#define PLAYER_SKATE_C
#include "player.h"
+#include "audio.h"
VG_STATIC void player__skate_bind( player_instance *player )
{
struct skeleton *sk = &av->sk;
rb_update_transform( &player->rb );
+ s->anim_grind = skeleton_get_anim( sk, "pose_grind" );
+ s->anim_grind_jump = skeleton_get_anim( sk, "pose_grind_jump" );
s->anim_stand = skeleton_get_anim( sk, "pose_stand" );
s->anim_highg = skeleton_get_anim( sk, "pose_highg" );
s->anim_air = skeleton_get_anim( sk, "pose_air" );
s->anim_grabs = skeleton_get_anim( sk, "grabs" );
}
+VG_STATIC void player__skate_kill_audio( player_instance *player )
+{
+ struct player_skate *s = &player->_skate;
+
+ audio_lock();
+ if( s->aud_main )
+ s->aud_main = audio_channel_fadeout( s->aud_main, 0.1f );
+ if( s->aud_air )
+ s->aud_air = audio_channel_fadeout( s->aud_air, 0.1f );
+ if( s->aud_slide )
+ s->aud_slide = audio_channel_fadeout( s->aud_slide, 0.1f );
+ audio_unlock();
+}
+
/*
* Collision detection routines
*
v3_cross( plane, player->basis[1], support_axis );
v3_normalize( support_axis );
- while( bh_next( world->geo_bh, &it, box, &idx ) )
- {
+ while( bh_next( world->geo_bh, &it, box, &idx ) ){
u32 *ptri = &world->scene_geo->arrindices[ idx*3 ];
v3f tri[3];
- struct world_material *mat = world_tri_index_material(world,ptri[0]);
- if( !(mat->info.flags & k_material_flag_skate_surface) )
+ struct world_surface *surf = world_tri_index_surface(world,ptri[0]);
+#if 0
+ if( !(surf->info.flags & k_material_flag_skate_surface) )
continue;
+#endif
for( int j=0; j<3; j++ )
v3_copy( world->scene_geo->arrvertices[ptri[j]].co, tri[j] );
- for( int j=0; j<3; j++ )
- {
+ for( int j=0; j<3; j++ ){
int i0 = j,
i1 = (j+1) % 3;
struct grind_sample *sample = &samples[ sample_count ];
v3f co;
- if( plane_segment( plane, tri[i0], tri[i1], co ) )
- {
+ if( plane_segment( plane, tri[i0], tri[i1], co ) ){
v3f d;
v3_sub( co, pos, d );
if( v3_length2( d ) > r*r )
int passed_samples = 0;
- for( int i=0; i<sample_count-1; i++ )
- {
+ for( int i=0; i<sample_count-1; i++ ){
struct grind_sample *si, *sj;
si = &samples[i];
- for( int j=i+1; j<sample_count; j++ )
- {
+ for( int j=i+1; j<sample_count; j++ ){
if( i == j )
continue;
return passed_samples;
}
-VG_STATIC int solve_prediction_for_target( player_instance *player,
- v3f target, float max_angle,
- struct land_prediction *p )
+VG_STATIC void reset_jump_info( jump_info *inf )
{
- /* calculate the exact solution(s) to jump onto that grind spot */
+ inf->log_length = 0;
+ inf->land_dist = 0.0f;
+ inf->score = 0.0f;
+ inf->type = k_prediction_unset;
+ v3_zero( inf->apex );
+}
+
+VG_STATIC int create_jumps_to_hit_target( player_instance *player,
+ jump_info *jumps,
+ v3f target, float max_angle_delta,
+ float gravity )
+{
+ struct player_skate *s = &player->_skate;
+
+ /* calculate the exact 2 solutions to jump onto that grind spot */
v3f v0;
v3_sub( target, player->rb.co, v0 );
float a = atan2f( v[1], v[0] ),
m = v2_length( v ),
- root = m*m*m*m - p->gravity*(p->gravity*d[0]*d[0] + 2.0f*d[1]*m*m);
+ root = m*m*m*m - gravity*(gravity*d[0]*d[0] + 2.0f*d[1]*m*m);
- if( root > 0.0f )
- {
+ int valid_count = 0;
+
+ if( root > 0.0f ){
root = sqrtf( root );
- float a0 = atanf( (m*m + root) / (p->gravity * d[0]) ),
- a1 = atanf( (m*m - root) / (p->gravity * d[0]) );
+ float a0 = atanf( (m*m + root) / (gravity * d[0]) ),
+ a1 = atanf( (m*m - root) / (gravity * d[0]) );
+
+ if( fabsf(a0-a) < max_angle_delta ){
+ jump_info *inf = &jumps[ valid_count ++ ];
+ reset_jump_info( inf );
+
+ v3_muls( ax, cosf( a0 ) * m, inf->v );
+ inf->v[1] += sinf( a0 ) * m;
+ m3x3_mulv( player->basis, inf->v, inf->v );
+ inf->land_dist = d[0] / (cosf(a0)*m);
+ inf->gravity = gravity;
+
+ v3_copy( target, inf->log[inf->log_length ++] );
+ }
+
+ if( fabsf(a1-a) < max_angle_delta ){
+ jump_info *inf = &jumps[ valid_count ++ ];
+ reset_jump_info( inf );
+
+ v3_muls( ax, cosf( a1 ) * m, inf->v );
+ inf->v[1] += sinf( a1 ) * m;
+ m3x3_mulv( player->basis, inf->v, inf->v );
+ inf->land_dist = d[0] / (cosf(a1)*m);
+ inf->gravity = gravity;
+
+ v3_copy( target, inf->log[inf->log_length ++] );
+ }
+ }
+
+ return valid_count;
+}
+
+#if 0
+VG_STATIC
+int create_jump_for_target( world_instance *world, player_instance *player,
+ v3f target, float max_angle, jump_info *jump )
+{
if( fabsf(a0-a) > fabsf(a1-a) )
a0 = a1;
/* TODO: sweep the path before chosing the smallest dist */
- p->log_length = 0;
- p->land_dist = 0.0f;
- v3_zero( p->apex );
- p->type = k_prediction_grind;
-
- v3_muls( ax, cosf( a0 ) * m, p->v );
- p->v[1] += sinf( a0 ) * m;
- m3x3_mulv( player->basis, p->v, p->v );
-
- p->land_dist = d[0] / (cosf(a0)*m);
+#if 0
/* add a trace */
for( int i=0; i<=20; i++ )
{
v3_add( player->rb.co, p0, p->log[ p->log_length ++ ] );
}
+#endif
return 1;
}
else
return 0;
}
+#endif
VG_STATIC
void player__approximate_best_trajectory( player_instance *player )
v3_copy( player->rb.v, s->state.air_init_v );
