*/
static float
- k_walkspeed = 2.0f,
+ k_walkspeed = 7.0f, /* no longer used */
+ k_runspeed = 14.0f,
k_board_radius = 0.3f,
k_board_length = 0.45f,
k_board_allowance = 0.04f,
k_steer_ground = 2.5f,
k_steer_air = 3.6f,
k_steer_air_lerp = 0.3f,
- k_pump_force = 000.0f,
+ k_pump_force = 0.0f,
k_downforce = 5.0f,
k_jump_charge_speed = (1.0f/1.0f),
- k_jump_force = 5.0f;
+ k_jump_force = 5.0f,
+ k_pitch_limit = 1.5f,
+ k_look_speed = 2.0f,
+ k_walk_accel = 5.0f,
+ k_walk_friction = 8.0f;
static int freecam = 0;
static int walk_grid_iterations = 1;
/* Physics */
rigidbody rb, collide_front, collide_back, rb_gate_frame;
+ /* TODO: eugh */
+ m3x3f gate_vr_frame, gate_vr_pstep_frame;
+
v3f a, v_last, m, bob, vl;
/* Utility */
float pitch;
float pushing, push_time;
float jump;
- int jump_charge;
+ int jump_charge, jump_dir;
v3f land_target;
v3f land_target_log[22];
ffly,
fpush,
fairdir,
- fsetup;
+ fsetup,
+ walk_timer,
+ fonboard;
}
player =
{
- .on_board = 1,
+ .on_board = 0,
.collide_front = { .type = k_rb_shape_sphere, .inf.sphere.radius = 0.3f },
.collide_back = { .type = k_rb_shape_sphere, .inf.sphere.radius = 0.3f }
if( vg_get_button( "jump" ) )
{
player.jump += ktimestep * k_jump_charge_speed;
+
+ if( !player.jump_charge )
+ player.jump_dir = player.reverse > 0.0f? 1: 0;
+
player.jump_charge = 1;
}
rb_init( &player.collide_back );
}
+static void player_walk_physics(void)
+{
+ rigidbody *rbf = &player.collide_front,
+ *rbb = &player.collide_back;
+
+ m3x3_copy( player.rb.to_world, player.collide_front.to_world );
+ m3x3_copy( player.rb.to_world, player.collide_back.to_world );
+
+ float h0 = 0.3f,
+ h1 = 0.9f;
+
+ m4x3_mulv( player.rb.to_world, (v3f){0.0f,h0,0.0f}, rbf->co );
+ v3_copy( rbf->co, rbf->to_world[3] );
+ m4x3_mulv( player.rb.to_world, (v3f){0.0f,h1,0.0f}, rbb->co );
+ v3_copy( rbb->co, rbb->to_world[3] );
+
+ m4x3_invert_affine( rbf->to_world, rbf->to_local );
+ m4x3_invert_affine( rbb->to_world, rbb->to_local );
+
+ rb_update_bounds( rbf );
+ rb_update_bounds( rbb );
+
+ rb_debug( rbf, 0xff0000ff );
+ rb_debug( rbb, 0xff0000ff );
+
+ rb_ct manifold[64];
+ int len = 0;
+
+ len += rb_sphere_scene( rbf, &world.rb_geo, manifold+len );
+ len += rb_sphere_scene( rbb, &world.rb_geo, manifold+len );
+
+ rb_presolve_contacts( manifold, len );
+
+ for( int j=0; j<5; j++ )
+ {
+ for( int i=0; i<len; i++ )
+ {
+ struct contact *ct = &manifold[i];
+
+ /*normal */
+ float vn = -v3_dot( player.rb.v, ct->n );
+ vn += ct->bias;
+
+ float temp = ct->norm_impulse;
+ ct->norm_impulse = vg_maxf( temp + vn, 0.0f );
+ vn = ct->norm_impulse - temp;
+
+ v3f impulse;
+ v3_muls( ct->n, vn, impulse );
+
+ v3_add( impulse, player.rb.v, player.rb.v );
