#include "input.h"
#include "gui.h"
-VG_STATIC void replay_clear( replay_buffer *replay ){
+static void replay_clear( replay_buffer *replay ){
replay->head = NULL;
replay->tail = NULL;
replay->cursor_frame = NULL;
replay->cursor = -99999.9;
}
-replay_gamestate *replay_frame_gamestate( replay_frame *frame ){
+static
+void * replay_frame_data( replay_frame *frame, enum replay_framedata type ){
void *baseptr = frame;
- return baseptr + vg_align8(sizeof(replay_frame));
+ return baseptr + frame->data_table[type][0];
}
-void *replay_gamestate_subsystem_data( replay_gamestate *gs ){
- void *baseptr = gs;
- return baseptr + vg_align8(sizeof(replay_gamestate));
-}
+static u16
+replay_frame_calculate_data_offsets( u16 data_table[4][2] ){
+ u32 total = vg_align8( sizeof(replay_frame) );
+ for( u32 i=0; i<4; i++ ){
+ data_table[i][0] = total;
+ total += vg_align8(data_table[i][1]);
-u32 replay_frame_gamestate_total_size( u32 subsystem_gamestate_size ){
- if( subsystem_gamestate_size ){
- return vg_align8( sizeof(replay_gamestate) ) +
- vg_align8( subsystem_gamestate_size );
+ if( total > 0xffff )
+ vg_fatal_error( "Exceeded frame storage capacity\n" );
}
- else
- return 0;
-}
-
-replay_sfx *replay_frame_sfx( replay_frame *frame, u32 index ){
- void *gs = replay_frame_gamestate( frame );
- u32 total_size =
- replay_frame_gamestate_total_size( frame->subsystem_gamestate_size );
-
- replay_sfx *array = (gs + total_size);
- return &array[index];
-}
-
-u32 _replay_frame_size( u32 subsystem_gamestate_size, u32 sfx_count ){
- return vg_align8( sizeof( replay_frame ) ) +
- replay_frame_gamestate_total_size( subsystem_gamestate_size ) +
- vg_align8( sfx_count * sizeof(replay_sfx) );
-}
-
-u32 replay_frame_size( replay_frame *frame ){
- return _replay_frame_size( frame->subsystem_gamestate_size,
- frame->sfx_count );
+ return total;
}
-VG_STATIC void replay_tailpop( replay_buffer *replay ){
+static void replay_tailpop( replay_buffer *replay ){
if( replay->cursor_frame == replay->tail )
replay->cursor_frame = NULL;
if( replay->statehead == replay->tail )
replay->head = NULL;
}
-VG_STATIC replay_frame *replay_newframe( replay_buffer *replay,
- u32 subsystem_gamestate_size,
- u32 sfx_count ){
- replay_frame *frame = NULL;
- if( replay->head ){
- assert( replay->head );
+static replay_frame *replay_newframe( replay_buffer *replay,
+ u16 animator_size,
+ u16 gamestate_size,
+ u16 sfx_count ){
+ u16 data_table[4][2];
+ data_table[ k_replay_framedata_animator ][1] = animator_size;
+ data_table[ k_replay_framedata_gamestate ][1] = gamestate_size;
+ data_table[ k_replay_framedata_sfx ][1] = 0;
+ data_table[ k_replay_framedata_internal_gamestate ][1] = 0;
+ if( gamestate_size ){
+ data_table[ k_replay_framedata_internal_gamestate ][1] =
+ sizeof( replay_gamestate );
+ }
- u32 headsize = replay_frame_size( replay->head ),
- nextpos = ((void *)replay->head - replay->data) + headsize,
- nextsize = _replay_frame_size( subsystem_gamestate_size, sfx_count );
+ u32 nextsize = replay_frame_calculate_data_offsets( data_table );
- if( nextsize > replay->size ){
- vg_error( "Keyframe too big\n" );
- return NULL;
- }
+ replay_frame *frame = NULL;
+ if( replay->head ){
+ u32 headsize = replay->head->total_size,
+ nextpos = ((void *)replay->head - replay->data) + headsize;
if( nextpos + nextsize > replay->size ){
nextpos = 0;
}
check_again:;
-
u32 tailpos = (void *)replay->tail - replay->data;
if( tailpos >= nextpos ){
else
frame = replay->data;
- frame->subsystem_gamestate_size = subsystem_gamestate_size;
- frame->sfx_count = sfx_count;
+ for( u32 i=0; i<4; i++ ){
+ frame->data_table[i][0] = data_table[i][0];
+ frame->data_table[i][1] = data_table[i][1];
+ }
+
+ frame->total_size = nextsize;
frame->l = replay->head;
frame->r = NULL;
replay->head = frame;
if( !replay->tail ) replay->tail = frame;
- if( subsystem_gamestate_size ) replay->statehead = frame;