v3_copy( player->rb.co, s->state.air_init_co );
- s->prediction_count = 0;
+ s->possible_jump_count = 0;
v3f axis;
v3_cross( player->rb.v, player->rb.to_world[1], axis );
struct grind_info grind;
int grind_located = 0;
+ float grind_located_gravity = k_gravity;
- for( int m=0;m<=30; m++ )
- {
- struct land_prediction *p = &s->predictions[ s->prediction_count ++ ];
- p->log_length = 0;
- p->land_dist = 0.0f;
- v3_zero( p->apex );
- p->type = k_prediction_none;
+ v3f launch_v_bounds[2];
+
+ for( int i=0; i<2; i++ ){
+ v3_copy( player->rb.v, launch_v_bounds[i] );
+ float ang = (float[]){ angle_begin, angle_end }[ i ];
+ ang *= 0.15f;
+
+ v4f qbias;
+ q_axis_angle( qbias, axis, ang );
+ q_mulv( qbias, launch_v_bounds[i], launch_v_bounds[i] );
+ }
+
+ for( int m=0;m<=30; m++ ){
+ jump_info *inf = &s->possible_jumps[ s->possible_jump_count ++ ];
+ reset_jump_info( inf );
v3f launch_co, launch_v, co0, co1;
v3_copy( player->rb.co, launch_co );
float gravity_bias = vg_lerpf( 0.85f, 1.4f, vt ),
gravity = k_gravity * gravity_bias;
- p->gravity = gravity;
+ inf->gravity = gravity;
+ v3_copy( launch_v, inf->v );
- v3_copy( launch_v, p->v );
+ m3x3f basis;
+ m3x3_copy( player->basis, basis );
- for( int i=1; i<=50; i++ )
- {
+ for( int i=1; i<=50; i++ ){
float t = (float)i * k_trace_delta;
v3_muls( launch_v, t, co1 );
- v3_muladds( co1, player->basis[1], -0.5f * gravity * t*t, co1 );
+ v3_muladds( co1, basis[1], -0.5f * gravity * t*t, co1 );
v3_add( launch_co, co1, co1 );
- float launch_vy = v3_dot( launch_v,player->basis[1] );
- if( !grind_located && (launch_vy - gravity*t < 0.0f) )
- {
- v3f closest;
- if( bh_closest_point( world->geo_bh, co1, closest, 1.0f ) != -1 )
- {
- v3f ve;
- v3_copy( launch_v, ve );
- v3_muladds( ve, player->basis[1], -gravity * t, ve );
-
- if( skate_grind_scansq( player, closest, ve, 0.5f, &grind ) )
- {
- /* check alignment */
- v2f v0 = { v3_dot( ve, player->basis[0] ),
- v3_dot( ve, player->basis[2] ) },
- v1 = { v3_dot( grind.dir, player->basis[0] ),
- v3_dot( grind.dir, player->basis[2] ) };
-
- v2_normalize( v0 );
- v2_normalize( v1 );
-
- float a = v2_dot( v0, v1 );
-
- if( a >= cosf( VG_PIf * 0.185f ) )
- {
- grind_located = 1;
- }
+ float launch_vy = v3_dot( launch_v,basis[1] );
+
+ int search_for_grind = 1;
+ if( grind_located ) search_for_grind = 0;
+ if( launch_vy - gravity*t > 0.0f ) search_for_grind = 0;
+
+ /* TODO Cleanup */
+
+ v3f closest;
+ if( search_for_grind ){
+ if( bh_closest_point( world->geo_bh, co1, closest, 1.0f ) != -1 ){
+ v3f bound[2];
+
+ for( int j=0; j<2; j++ ){
+ v3_muls( launch_v_bounds[j], t, bound[j] );
+ v3_muladds( bound[j], basis[1], -0.5f*gravity*t*t, bound[j] );
+ v3_add( launch_co, bound[j], bound[j] );
+ }
+
+ float minh = vg_minf( bound[0][1], bound[1][1] ),
+ maxh = vg_maxf( bound[0][1], bound[1][1] );
+
+ vg_info( "%f [%f:%f]\n", closest[1], minh, maxh );
+
+ if( (closest[1] < minh) || (closest[1] > maxh) ){
+ search_for_grind = 0;
}
}
+ else
+ search_for_grind = 0;
+ }
+
+ if( search_for_grind ){
+ v3f ve;
+ v3_copy( launch_v, ve );
+ v3_muladds( ve, basis[1], -gravity * t, ve );
+
+ if( skate_grind_scansq( player, closest, ve, 0.5f, &grind ) ){
+ /* check alignment */
+ v2f v0 = { v3_dot( ve, basis[0] ),
+ v3_dot( ve, basis[2] ) },
+ v1 = { v3_dot( grind.dir, basis[0] ),
+ v3_dot( grind.dir, basis[2] ) };
+
+ v2_normalize( v0 );
+ v2_normalize( v1 );
+
+ float a = v2_dot( v0, v1 );
+
+ if( a >= cosf( VG_PIf * 0.185f ) ){
+ grind_located = 1;
+ grind_located_gravity = inf->gravity;
+
+ vg_success( "Grind located\n" );
+ }
+ }
+ }
+
+ if( world->rendering_gate ){
+ ent_gate *gate = world->rendering_gate;
+ if( gate_intersect( gate, co1, co0 ) ){
+ m4x3_mulv( gate->transport, co0, co0 );
+ m4x3_mulv( gate->transport, co1, co1 );
+ m3x3_mulv( gate->transport, launch_v, launch_v);
+ m4x3_mulv( gate->transport, launch_co, launch_co );
+ m3x3_mul( gate->transport, basis, basis );
+ }
}
float t1;
v3f n;
int idx = spherecast_world( world, co0, co1, k_board_radius, &t1, n );
- if( idx != -1 )
- {
+ if( idx != -1 ){
v3f co;
v3_lerp( co0, co1, t1, co );
- v3_copy( co, p->log[ p->log_length ++ ] );
+ v3_copy( co, inf->log[ inf->log_length ++ ] );
- v3_copy( n, p->n );
- p->type = k_prediction_land;
+ v3_copy( n, inf->n );
+ u32 *tri = &world->scene_geo->arrindices[ idx*3 ];
+ struct world_surface *surf = world_tri_index_surface(world, tri[0]);
+
+#if 0
+ v3f v0, v1;
+ v3f pa, pb, pc;
+
+ v3_copy( world->scene_geo->arrvertices[tri[0]].co, pa );
+ v3_copy( world->scene_geo->arrvertices[tri[1]].co, pb );
+ v3_copy( world->scene_geo->arrvertices[tri[2]].co, pc );
+
+ v3_sub( pb, pa, v0 );
+ v3_sub( pc, pa, v1 );
+ v3_cross( v0, v1, inf->n );
+ v3_normalize( inf->n );
+#endif
+ /* TODO:
+ * grind predictions, we want to FORCE it to land in the correct
+ * location, taking the cloest endpoint or midpoint to be the
+ * snapper.
