mod
;
578 if( traffic
->t
> 1.0f
){
581 if( traffic
->t
> 1.0f
) traffic
->t
= 0.0f
;
585 if( traffic
->index
>= traffic
->node_count
)
589 v3_copy( pc
, traffic
->transform
.co
);
591 float a
= atan2f( -v0
[0], v0
[2] );
592 q_axis_angle( traffic
->transform
.q
, (v3f
){0.0f
,1.0f
,0.0f
}, -a
);
594 vg_line_pt3( traffic
->transform
.co
, 0.3f
, VG__BLUE
);
597 /* ---- SFD ------------ */
599 if( mdl_arrcount( &world
->ent_route
) ){
601 float min_dist
= INFINITY
;
603 for( u32 i
=0; i
<mdl_arrcount( &world
->ent_route
); i
++ ){
604 ent_route
*route
= mdl_arritm( &world
->ent_route
, i
);
605 float dist
= v3_dist2( route
->board_transform
[3], pos
);
607 if( dist
< min_dist
){
613 if( (world_global
.sfd
.active_route_board
!= closest
)
614 || network_scores_updated
)
616 network_scores_updated
= 0;
617 world_global
.sfd
.active_route_board
= closest
;
619 ent_route
*route
= mdl_arritm( &world
->ent_route
, closest
);
620 u32 id
= route
->official_track_id
;
622 if( id
!= 0xffffffff ){
623 struct netmsg_board
*local_board
=
624 &scoreboard_client_data
.boards
[id
];
626 for( int i
=0; i
<13; i
++ ){
627 sfd_encode( i
, &local_board
->data
[27*i
] );
630 sfd_encode( 0, mdl_pstr( &world
->meta
, route
->pstr_name
) );
631 sfd_encode( 1, "No data" );
637 static float random_accum
= 0.0f
;
638 random_accum
+= vg
.time_delta
;
640 u32 random_ticks
= 0;
642 while( random_accum
> 0.1f
){
643 random_accum
-= 0.1f
;
647 float radius
= 25.0f
;
648 boxf volume_proximity
;
649 v3_add( pos
, (v3f
){ radius
, radius
, radius
}, volume_proximity
[1] );
650 v3_sub( pos
, (v3f
){ radius
, radius
, radius
}, volume_proximity
[0] );
653 bh_iter_init( 0, &it
);
658 while( bh_next( world
->volume_bh
, &it
, volume_proximity
, &idx
) ){
659 ent_volume
*volume
= mdl_arritm( &world
->ent_volume
, idx
);
661 boxf cube
= {{-1.0f
,-1.0f
,-1.0f
},{1.0f
,1.0f
,1.0f
}};
663 if( volume
->type
== k_volume_subtype_trigger
){
665 m4x3_mulv( volume
->to_local
, pos
, local
);
667 if( (fabsf(local
[0]) <= 1.0f
) &&
668 (fabsf(local
[1]) <= 1.0f
) &&
669 (fabsf(local
[2]) <= 1.0f
) )
672 vg_line_boxf_transformed( volume
->to_world
, cube
, 0xff00ff00 );
674 if( !world_global
.in_volume
){
676 basecall
.function
= k_ent_function_trigger
;
677 basecall
.id
= mdl_entity_id( k_ent_volume
, idx
);
678 basecall
.data
= NULL
;
680 entity_call( world
, &basecall
);
684 vg_line_boxf_transformed( volume
->to_world
, cube
, 0xff0000ff );
686 else if( volume
->type
== k_volume_subtype_particle
){
687 vg_line_boxf_transformed( volume
->to_world
, cube
, 0xff00c0ff );
689 for( int j
=0; j
<random_ticks
; j
++ ){
691 basecall
.id
= mdl_entity_id( k_ent_volume
, idx
);
692 basecall
.data
= NULL
;
694 entity_call( world
, &basecall
);
698 world_global
.in_volume
= in_volume
;
701 if( k_debug_light_indices
)
703 for( int i
=0; i
<world
->light_count
; i
++ ){
704 struct world_light
*light
= &world
->lights
[i
];
705 struct classtype_world_light
*inf
= light
->inf
;
707 u32 colour
= 0xff000000;
708 u8 r
= inf
->colour
[0] * 255.0f
,
709 g
= inf
->colour
[1] * 255.0f
,
710 b
= inf
->colour
[2] * 255.0f
;
716 vg_line_pt3( light
->node
->co
, 0.25f
, colour
);
724 * -----------------------------------------------------------------------------
726 * -----------------------------------------------------------------------------
729 VG_STATIC
void ray_world_get_tri( world_instance
*world
,
730 ray_hit
*hit
, v3f tri
[3] )
732 for( int i
=0; i
<3; i
++ )
733 v3_copy( world
->scene_geo
.arrvertices
[ hit
->tri
[i
] ].co
, tri
[i
] );
736 VG_STATIC
int ray_world( world_instance
*world
,
737 v3f pos
, v3f dir
, ray_hit
*hit
)
739 return scene_raycast( &world
->scene_geo
, world
->geo_bh
, pos
, dir
, hit
);
743 * Cast a sphere from a to b and see what time it hits
745 VG_STATIC
int spherecast_world( world_instance
*world
,
746 v3f pa
, v3f pb
, float r
, float *t
, v3f n
)
749 bh_iter_init( 0, &it
);