+ if( gamestate_size ) replay->statehead = frame;
return frame;
}
-VG_STATIC void replay_seek( replay_buffer *replay, f64 t ){
+static void replay_seek( replay_buffer *replay, f64 t ){
if( !replay->head ) return;
assert( replay->tail );
replay->cursor = t;
}
-VG_STATIC replay_frame *replay_find_recent_stateframe( replay_buffer *replay ){
+static replay_frame *replay_find_recent_stateframe( replay_buffer *replay ){
replay_frame *frame = replay->cursor_frame;
u32 i=4096;
while( i --> 0 ){
if( !frame ) return frame;
- if( frame->subsystem_gamestate_size ) return frame;
+ if( frame->data_table[ k_replay_framedata_gamestate ][1] ) return frame;
frame = frame->l;
}
return NULL;
}
-VG_STATIC f32 replay_subframe_time( replay_buffer *replay ){
+static f32 replay_subframe_time( replay_buffer *replay ){
replay_frame *frame = replay->cursor_frame;
if( !frame ) return 0.0f;
replay_frame *next = frame->r;
return 0.0f;
}
-VG_STATIC void replay_get_frame_camera( replay_frame *frame, camera *cam ){
+static void replay_get_frame_camera( replay_frame *frame, camera *cam ){
cam->fov = frame->cam_fov;
v3_copy( frame->cam_pos, cam->pos );
v3_copy( frame->cam_angles, cam->angles );
}
-VG_STATIC void replay_get_camera( replay_buffer *replay, camera *cam ){
+static void replay_get_camera( replay_buffer *replay, camera *cam ){
cam->nearz = 0.1f;
cam->farz = 100.0f;
if( replay->cursor_frame ){
v4f q;
};
-VG_STATIC
+static
void skaterift_record_frame( replay_buffer *replay, int force_gamestate ){
f64 delta = 9999999.9,
statedelta = 9999999.9;
if( !save_frame ) return;
- u32 gamestate_size = 0;
-
+ u16 gamestate_size = 0;
if( save_state ){
gamestate_size = (u32 []){
[k_player_subsystem_walk ] = sizeof(struct player_walk_state),
sizeof(struct replay_rb)
}[ localplayer.subsystem ];
}
+
+ u16 animator_size = (u16 []){
+ [k_player_subsystem_walk ] = sizeof(struct player_walk_animator),
+ [k_player_subsystem_drive] = 0,
+ [k_player_subsystem_skate] = sizeof(struct player_skate_animator),
+ [k_player_subsystem_dead ] = sizeof(struct player_dead_animator)
+ }[ localplayer.subsystem ];
- replay_frame *frame = replay_newframe( replay, gamestate_size, 0 );
+ replay_frame *frame = replay_newframe( replay,
+ animator_size, gamestate_size, 0 );
+ frame->system = localplayer.subsystem;
if( save_state ){
- replay_gamestate *gs = replay_frame_gamestate( frame );
- gs->system = localplayer.subsystem;
+ replay_gamestate *gs =
+ replay_frame_data( frame, k_replay_framedata_internal_gamestate );
/* permanent block */
memcpy( &gs->rb, &localplayer.rb, sizeof(rigidbody) );
sizeof(struct player_cam_controller) );
v3_copy( localplayer.angles, gs->angles );
- void *dst = replay_gamestate_subsystem_data( gs );
+ void *dst = replay_frame_data( frame, k_replay_framedata_gamestate );
/* subsytem/dynamic block */
if( localplayer.subsystem == k_player_subsystem_walk )
- memcpy( dst, &localplayer._walk.state, gamestate_size );
+ memcpy( dst, &player_walk.state, gamestate_size );
else if( localplayer.subsystem == k_player_subsystem_skate )
- memcpy( dst, &localplayer._skate.state, gamestate_size );
+ memcpy( dst, &player_skate.state, gamestate_size );
else if( localplayer.subsystem == k_player_subsystem_dead ){
struct replay_rb *arr = dst;
for( u32 i=0; i<localplayer.ragdoll.part_count; i ++ ){
replay->cursor = vg.time;
replay->cursor_frame = frame;
-
- player_pose *res = &frame->pose;
- v3_zero( res->root_co );
- q_identity( res->root_q );
- res->type = k_player_pose_type_absolute;
-
- struct skeleton *sk = &localplayer.playeravatar->sk;
-
- memcpy( &frame->pose.board, &localplayer.pose.board,
- sizeof(localplayer.pose.board) );
frame->time = vg.time;
- v3_copy( localplayer.cam.pos, frame->cam_pos );
+ /* camera */
+ v3_copy( localplayer.cam.pos, frame->cam_pos );
if( localplayer.gate_waiting ){
m4x3_mulv( localplayer.gate_waiting->transport,
frame->cam_pos, frame->cam_pos );
-
- for( u32 i=1; i<sk->bone_count; i++ ){