+ */
+
+ inf->type = k_prediction_land;
v3f ve;
v3_copy( launch_v, ve );
v3_muladds( ve, player->basis[1], -gravity * t, ve );
- struct grind_info replace_grind;
- if( skate_grind_scansq( player, co, ve, 0.3f, &replace_grind ) )
- {
- v3_copy( replace_grind.n, p->n );
- p->type = k_prediction_grind;
- }
+ inf->score = -v3_dot( ve, inf->n );
+ inf->land_dist = t + k_trace_delta * t1;
- p->score = -v3_dot( ve, p->n );
- p->land_dist = t + k_trace_delta * t1;
-
- u32 vert_index = world->scene_geo->arrindices[ idx*3 ];
- struct world_material *mat =
- world_tri_index_material( world, vert_index );
/* Bias prediction towords ramps */
- if( !(mat->info.flags & k_material_flag_skate_surface) )
- p->score *= 10.0f;
+ if( !(surf->info.flags & k_material_flag_skate_surface) )
+ inf->score *= 10.0f;
break;
}
if( i % 3 == 0 )
- v3_copy( co1, p->log[ p->log_length ++ ] );
+ v3_copy( co1, inf->log[ inf->log_length ++ ] );
v3_copy( co1, co0 );
}
- if( p->type == k_prediction_none )
- s->prediction_count --;
+ if( inf->type == k_prediction_unset )
+ s->possible_jump_count --;
}
- if( grind_located )
- {
- /* calculate the exact solution(s) to jump onto that grind spot */
- struct land_prediction *p = &s->predictions[ s->prediction_count ];
- p->gravity = k_gravity;
+ if( grind_located ){
+ jump_info grind_jumps[2];
+
+ int valid_count =
+ create_jumps_to_hit_target( player, grind_jumps, grind.co,
+ 0.175f*VG_PIf, grind_located_gravity );
+
+ /* knock out original landing points in the 1m area
+ * TODO: Make this a konstant */
+ for( u32 j=0; j<s->possible_jump_count; j++ ){
+ jump_info *jump = &s->possible_jumps[ j ];
+ float dist = v3_dist2( jump->log[jump->log_length-1], grind.co );
+ float descale = 1.0f-vg_minf(1.0f,dist);
+ jump->score += descale*3.0f;
+ }
- if( solve_prediction_for_target( player, grind.co, 0.125f*VG_PIf, p ) )
- {
- v3_copy( grind.n, p->n );
+ for( int i=0; i<valid_count; i++ ){
+ jump_info *jump = &grind_jumps[i];
+ jump->type = k_prediction_grind;
+
+ v3f launch_v, launch_co, co0, co1;
+
+ v3_copy( jump->v, launch_v );
+ v3_copy( player->rb.co, launch_co );
+
+ m3x3f basis;
+ m3x3_copy( player->basis, basis );
+
+ float t = 0.05f * jump->land_dist;
+ v3_muls( launch_v, t, co0 );
+ v3_muladds( co0, basis[1], -0.5f * jump->gravity * t*t, co0 );
+ v3_add( launch_co, co0, co0 );
+
+#if 0
+ /* rough scan to make sure we dont collide with anything */
+ for( int j=1; j<=16; j++ ){
+ t = (float)j*(1.0f/16.0f);
+ t *= 0.9f;
+ t += 0.05f;
+ t *= jump->land_dist;
+
+ v3_muls( launch_v, t, co1 );
+ v3_muladds( co1, basis[1], -0.5f * jump->gravity * t*t, co1 );
+ v3_add( launch_co, co1, co1 );
+
+ float t1;
+ v3f n;
+
+ int idx = spherecast_world( world, co0,co1,
+ k_board_radius*0.5f, &t1, n);
+ if( idx != -1 ){
+ goto invalidated_grind;
+ }
+
+ v3_copy( co1, co0 );
+ }
+#endif
+
+ v3_copy( grind.n, jump->n );
/* determine score */
v3f ve;
- v3_copy( p->v, ve );
- v3_muladds( ve, player->basis[1], -p->gravity * p->land_dist, ve );
- p->score = -v3_dot( ve, grind.n ) * 0.85f;
+ v3_copy( jump->v, ve );
+ v3_muladds( ve, player->basis[1], -jump->gravity*jump->land_dist, ve );
+ jump->score = -v3_dot( ve, grind.n ) * 0.9f;
- s->prediction_count ++;
+ s->possible_jumps[ s->possible_jump_count ++ ] = *jump;
+
+#if 0
+ continue;
+invalidated_grind:;
+#endif
}
}
float score_min = INFINITY,
score_max = -INFINITY;
- struct land_prediction *best = NULL;
+ jump_info *best = NULL;
- for( int i=0; i<s->prediction_count; i ++ )
- {
- struct land_prediction *p = &s->predictions[i];
+ for( int i=0; i<s->possible_jump_count; i ++ ){
+ jump_info *jump = &s->possible_jumps[i];
- if( p->score < score_min )
- best = p;
+ if( jump->score < score_min )
+ best = jump;
- score_min = vg_minf( score_min, p->score );
- score_max = vg_maxf( score_max, p->score );
+ score_min = vg_minf( score_min, jump->score );
+ score_max = vg_maxf( score_max, jump->score );
}
- for( int i=0; i<s->prediction_count; i ++ )
- {
- struct land_prediction *p = &s->predictions[i];
- float s = p->score;
+ for( int i=0; i<s->possible_jump_count; i ++ ){
+ jump_info *jump = &s->possible_jumps[i];
+ float s = jump->score;
s -= score_min;
s /= (score_max-score_min);
s = 1.0f - s;
- p->score = s;
- p->colour = s * 255.0f;
+ jump->score = s;
+ jump->colour = s * 255.0f;
- if( p == best )
- p->colour <<= 16;
- else if( p->type == k_prediction_land )
- p->colour <<= 8;
+ if( jump == best )
+ jump->colour <<= 16;
+ else if( jump->type == k_prediction_land )
+ jump->colour <<= 8;
- p->colour |= 0xff000000;
+ jump->colour |= 0xff000000;
}
- if( best )
- {
+ if( best ){
v3_copy( best->n, s->land_normal );
v3_copy( best->v, player->rb.v );
s->land_dist = best->land_dist;
v2_normalize_clamp( steer );
s->state.gravity_bias = best->gravity;
- if( (fabsf(steer[1]) > 0.5f) && (s->land_dist >= 1.5f) )
- {
+ if( best->type == k_prediction_grind ){
+ s->state.activity = k_skate_activity_air_to_grind;
+ }
+
+ if( (fabsf(steer[1]) > 0.5f) && (s->land_dist >= 1.5f) ){
s->state.flip_rate = (1.0f/s->land_dist) * vg_signf(steer[1]) *
s->state.reverse ;
s->state.flip_time = 0.0f;
v3_copy( player->rb.to_world[0], s->state.flip_axis );
}
- else
- {
+ else{
s->state.flip_rate = 0.0f;
v3_zero( s->state.flip_axis );
}
}
- else
- {
+ else{
v3_copy( player->basis[1], s->land_normal );
}
}
{
struct player_skate *s = &player->_skate;
- if( s->state.activity_prev != k_skate_activity_air )
+ if( s->state.activity_prev > k_skate_activity_air_to_grind )
player__approximate_best_trajectory( player );
float angle = v3_dot( player->rb.to_world[1], s->land_normal );
v3_muladds( s->board_trick_residuald, s->board_trick_residualv,
k_rb_delta, s->board_trick_residuald );
- if( s->state.activity == k_skate_activity_air )
- {
+ if( s->state.activity <= k_skate_activity_air_to_grind ){
if( v3_length2( s->state.trick_vel ) < 0.0001f )
return;
float min_rate = 99999.0f;
- for( int i=0; i<3; i++ )
- {
+ for( int i=0; i<3; i++ ){
float v = s->state.trick_vel[i];
if( (v > 0.0f) && (v < min_rate) )
min_rate = v;
v3_muladds( s->state.trick_euler, s->state.trick_vel, k_rb_delta,
s->state.trick_euler );
- if( !carry_on && (s->state.trick_time + k_rb_delta >= next_end) )
- {
+ if( !carry_on && (s->state.trick_time + k_rb_delta >= next_end) ){
s->state.trick_time = 0.0f;
s->state.trick_euler[0] = roundf( s->state.trick_euler[0] );
s->state.trick_euler[1] = roundf( s->state.trick_euler[1] );
s->state.trick_time += k_rb_delta;
}
- else
- {
+ else{
if( (v3_length2(s->state.trick_vel) >= 0.0001f ) &&
s->state.trick_time > 0.2f)
{
+ player__skate_kill_audio( player );