752 box_init_inf( region
);
753 box_addpt( region
, pa
);
754 box_addpt( region
, pb
);
756 v3_add( (v3f
){ r
, r
, r
}, region
[1], region
[1] );
757 v3_add( (v3f
){-r
,-r
,-r
}, region
[0], region
[0] );
760 v3_sub( pb
, pa
, dir
);
763 dir_inv
[0] = 1.0f
/dir
[0];
764 dir_inv
[1] = 1.0f
/dir
[1];
765 dir_inv
[2] = 1.0f
/dir
[2];
771 while( bh_next( world
->geo_bh
, &it
, region
, &idx
) ){
772 u32
*ptri
= &world
->scene_geo
.arrindices
[ idx
*3 ];
778 for( int j
=0; j
<3; j
++ ){
779 v3_copy( world
->scene_geo
.arrvertices
[ptri
[j
]].co
, tri
[j
] );
780 box_addpt( box
, tri
[j
] );
783 v3_add( (v3f
){ r
, r
, r
}, box
[1], box
[1] );
784 v3_add( (v3f
){-r
,-r
,-r
}, box
[0], box
[0] );
786 if( !ray_aabb1( box
, pa
, dir_inv
, 1.0f
) )
791 if( spherecast_triangle( tri
, pa
, dir
, r
, &t
, n1
) ){
805 struct world_surface
*world_tri_index_surface( world_instance
*world
,
808 for( int i
=1; i
<world
->surface_count
; i
++ ){
809 struct world_surface
*surf
= &world
->surfaces
[i
];
811 if( (index
>= surf
->sm_geo
.vertex_start
) &&
812 (index
< surf
->sm_geo
.vertex_start
+surf
->sm_geo
.vertex_count
) )
818 return &world
->surfaces
[0];
821 VG_STATIC
struct world_surface
*world_contact_surface( world_instance
*world
,
824 return world_tri_index_surface( world
, ct
->element_id
);
827 VG_STATIC
struct world_surface
*ray_hit_surface( world_instance
*world
,
830 return world_tri_index_surface( world
, hit
->tri
[0] );
834 * -----------------------------------------------------------------------------
836 * -----------------------------------------------------------------------------
840 enum audio_sprite_type
world_audio_sample_sprite_random(v3f origin
, v3f output
);
841 VG_STATIC
void world_audio_sample_distances( v3f co
, int *index
, float *value
);
846 * Trace out a random point, near the player to try and determine water areas
849 enum audio_sprite_type
world_audio_sample_sprite_random(v3f origin
, v3f output
)
851 v3f chance
= { (vg_randf()-0.5f
) * 30.0f
,
853 (vg_randf()-0.5f
) * 30.0f
};
856 v3_add( chance
, origin
, pos
);
859 contact
.dist
= vg_minf( 16.0f
, pos
[1] );
861 world_instance
*world
= get_active_world();
863 if( ray_world( world
, pos
, (v3f
){0.0f
,-1.0f
,0.0f
}, &contact
) ){
864 struct world_surface
*mat
= ray_hit_surface( world
, &contact
);
866 if( mat
->info
.surface_prop
== k_surface_prop_grass
){
867 v3_copy( contact
.pos
, output
);
868 return k_audio_sprite_type_grass
;
871 return k_audio_sprite_type_none
;
879 float dist
= fabsf(output
[1] - origin
[1]);
881 if( world
->water
.enabled
&& dist
<=40.0f
)
882 return k_audio_sprite_type_water
;
884 return k_audio_sprite_type_none
;
887 VG_STATIC
void world_audio_sample_distances( v3f co
, int *index
, float *value
)
889 float inr3
= 0.57735027,
890 inr2
= 0.70710678118;
892 v3f sample_directions
[] = {
893 { -1.0f
, 0.0f
, 0.0f
},
894 { 1.0f
, 0.0f
, 0.0f
},
895 { 0.0f
, 0.0f
, 1.0f
},
896 { 0.0f
, 0.0f
, -1.0f
},
897 { 0.0f
, 1.0f
, 0.0f
},
898 { 0.0f
, -1.0f
, 0.0f
},
899 { -inr3
, inr3
, inr3
},
900 { inr3
, inr3
, inr3
},
901 { -inr3
, inr3
, -inr3
},
902 { inr3
, inr3
, -inr3
},
903 { -inr2
, 0.0f
, inr2
},
904 { inr2
, 0.0f
, inr2
},
905 { -inr2
, 0.0f
, -inr2
},
906 { inr2
, 0.0f
, -inr2
},
910 static float distances
[16];
916 v3_copy( sample_directions
[ si
], rd
);
917 v3_add( co
, (v3f
){0.0f
,1.5f
,0.0f
}, ro
);
922 for( int i
=0; i
<10; i
++ ){
923 if( ray_world( get_active_world(), rc
, rd
, &ray
) ){
924 dist
= (float)i
*5.0f
+ ray
.dist
;
928 v3_muladds( rc
, rd
, ray
.dist
, rc
);
932 distances
[si
] = dist
;
935 for( int i
=0; i
<14; i
++ ){
936 if( distances
[i
] != 200.0f
){
937 u32 colours
[] = { VG__RED
, VG__BLUE
, VG__GREEN
,
938 VG__CYAN
, VG__YELOW
, VG__PINK
,
941 u32 colour
= colours
[i
%7];
944 v3_muladds( ro
, sample_directions
[i
], distances
[i
], p1
);
945 vg_line( ro
, p1
, colour
);
946 vg_line_pt3( p1
, 0.1f
, colour
);