- struct skeleton_bone *sb = &sk->bones[i];
- mdl_keyframe *kf = &res->keyframes[i-1];
- m4x3f mtx;
- m4x3_mul( localplayer.gate_waiting->transport, sk->final_mtx[i], mtx );
- m4x3_decompose( mtx, kf->co, kf->q, kf->s );
- }
}
- else
- skeleton_decompose_mtx_absolute( sk, res->keyframes );
-
v3_copy( localplayer.cam.angles, frame->cam_angles );
frame->cam_fov = localplayer.cam.fov;
+
+ /* animator */
+ void *dst = replay_frame_data( frame, k_replay_framedata_animator );
+
+ if( localplayer.subsystem == k_player_subsystem_walk )
+ memcpy( dst, &player_walk.animator, animator_size );
+ else if( localplayer.subsystem == k_player_subsystem_skate )
+ memcpy( dst, &player_skate.animator, animator_size );
+ else if( localplayer.subsystem == k_player_subsystem_dead ){
+ memcpy( dst, &player_dead.animator, animator_size );
+ }
}
-VG_STATIC
+static
void skaterift_restore_frame( replay_frame *frame ){
- replay_gamestate *gs = replay_frame_gamestate( frame );
- void *src = replay_gamestate_subsystem_data( gs );
-
- /* TODO: Move this to subsystem bindings now that its variable */
- if( gs->system == k_player_subsystem_walk ){
- memcpy( &localplayer._walk.state, src,
- frame->subsystem_gamestate_size );
+ replay_gamestate *gs =
+ replay_frame_data( frame, k_replay_framedata_internal_gamestate );
+ void *src = replay_frame_data( frame, k_replay_framedata_gamestate );
+ u16 src_size = frame->data_table[ k_replay_framedata_gamestate ][1];
+ assert( src_size );
+
+ if(frame->system == k_player_subsystem_walk ){
+ memcpy( &player_walk.state, src, src_size );
}
- else if( gs->system == k_player_subsystem_skate ){
- memcpy( &localplayer._skate.state, src,
- frame->subsystem_gamestate_size );
+ else if( frame->system == k_player_subsystem_skate ){
+ memcpy( &player_skate.state, src, src_size );
}
- else if( gs->system == k_player_subsystem_dead ){
- player__dead_transition( &localplayer );
+ else if( frame->system == k_player_subsystem_dead ){
+ player__dead_transition();
struct replay_rb *arr = src;
for( u32 i=0; i<localplayer.ragdoll.part_count; i ++ ){
}
}
- localplayer.subsystem = gs->system;
+ localplayer.subsystem = frame->system;
memcpy( &localplayer.rb, &gs->rb, sizeof(rigidbody) );
v3_copy( gs->angles, localplayer.angles );
vg.time = frame->time;
}
-VG_STATIC void skaterift_replay_resume(void){
+static void skaterift_replay_resume(void){
replay_frame *prev = replay_find_recent_stateframe(&skaterift.replay);
if( prev ){
}
}
-VG_STATIC void skaterift_replay_pre_update(void){
+static void skaterift_replay_pre_update(void){
if( skaterift.activity != k_skaterift_replay ) return;
if( skaterift.replay_control == k_replay_control_resume ){
}
}
-VG_STATIC void skaterift_get_replay_camera( camera *cam ){
+static void skaterift_get_replay_camera( camera *cam ){
if( skaterift.freecam ){
cam->nearz = 0.1f;
cam->farz = 100.0f;
}
}
-VG_STATIC void skaterift_replay_debug_info(void){
+static void skaterift_replay_debug_info(void){
player__debugtext( 2, "replay info" );
replay_buffer *replay = &skaterift.replay;
player__debugtext( 1, "head @%u | tail @%u\n", head, tail );
if( replay->statehead ){
+ for( u32 i=0; i<4; i++ ){
+ player__debugtext( 1, "[%u]: [%hu, %hu]\n", i,
+ replay->statehead->data_table[i][0],
+ replay->statehead->data_table[i][1] );
+ }
u32 state = (void *)replay->statehead - replay->data;
player__debugtext( 1, "gs @%u\n", state );
- player__debugtext( 1, "gamestate_size: %u\n",
- replay->statehead->subsystem_gamestate_size );
+ player__debugtext( 1, "gamestate_size: %hu\n",
+ replay->statehead->data_table[k_replay_framedata_gamestate][1] );
}
else
player__debugtext( 1, "gs @NULL\n" );
player__debugtext( 1, "cursor: %.2fs / %.2fs\n", cur, len );
}
-VG_STATIC void skaterift_replay_imgui(void){
+static void skaterift_replay_imgui(void){
if( skaterift.activity != k_skaterift_replay ) return;
replay_buffer *replay = &skaterift.replay;