player__dead_transition( player );
}
float grabt = player->input_grab->axis.value;
- if( grabt > 0.5f )
- {
+ if( grabt > 0.5f ){
v2_muladds( s->state.grab_mouse_delta, vg.mouse_delta, 0.02f,
s->state.grab_mouse_delta );
float rate = 26.0f,
top = 1.0f;
- if( s->state.activity == k_skate_activity_air )
- {
+ if( s->state.activity <= k_skate_activity_air_to_grind ){
rate = 6.0f * fabsf(steer);
top = 1.5f;
}
- else
- {
+ else{
/* rotate slower when grabbing on ground */
steer *= (1.0f-(s->state.jump_charge+grab)*0.4f);
- if( s->state.activity == k_skate_activity_grind_5050 )
- {
+ if( s->state.activity == k_skate_activity_grind_5050 ){
rate = 0.0f;
top = 0.0f;
}
- else if( s->state.activity >= k_skate_activity_grind_any )
- {
+ else if( s->state.activity >= k_skate_activity_grind_any ){
rate *= fabsf(steer);
float a = 0.8f * -steer * k_rb_delta;
v3_normalize( s->grind_vec );
}
- else if( s->state.manual_direction )
- {
+ else if( s->state.manual_direction ){
rate = 35.0f;
top = 1.5f;
}
s->state.slip = slip;
s->state.reverse = -vg_signf(vel[2]);
- vel[0] += vg_cfrictf( vel[0], k_friction_lat * k_rb_delta );
- vel[2] += vg_cfrictf( vel[2], k_friction_resistance * k_rb_delta );
+ float S = (float)s->grind_cooldown * (1.0f/20.0f);
+ S = vg_minf( S, 1.0f );
+
+ vel[0] += vg_cfrictf( vel[0], S * k_friction_lat * k_rb_delta );
+ vel[2] += vg_cfrictf( vel[2], S * k_friction_resistance * k_rb_delta );
/* Pushing additive force */
- if( !player->input_jump->button.value )
- {
+ if( !player->input_jump->button.value ){
if( player->input_push->button.value ||
(vg.time-s->state.start_push<0.75) )
{
s->state.charging_jump = player->input_jump->button.value;
/* Cannot charge this in air */
- if( s->state.activity == k_skate_activity_air )
- {
+ if( s->state.activity <= k_skate_activity_air_to_grind ){
s->state.charging_jump = 0;
return;
}
- if( s->state.charging_jump )
- {
+ if( s->state.charging_jump ){
s->state.jump_charge += k_rb_delta * k_jump_charge_speed;
if( !charging_jump_prev )
s->state.jump_dir = s->state.reverse>0.0f? 1: 0;
}
- else
- {
+ else{
s->state.jump_charge -= k_jump_charge_speed * k_rb_delta;
}
s->state.jump_charge = vg_clampf( s->state.jump_charge, 0.0f, 1.0f );
/* player let go after charging past 0.2: trigger jump */
- if( (!s->state.charging_jump) && (s->state.jump_charge > 0.2f) )
- {
+ if( (!s->state.charging_jump) && (s->state.jump_charge > 0.2f) ){
v3f jumpdir;
/* Launch more up if alignment is up else improve velocity */
mod = 0.5f,
dir = mod + fabsf(aup)*(1.0f-mod);
- v3_copy( player->rb.v, jumpdir );
- v3_normalize( jumpdir );
- v3_muls( jumpdir, 1.0f-dir, jumpdir );
- v3_muladds( jumpdir, player->rb.to_world[1], dir, jumpdir );
- v3_normalize( jumpdir );
+ if( s->state.activity == k_skate_activity_ground ){
+ v3_copy( player->rb.v, jumpdir );
+ v3_normalize( jumpdir );
+ v3_muls( jumpdir, 1.0f-dir, jumpdir );
+ v3_muladds( jumpdir, player->rb.to_world[1], dir, jumpdir );
+ v3_normalize( jumpdir );
+ }else{
+ v3_copy( s->state.up_dir, jumpdir );
+ s->state.activity = k_skate_activity_ground;
+ s->grind_cooldown = 0;
+
+ float tilt = player->input_js1h->axis.value * 0.3f;
+ tilt *= vg_signf(v3_dot( player->rb.v, s->grind_dir ));
+
+ v4f qtilt;
+ q_axis_angle( qtilt, s->grind_dir, tilt );
+ q_mulv( qtilt, jumpdir, jumpdir );
+ }
float force = k_jump_force*s->state.jump_charge;
v3_muladds( player->rb.v, jumpdir, force, player->rb.v );
s->state.jump_charge = 0.0f;
s->state.jump_time = vg.time;
- s->state.activity = k_skate_activity_air;
v2f steer = { player->input_js1h->axis.value,
player->input_js1v->axis.value };
v2_normalize_clamp( steer );
- skate_apply_air_model( player );
-#if 0
- float maxspin = k_steer_air * k_rb_delta * k_spin_boost;
- s->state.steery_s = -steer[0] * maxspin;
- s->state.steerx = s->state.steerx_s;
- s->state.lift_frames ++;
-#endif
-
- /* FIXME audio events */
-#if 0
audio_lock();
- audio_player_set_flags( &audio_player_extra, AUDIO_FLAG_SPACIAL_3D );
- audio_player_set_position( &audio_player_extra, player.rb.co );
- audio_player_set_vol( &audio_player_extra, 20.0f );
- audio_player_playclip( &audio_player_extra, &audio_jumps[rand()%2] );
+ audio_oneshot_3d( &audio_jumps[rand()%2], player->rb.co, 40.0f, 1.0f );
audio_unlock();
-#endif
}
}
{
struct player_skate *s = &player->_skate;
- if( s->state.activity != k_skate_activity_ground )
- {
+ if( s->state.activity != k_skate_activity_ground ){
v3_zero( s->state.throw_v );
return;
}
*
* TODO: Max speed boost
*/
- if( player->input_grab->axis.value > 0.5f )
- {
- if( s->state.activity == k_skate_activity_ground )
- {
+ if( player->input_grab->axis.value > 0.5f ){
+ if( s->state.activity == k_skate_activity_ground ){
/* Throw */
v3_muls( player->rb.to_world[1], k_mmthrow_scale, s->state.throw_v );
}
}
- else
- {
+ else{
/* Collect */
float doty = v3_dot( player->rb.to_world[1], s->state.throw_v );
v3f Fl, Fv;
v3_muladds( s->state.throw_v, player->rb.to_world[1], -doty, Fl);
- if( s->state.activity == k_skate_activity_ground )
- {
+ if( s->state.activity == k_skate_activity_ground ){
v3_muladds( player->rb.v, Fl, k_mmcollect_lat, player->rb.v );
v3_muladds( s->state.throw_v, Fl, -k_mmcollect_lat, s->state.throw_v );
}
}
/* Decay */
- if( v3_length2( s->state.throw_v ) > 0.0001f )
- {
+ if( v3_length2( s->state.throw_v ) > 0.0001f ){
v3f dir;
v3_copy( s->state.throw_v, dir );
v3_normalize( dir );
float decay_rate = 1.0f - (k_rb_delta * 3.0f),
decay_rate_y = 1.0f;
- if( s->state.activity >= k_skate_activity_grind_any )
- {
+ if( s->state.activity >= k_skate_activity_grind_any ){
decay_rate = 1.0f-vg_lerpf( 3.0f, 20.0f, s->grind_strength ) * k_rb_delta;
decay_rate_y = decay_rate;
}
{
struct player_skate *s = &player->_skate;
- if( vg_input_button_down( player->input_use ) )
- {
+ if( vg_input_button_down( player->input_use ) ){
player->subsystem = k_player_subsystem_walk;
v3f angles;
angles[2] = 0.0f;
player->holdout_time = 0.25f;
+ player__skate_kill_audio( player );
player__walk_transition( player, angles );
return;
}
- if( vg_input_button_down( player->input_reset ) )
- {
+ if( vg_input_button_down( player->input_reset ) ){
player->rb.co[1] += 2.0f;
s->state.cog[1] += 2.0f;
q_axis_angle( player->rb.q, (v3f){1.0f,0.0f,0.0f}, VG_PIf * 0.25f );
}
int trick_id;
- if( (s->state.activity == k_skate_activity_air) &&
+ if( (s->state.activity <= k_skate_activity_air_to_grind) &&
(trick_id = player_skate_trick_input( player )) )
{
- if( (vg.time - s->state.jump_time) < 0.1f )
- {
+ if( (vg.time - s->state.jump_time) < 0.1f ){
v3_zero( s->state.trick_vel );
s->state.trick_time = 0.0f;
- if( trick_id == 1 )
- {
+ if( trick_id == 1 ){
s->state.trick_vel[0] = 3.0f;
}
- else if( trick_id == 2 )
- {
+ else if( trick_id == 2 ){
s->state.trick_vel[2] = 3.0f;
}
- else if( trick_id == 3 )
- {
+ else if( trick_id == 3 ){
s->state.trick_vel[0] = 2.0f;
s->state.trick_vel[2] = 2.0f;
}
{
struct player_skate *s = &player->_skate;
- for( int i=0; i<s->prediction_count; i++ )
- {
- struct land_prediction *p = &s->predictions[i];
+ for( int i=0; i<s->possible_jump_count; i++ ){
+ jump_info *jump = &s->possible_jumps[i];
+
+ if( jump->log_length == 0 ){
+ vg_fatal_exit_loop( "assert: jump->log_length == 0\n" );
+ }
- for( int j=0; j<p->log_length - 1; j ++ )
- {
- float brightness = p->score*p->score*p->score;
+ for( int j=0; j<jump->log_length - 1; j ++ ){
+ float brightness = jump->score*jump->score*jump->score;
v3f p1;
- v3_lerp( p->log[j], p->log[j+1], brightness, p1 );
- vg_line( p->log[j], p1, p->colour );
+ v3_lerp( jump->log[j], jump->log[j+1], brightness, p1 );
+ vg_line( jump->log[j], p1, jump->colour );
}
- vg_line_cross( p->log[p->log_length-1], p->colour, 0.25f );
+ vg_line_cross( jump->log[jump->log_length-1], jump->colour, 0.25f );
v3f p1;
- v3_add( p->log[p->log_length-1], p->n, p1 );
- vg_line( p->log[p->log_length-1], p1, 0xffffffff );
+ v3_add( jump->log[jump->log_length-1], jump->n, p1 );
+ vg_line( jump->log[jump->log_length-1], p1, 0xffffffff );
- vg_line_pt3( p->apex, 0.02f, 0xffffffff );
+ vg_line_pt3( jump->apex, 0.02f, 0xffffffff );
}
#if 0
vg_line_pt3( s->state.apex, 0.030f, 0xff0000ff );
#endif
+
+ audio_lock();
+
+ float air = s->state.activity <= k_skate_activity_air_to_grind? 1.0f: 0.0f,
+ speed = v3_length( player->rb.v ),
+ attn = vg_minf( 1.0f, speed*0.1f ),
+ slide = vg_clampf( fabsf(s->state.slip), 0.0f, 1.0f ),
+
+ vol_main = sqrtf( (1.0f-air)*attn*(1.0f-slide) * 0.4f ),
+ vol_air = sqrtf( air *attn * 0.5f ),
+ vol_slide = sqrtf( (1.0f-air)*attn*slide * 0.25f );
+
+ const u32 flags = AUDIO_FLAG_SPACIAL_3D|AUDIO_FLAG_LOOP;
+ if( !s->aud_main )
+ s->aud_main = audio_request_channel( &audio_board[0], flags );
+
+ if( !s->aud_air )
+ s->aud_air = audio_request_channel( &audio_board[1], flags );
+
+ if( !s->aud_slide )
+ s->aud_slide = audio_request_channel( &audio_board[2], flags );
+
+
+ /* brrrrrrrrrrrt sound for tiles and stuff
+ * --------------------------------------------------------*/
+ float sidechain_amt = 0.0f,
+ hz = speed * 2.0f;
+
+ if( s->surface == k_surface_prop_tiles )
+ sidechain_amt = 1.0f;
+ else
+ sidechain_amt = 0.0f;
+
+ audio_set_lfo_frequency( 0, hz );
+ audio_set_lfo_wave( 0, k_lfo_polynomial_bipolar,
+ vg_lerpf( 250.0f, 80.0f, attn ) );
+
+ if( s->aud_main ){
+ s->aud_main->colour = 0x00103efe;
+ audio_channel_set_spacial( s->aud_main, player->rb.co, 40.0f );
+ audio_channel_slope_volume( s->aud_main, 0.05f, vol_main );
+ audio_channel_sidechain_lfo( s->aud_main, 0, sidechain_amt );
+
+ float rate = 1.0f + (attn-0.5f)*0.2f;
+ audio_channel_set_sampling_rate( s->aud_main, rate );
+ }
+
+ if( s->aud_slide ){
+ s->aud_slide->colour = 0x00103efe;
+ audio_channel_set_spacial( s->aud_slide, player->rb.co, 40.0f );
+ audio_channel_slope_volume( s->aud_slide, 0.05f, vol_slide );
+ audio_channel_sidechain_lfo( s->aud_slide, 0, sidechain_amt );
+ }
+
+ if( s->aud_air ){
+ s->aud_air->colour = 0x00103efe;
+ audio_channel_set_spacial( s->aud_air, player->rb.co, 40.0f );
+ audio_channel_slope_volume( s->aud_air, 0.05f, vol_air );
+ }
+
+ audio_unlock();
}
/*
int reverse_dir = v3_dot( player->rb.to_world[2], player->rb.v ) < 0.0f?1:-1;
- if( s->state.manual_direction == 0 )
- {
+ if( s->state.manual_direction == 0 ){
if( (player->input_js1v->axis.value > 0.7f) &&
(s->state.activity == k_skate_activity_ground) &&
(s->state.jump_charge <= 0.01f) )
s->state.manual_direction = reverse_dir;
}
- else
- {
- if( player->input_js1v->axis.value < 0.1f )
- {
+ else{
+ if( player->input_js1v->axis.value < 0.1f ){
s->state.manual_direction = 0;
}
- else
- {
- if( reverse_dir != s->state.manual_direction )
- {
+ else{
+ if( reverse_dir != s->state.manual_direction ){
return;
}
}
}
- if( s->state.manual_direction )
- {
+ if( s->state.manual_direction ){
float amt = vg_minf( player->input_js1v->axis.value * 8.0f, 1.0f );
s->weight_distribution[2] = k_board_length * amt *
(float)s->state.manual_direction;
/* TODO: Fall back on land normal */
/* TODO: Lerp weight distribution */
- if( s->state.manual_direction )
- {
+ if( s->state.manual_direction ){
v3f plane_z;
m3x3_mulv( player->rb.to_world, s->weight_distribution, plane_z );
{
struct player_skate *s = &player->_skate;
- if( s->state.activity == k_skate_activity_ground )
- {
+ if( s->state.activity == k_skate_activity_ground ){
v3f target;
v3_copy( s->surface_picture, target );
v3_lerp( s->state.up_dir, target,
8.0f * s->substep_delta, s->state.up_dir );
}
- else if( s->state.activity == k_skate_activity_air )
- {
+ else if( s->state.activity <= k_skate_activity_air_to_grind ){
v3_lerp( s->state.up_dir, player->rb.to_world[1],
8.0f * s->substep_delta, s->state.up_dir );
}
- else
- {
+ else{
v3_lerp( s->state.up_dir, player->basis[1],
12.0f * s->substep_delta, s->state.up_dir );
}
v3_normalize( axis );
v3_cross( axis, inf_avg.dir, inf_avg.n );
-
skate_grind_decay( player, &inf_avg, 1.0f );
intersection );
v3_copy( intersection, s->weight_distribution );
- skate_grind_decay( player, inf, 0.1f );
+ skate_grind_decay( player, inf, 0.0125f );
skate_grind_friction( player, inf, 0.25f );
/* direction alignment */
m3x3_mulv( player->rb.to_world, dir, dir );
m3x3_mulv( player->rb.to_world, perp, perp );
+ v4f qbalance;
+ q_axis_angle( qbalance, dir, local_co[0]*k_grind_balance );
+ q_mulv( qbalance, perp, perp );
+
rb_effect_spring_target_vector( &player->rb, player->rb.to_world[0],
dir,
k_grind_spring, k_grind_dampener,
if( (fabsf(local_co[2]) <= k_board_length) && /* within wood area */
(local_co[1] >= 0.0f) && /* at deck level */
- (fabsf(local_dir[0]) >= 0.5f) ) /* perpendicular to us */
+ (fabsf(local_dir[0]) >= 0.25f) ) /* perpendicular to us */
{
if( fabsf(v3_dot( player->rb.v, inf->dir )) < k_grind_axel_min_vel )
return 0;
struct player_skate *s = &player->_skate;
/* debounces this state manager a little bit */
- if( s->frames_since_activity_change < 10 )
- {
- s->frames_since_activity_change ++;
+ if( s->grind_cooldown < 20 ){
+ s->grind_cooldown ++;
return k_skate_activity_undefined;
}
res_front50 = 0,
res_slide = 0;
- if( s->state.activity == k_skate_activity_grind_boardslide )
- {
+ if( s->state.activity == k_skate_activity_grind_boardslide ){
res_slide = skate_boardslide_renew( player, &inf_slide );
}
- else if( s->state.activity == k_skate_activity_grind_back50 )
- {
+ else if( s->state.activity == k_skate_activity_grind_back50 ){
res_back50 = skate_grind_truck_renew( player, 1.0f, &inf_back50 );
res_front50 = skate_grind_truck_entry( player, -1.0f, &inf_front50 );
}
- else if( s->state.activity == k_skate_activity_grind_front50 )
- {
+ else if( s->state.activity == k_skate_activity_grind_front50 ){
res_front50 = skate_grind_truck_renew( player, -1.0f, &inf_front50 );
res_back50 = skate_grind_truck_entry( player, 1.0f, &inf_back50 );
}
- else if( s->state.activity == k_skate_activity_grind_5050 )
- {
+ else if( s->state.activity == k_skate_activity_grind_5050 ){
res_front50 = skate_grind_truck_renew( player, -1.0f, &inf_front50 );
res_back50 = skate_grind_truck_entry( player, 1.0f, &inf_back50 );
}
- else
- {
+ else{
res_slide = skate_boardslide_entry( player, &inf_slide );
res_back50 = skate_grind_truck_entry( player, 1.0f, &inf_back50 );
res_front50 = skate_grind_truck_entry( player, -1.0f, &inf_front50 );
- if( res_back50 != res_front50 )
- {
+ if( res_back50 != res_front50 ){
int wants_to_do_that = fabsf(player->input_js1v->axis.value) >= 0.25f;
res_back50 &= wants_to_do_that;
}
, new_activity = table[ res_slide << 2 | res_back50 << 1 | res_front50 ];
- if( new_activity == k_skate_activity_undefined )
- {
+ if( new_activity == k_skate_activity_undefined ){
if( s->state.activity >= k_skate_activity_grind_any )
- s->frames_since_activity_change = 0;
+ s->grind_cooldown = 5;
}
- else if( new_activity == k_skate_activity_grind_boardslide )
- {
+ else if( new_activity == k_skate_activity_grind_boardslide ){
skate_boardslide_apply( player, &inf_slide );
}
- else if( new_activity == k_skate_activity_grind_back50 )
- {
+ else if( new_activity == k_skate_activity_grind_back50 ){
if( s->state.activity != k_skate_activity_grind_back50 )
skate_store_grind_vec( player, &inf_back50 );
skate_grind_truck_apply( player, 1.0f, &inf_back50, 1.0f );
}
- else if( new_activity == k_skate_activity_grind_front50 )
- {
+ else if( new_activity == k_skate_activity_grind_front50 ){
if( s->state.activity != k_skate_activity_grind_front50 )
skate_store_grind_vec( player, &inf_front50 );
}
};
+ float slap = 0.0f;
+
+ if( s->state.activity <= k_skate_activity_air_to_grind ){
+
+ float min_dist = 0.6f;
+ for( int i=0; i<2; i++ ){
+ v3f wpos, closest;
+ m4x3_mulv( player->rb.to_world, wheels[i].pos, wpos );
+
+ if( bh_closest_point( world->geo_bh, wpos, closest, min_dist ) != -1 ){
+ min_dist = vg_minf( min_dist, v3_dist( closest, wpos ) );
+ }
+ }
+ min_dist -= 0.2f;
+ float vy = v3_dot( player->basis[1], player->rb.v );
+ vy = vg_maxf( 0.0f, vy );
+
+ slap = vg_clampf( (min_dist/0.5f) + vy, 0.0f, 1.0f )*0.3f;
+ }
+ s->state.slap = vg_lerpf( s->state.slap, slap, 10.0f*k_rb_delta );
+
+ wheels[0].pos[1] = s->state.slap;
+ wheels[1].pos[1] = s->state.slap;
+
+
+
+
+
const int k_wheel_count = 2;
s->substep = k_rb_delta;
/* check if we can enter or continue grind */
enum skate_activity grindable_activity = skate_availible_grind( player );
- if( grindable_activity != k_skate_activity_undefined )
- {
+ if( grindable_activity != k_skate_activity_undefined ){
s->state.activity = grindable_activity;
goto grinding;
}
int contact_count = 0;
- for( int i=0; i<2; i++ )
- {
+ for( int i=0; i<2; i++ ){
v3f normal, axel;
v3_copy( player->rb.to_world[0], axel );
m3x3_mulv( player->rb.to_local, axel, s->truckv0[i] );
}
- if( contact_count )
- {
+ if( contact_count ){
s->state.activity = k_skate_activity_ground;
s->state.gravity_bias = k_gravity;
v3_normalize( s->surface_picture );
skate_apply_friction_model( player );
skate_weight_distribute( player );
}
- else
- {
- s->state.activity = k_skate_activity_air;
+ else{
+ if( s->state.activity > k_skate_activity_air_to_grind )
+ s->state.activity = k_skate_activity_air;
+
v3_zero( s->weight_distribution );
skate_apply_air_model( player );
}
wheels[1].state = k_collider_state_disabled;
if( s->state.activity == k_skate_activity_grind_front50 )
wheels[0].state = k_collider_state_disabled;
- if( s->state.activity == k_skate_activity_grind_5050 )
- {
+ if( s->state.activity == k_skate_activity_grind_5050 ){
wheels[0].state = k_collider_state_disabled;
wheels[1].state = k_collider_state_disabled;
}
v4f future_q;
v3_muladds( player->rb.co, player->rb.v, s->substep, future_co );
- if( v3_length2( player->rb.w ) > 0.0f )
- {
+ if( v3_length2( player->rb.w ) > 0.0f ){
v4f rotation;
v3f axis;
v3_copy( player->rb.w, axis );
/* calculate the minimum time we can move */
float max_time = s->substep;
- for( int i=0; i<k_wheel_count; i++ )
- {
+ for( int i=0; i<k_wheel_count; i++ ){
if( wheels[i].state == k_collider_state_disabled )
continue;
/* integrate */
v3_muladds( player->rb.co, player->rb.v, s->substep_delta, player->rb.co );
- if( v3_length2( player->rb.w ) > 0.0f )
- {
+ if( v3_length2( player->rb.w ) > 0.0f ){
v4f rotation;
v3f axis;
v3_copy( player->rb.w, axis );
v3_lerp( start_co, player->rb.co, t, player->rb.co );
rb_update_transform( &player->rb );
+ player__skate_kill_audio( player );
player__dead_transition( player );
return;
}
* --------------------------------------------------------------------------
*/
- for( int i=0; i<k_wheel_count; i++ )
- {
+ for( int i=0; i<k_wheel_count; i++ ){
if( wheels[i].state == k_collider_state_disabled )
continue;
v3_muls( player->rb.to_world[2], -1.0f, mtx[1] );
v3_muls( player->rb.to_world[1], 1.0f, mtx[2] );
v3_muladds( player->rb.to_world[3], player->rb.to_world[1],
- grind_radius + k_board_radius*0.25f, mtx[3] );
+ grind_radius + k_board_radius*0.25f+s->state.slap, mtx[3] );
rb_ct *cman = &manifold[manifold_len];
debug_capsule( mtx, capsule.radius, capsule.height, VG__WHITE );
/* add limits */
- for( int i=0; i<s->limit_count; i++ )
- {
+ for( int i=0; i<s->limit_count; i++ ){
struct grind_limit *limit = &s->limits[i];
rb_ct *ct = &manifold[ manifold_len ++ ];
m4x3_mulv( player->rb.to_world, limit->ra, ct->co );
m4x3_mulv( player->rb.to_world, s->weight_distribution, world_cog );
vg_line_pt3( world_cog, 0.02f, VG__BLACK );
- for( int i=0; i<manifold_len; i ++ )
- {
+ for( int i=0; i<manifold_len; i ++ ){
rb_prepare_contact( &manifold[i], s->substep_delta );
rb_debug_contact( &manifold[i] );
}
m3x3_mul( iI, player->rb.to_local, iIw );
m3x3_mul( player->rb.to_world, iIw, iIw );
- for( int j=0; j<10; j++ )
- {
- for( int i=0; i<manifold_len; i++ )
- {
+ for( int j=0; j<10; j++ ){
+ for( int i=0; i<manifold_len; i++ ){
/*
* regular dance; calculate velocity & total mass, apply impulse.
*/
* --------------------------------------------------------------------------
*/
- for( int i=0; i<k_wheel_count; i++ )
- {
+ s->surface = k_surface_prop_concrete;
+
+ for( int i=0; i<manifold_len; i++ ){
+ rb_ct *ct = &manifold[i];
+ struct world_surface *surf = world_contact_surface( world, ct );
+
+ if( surf->info.surface_prop != k_surface_prop_concrete )
+ s->surface = surf->info.surface_prop;
+ }
+
+ for( int i=0; i<k_wheel_count; i++ ){
m4x3f mtx;
m3x3_copy( player->rb.to_world, mtx );
m4x3_mulv( player->rb.to_world, wheels[i].pos, mtx[3] );
skate_integrate( player );
vg_line_pt3( s->state.cog, 0.02f, VG__WHITE );
- struct gate_hit hit;
- if( world_intersect_gates(world, player->rb.co, s->state.prev_pos, &hit) )
- {
- teleport_gate *gate = hit.gate;
+ ent_gate *gate =
+ world_intersect_gates(world, player->rb.co, s->state.prev_pos );
+
+ if( gate ){
m4x3_mulv( gate->transport, player->rb.co, player->rb.co );
m3x3_mulv( gate->transport, player->rb.v, player->rb.v );
m4x3_mulv( gate->transport, s->state.cog, s->state.cog );
v4f transport_rotation;
m3x3_q( gate->transport, transport_rotation );
q_mul( transport_rotation, player->rb.q, player->rb.q );
+ q_mul( transport_rotation, s->state.smoothed_rotation,
+ s->state.smoothed_rotation );
rb_update_transform( &player->rb );
s->state_gate_storage = s->state;
- player__pass_gate( player, &hit );
+ player__pass_gate( player, gate );
+ }
+
+ /* FIXME: Rate limit */
+ static int stick_frames = 0;
+
+ if( s->state.activity == k_skate_activity_ground )
+ stick_frames ++;
+ else
+ stick_frames = 0;
+
+
+ if( stick_frames == 4 ){
+ audio_lock();
+ if( (fabsf(s->state.slip) > 0.75f) ){
+ audio_oneshot_3d( &audio_lands[rand()%2+3], player->rb.co,
+ 40.0f, 1.0f );
+ }
+ else{
+ audio_oneshot_3d( &audio_lands[rand()%3], player->rb.co,
+ 40.0f, 1.0f );
+ }
+ audio_unlock();
}
}
VG_STATIC void player__skate_im_gui( player_instance *player )
{
struct player_skate *s = &player->_skate;
-
- /* FIXME: Compression */
player__debugtext( 1, "V: %5.2f %5.2f %5.2f",player->rb.v[0],
player->rb.v[1],
player->rb.v[2] );
const char *activity_txt[] =
{
"air",
+ "air_to_grind",
"ground",
"undefined (INVALID)",
"grind_any (INVALID)",
offset[0]=vg_clampf(offset[0],-0.8f,0.8f)*(1.0f-fabsf(s->blend_slide)*0.9f);
offset[1]=vg_clampf(offset[1],-0.5f,0.0f);
+ v3_muls( offset, 0.3f, TEMP_TPV_EXTRA );
+
/*
* Animation blending
* ===========================================
/* sliding */
{
- float desired = vg_clampf( fabsf( s->state.slip ), 0.0f, 1.0f );
+ float desired = 0.0f;
+ if( s->state.activity == k_skate_activity_ground )
+ desired = vg_clampf( fabsf( s->state.slip ), 0.0f, 1.0f );
+
s->blend_slide = vg_lerpf( s->blend_slide, desired, 2.4f*vg.time_delta);
}
/* movement information */
{
- int iair = s->state.activity == k_skate_activity_air;
+ int iair = s->state.activity <= k_skate_activity_air_to_grind;
float dirz = s->state.reverse > 0.0f? 0.0f: 1.0f,
dirx = s->state.slip < 0.0f? 0.0f: 1.0f,
fly = iair? 1.0f: 0.0f,
wdist= s->weight_distribution[2] / k_board_length;
+ if( s->state.activity >= k_skate_activity_grind_any )
+ wdist = 0.0f;
+
s->blend_z = vg_lerpf( s->blend_z, dirz, 2.4f*vg.time_delta );
s->blend_x = vg_lerpf( s->blend_x, dirx, 0.6f*vg.time_delta );
- s->blend_fly = vg_lerpf( s->blend_fly, fly, 2.4f*vg.time_delta );
+ s->blend_fly = vg_lerpf( s->blend_fly, fly, 3.4f*vg.time_delta );
s->blend_weight= vg_lerpf( s->blend_weight, wdist, 9.0f*vg.time_delta );
}
mdl_keyframe air_pose[32];
{
float target = -player->input_js1h->axis.value;
+
+#if 1
s->blend_airdir = vg_lerpf( s->blend_airdir, target, 2.4f*vg.time_delta );
+#else
+ s->blend_airdir = 0.0f;
+#endif
float air_frame = (s->blend_airdir*0.5f+0.5f) * (15.0f/30.0f);
skeleton_sample_anim( sk, s->anim_air, air_frame, apose );
skeleton_lerp_pose( sk, ground_pose, air_pose, s->blend_fly, dest->pose );
+
+ mdl_keyframe grind_pose[32];
+ {
+ /* TODO: factor balance into this sampler */
+ float grind_frame = 0.5f;
+
+ if( s->state.activity == k_skate_activity_grind_front50 ){
+ grind_frame = 0.0f;
+ } else if( s->state.activity == k_skate_activity_grind_back50 ){
+ grind_frame = 1.0f;
+ }
+
+ float grind=s->state.activity >= k_skate_activity_grind_any? 1.0f: 0.0f;
+ s->blend_grind = vg_lerpf( s->blend_grind, grind, 5.0f*vg.time_delta );
+ s->blend_grind_balance=vg_lerpf( s->blend_grind_balance,
+ grind_frame, 5.0f*vg.time_delta );
+
+ grind_frame = s->blend_grind_balance * (15.0f/30.0f);
+
+ skeleton_sample_anim( sk, s->anim_grind, grind_frame, apose );
+ skeleton_sample_anim( sk, s->anim_grind_jump, grind_frame, bpose );
+ skeleton_lerp_pose( sk, apose, bpose, s->blend_jump, grind_pose );
+ }
+ skeleton_lerp_pose( sk, dest->pose, grind_pose, s->blend_grind, dest->pose );
+
float add_grab_mod = 1.0f - s->blend_fly;
/* additive effects */
av->id_ik_elbow_l,
av->id_ik_elbow_r };
- for( int i=0; i<vg_list_size(apply_to); i ++ )
- {
+ float apply_rates[] = { 1.0f,
+ 0.75f,
+ 0.75f,
+ 0.75f,
+ 0.75f };
+
+ for( int i=0; i<vg_list_size(apply_to); i ++ ){
dest->pose[apply_to[i]-1].co[0] += offset[0]*add_grab_mod;
dest->pose[apply_to[i]-1].co[2] += offset[2]*add_grab_mod;
}
-
/* angle correction */
- if( v3_length2( s->state.up_dir ) > 0.001f )
- {
+ if( v3_length2( s->state.up_dir ) > 0.001f ){
+
+ if( v4_length(s->state.smoothed_rotation) <= 0.1f ||
+ v4_length(s->state.smoothed_rotation) >= 1.1f ){
+ vg_warn( "FIX THIS! CARROT\n" );
+ v4_copy( player->rb.q, s->state.smoothed_rotation );
+ }
+ v4_lerp( s->state.smoothed_rotation, player->rb.q, 2.0f*vg.frame_delta,
+ s->state.smoothed_rotation );
+ q_normalize( s->state.smoothed_rotation );
+
+ v3f yaw_ref = {1.0f,0.0f,0.0f},
+ yaw_smooth = {1.0f,0.0f,0.0f};
+ q_mulv( player->rb.q, yaw_ref, yaw_ref );
+ q_mulv( s->state.smoothed_rotation, yaw_smooth, yaw_smooth );
+ m3x3_mulv( player->rb.to_local, yaw_smooth, yaw_smooth );
+ m3x3_mulv( player->rb.to_local, yaw_ref, yaw_ref );
+
+ float yaw_counter_rotate = v3_dot(yaw_ref,yaw_smooth);
+ yaw_counter_rotate = vg_clampf(yaw_counter_rotate,-1.0f,1.0f);
+ yaw_counter_rotate = acosf( yaw_counter_rotate );
+ yaw_counter_rotate *= 1.0f-s->blend_fly;
+
v3f ndir;
m3x3_mulv( player->rb.to_local, s->state.up_dir, ndir );
v3_normalize( ndir );
a = acosf( vg_clampf( a, -1.0f, 1.0f ) );
v3f axis;
- v4f q;
+ v4f qfixup, qcounteryaw, qtotal;
v3_cross( up, ndir, axis );
- q_axis_angle( q, axis, a );
+ q_axis_angle( qfixup, axis, a );
+
+ q_axis_angle( qcounteryaw, (v3f){0.0f,1.0f,0.0f}, yaw_counter_rotate );
+ q_mul( qcounteryaw, qfixup, qtotal );
+ q_normalize( qtotal );
mdl_keyframe *kf_hip = &dest->pose[av->id_hip-1];
-
- for( int i=0; i<vg_list_size(apply_to); i ++ )
- {
+ v3f origin;
+ v3_add( av->sk.bones[av->id_hip].co, kf_hip->co, origin );
+
+ for( int i=0; i<vg_list_size(apply_to); i ++ ){
mdl_keyframe *kf = &dest->pose[apply_to[i]-1];
- v3f v0;
- v3_sub( kf->co, kf_hip->co, v0 );
- q_mulv( q, v0, v0 );
- v3_add( v0, kf_hip->co, kf->co );
+ v3f v0, co;
+ v3_add( kf->co, av->sk.bones[apply_to[i]].co, co );
+ v3_sub( co, origin, v0 );
+ q_mulv( qtotal, v0, v0 );
+ v3_add( v0, origin, co );
+ v3_sub( co, av->sk.bones[apply_to[i]].co, kf->co );
- q_mul( q, kf->q, kf->q );
+ q_mul( qtotal, kf->q, kf->q );
q_normalize( kf->q );
}
mdl_keyframe *kf_board = &dest->pose[av->id_board-1],
*kf_foot_l = &dest->pose[av->id_ik_foot_l-1],
*kf_foot_r = &dest->pose[av->id_ik_foot_r-1],
+ *kf_knee_l = &dest->pose[av->id_ik_knee_l-1],
+ *kf_knee_r = &dest->pose[av->id_ik_knee_r-1],
+ *kf_hip = &dest->pose[av->id_hip-1],
*kf_wheels[] = { &dest->pose[av->id_wheel_r-1],
&dest->pose[av->id_wheel_l-1] };
v3f euler;
v3_muls( s->state.trick_euler, VG_TAUf, euler );
+ float jump_t = vg.time-s->state.jump_time;
+
+ float k=17.0f;
+ float h = k*jump_t;
+ float extra = h*exp(1.0-h) * (s->state.jump_dir?1.0f:-1.0f);
+ extra *= s->state.slap * 4.0f;
+
q_axis_angle( qyaw, (v3f){0.0f,1.0f,0.0f}, euler[0] * 0.5f );
- q_axis_angle( qpitch, (v3f){1.0f,0.0f,0.0f}, euler[1] );
+ q_axis_angle( qpitch, (v3f){1.0f,0.0f,0.0f}, euler[1] + extra );
q_axis_angle( qroll, (v3f){0.0f,0.0f,1.0f}, euler[2] );
- q_mul( qpitch, qroll, qtrick );
- q_mul( qyaw, qtrick, qtrick );
+ q_mul( qyaw, qroll, qtrick );
+ q_mul( qpitch, qtrick, qtrick );
q_mul( kf_board->q, qtrick, kf_board->q );
q_normalize( kf_board->q );
+
/* foot weight distribution */
- if( s->blend_weight > 0.0f )
- {
+ if( s->blend_weight > 0.0f ){
kf_foot_l->co[2] += s->blend_weight * 0.2f;
kf_foot_r->co[2] += s->blend_weight * 0.1f;
}
- else
- {
+ else{
kf_foot_r->co[2] += s->blend_weight * 0.3f;
kf_foot_l->co[2] += s->blend_weight * 0.1f;
}
+ kf_foot_l->co[1] += s->state.slap;
+ kf_foot_r->co[1] += s->state.slap;
+ kf_knee_l->co[1] += s->state.slap;
+ kf_knee_r->co[1] += s->state.slap;
+ kf_board->co[1] += s->state.slap;
+ kf_hip->co[1] += s->state.slap * 0.25f;
+
+ /*
+ * animation wishlist:
+ * boardslide/grind jump animations
+ * when tricking the slap should not appply or less apply
+ * not animations however DONT target grinds that are vertically down.
+ */
+
/* truck rotation */
for( int i=0; i<2; i++ )
{
float substep = vg_clampf( vg.accumulator / VG_TIMESTEP_FIXED, 0.0f, 1.0f );
v4f qflip;
- if( (s->state.activity == k_skate_activity_air) &&
+ if( (s->state.activity <= k_skate_activity_air_to_grind) &&
(fabsf(s->state.flip_rate) > 0.01f) )
{
float t = s->state.flip_time;
player->cam_velocity_influence = 1.0f;
- v3f head = { 0.0f, 1.8f, 0.0f }; /* FIXME: Viewpoint entity */
+ v3f head = { 0.0f, 1.8f, 0.0f };
m4x3_mulv( av->sk.final_mtx[ av->id_head ], head, s->state.head_position );
m4x3_mulv( player->rb.to_local, s->state.head_position,
s->state.head_position );
{
struct player_skate *s = &player->_skate;
- if( s->state.activity == k_skate_activity_air )
+ if( s->state.activity <= k_skate_activity_air_to_grind )
s->blend_fly = 1.0f;
else
s->blend_fly = 0.0f;
}
VG_STATIC void player__skate_reset( player_instance *player,
- struct respawn_point *rp )
+ ent_spawn *rp )
{
struct player_skate *s = &player->_skate;
v3_muladds( player->rb.co, player->rb.to_world[1], 1.0f, s->state.cog );
v3_zero( player->rb.v );
v3_zero( s->state.cog_v );
- v4_copy( rp->q, player->rb.q );
+ v4_copy( rp->transform.q, player->rb.q );
s->state.activity = k_skate_activity_air;
s->state.activity_prev = k_skate_activity_air;