+
+ /* friction */
+ for( int j=0; j<2; j++ )
+ {
+ float f = k_friction * ct->norm_impulse,
+ vt = v3_dot( player.rb.v, ct->t[j] ),
+ lambda = -vt;
+
+ float temp = ct->tangent_impulse[j];
+ ct->tangent_impulse[j] = vg_clampf( temp + lambda, -f, f );
+ lambda = ct->tangent_impulse[j] - temp;
+
+ v3_muladds( player.rb.v, ct->t[j], lambda, player.rb.v );
+ }
+ }
+ }
+
+ v3_zero( player.rb.w );
+ q_axis_angle( player.rb.q, (v3f){0.0f,1.0f,0.0f}, -player.angles[0] );
+
+ v3f forward_dir = { sinf(player.angles[0]),0.0f,-cosf(player.angles[0]) };
+
+ v3f p1;
+ v3_muladds( player.rb.co, forward_dir, 2.0f, p1 );
+ vg_line( player.rb.co, p1, 0xff0000ff );
+
+ float move_dead = 0.1f,
+ move = vg_get_axis("grabr")*0.5f + 0.5f - move_dead;
+
+ if( move > 0.0f )
+ {
+ float move_norm = move * (1.0f/(1.0f-move_dead)),
+ speed = vg_lerpf( 0.1f*k_runspeed, k_runspeed, move_norm ),
+ amt = k_walk_accel * ktimestep,
+ zvel = v3_dot( player.rb.v, forward_dir ),
+ new_vel = vg_minf( zvel + amt, speed ),
+ diff = new_vel - vg_minf( zvel, speed );
+
+ v3_muladds( player.rb.v, forward_dir, diff, player.rb.v );
+
+ /* TODO move */
+ float walk_norm = (float)player.mdl.anim_walk->length / 30.0f,
+ run_norm = (float)player.mdl.anim_run->length / 30.0f;
+
+ player.walk_timer += ktimestep * vg_lerpf( walk_norm,run_norm,move_norm );
+ }
+ else
+ {
+ player.walk_timer = 0.0f;
+ }
+
+ player.rb.v[0] *= 1.0f - (ktimestep*k_walk_friction);
+ player.rb.v[2] *= 1.0f - (ktimestep*k_walk_friction);
+}
+
static void player_physics(void)
{
/*
rb_debug( rbf, 0xff00ffff );
rb_debug( rbb, 0xffffff00 );
- rb_ct manifold[24];
+ rb_ct manifold[64];
int len = 0;
- len += rb_sphere_vs_scene( rbf, &world.rb_geo, manifold+len );
- len += rb_sphere_vs_scene( rbb, &world.rb_geo, manifold+len );
+ len += rb_sphere_scene( rbf, &world.rb_geo, manifold+len );
+ len += rb_sphere_scene( rbb, &world.rb_geo, manifold+len );
rb_presolve_contacts( manifold, len );
v3f surface_avg = {0.0f, 0.0f, 0.0f};
if( !player.jump_charge && player.jump > 0.2f )
{
- v3_muladds( player.rb.v, player.rb.up, k_jump_force*player.jump,
- player.rb.v );
+ v3f jumpdir;
+
+ /* Launch more up if alignment is up else improve velocity */
+ float aup = fabsf(v3_dot( (v3f){0.0f,1.0f,0.0f}, player.rb.up )),
+ mod = 0.5f,
+ dir = mod + 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.up, dir, jumpdir );
+ v3_normalize( jumpdir );
+
+ float force = k_jump_force*player.jump;
+ v3_muladds( player.rb.v, jumpdir, force, player.rb.v );
+ player.jump = 0.0f;
player.jump_time = vg_time;
}
float horizontal = vg_get_axis("horizontal"),
vertical = vg_get_axis("vertical");
- player_physics();
+ if( player.on_board )
+ player_physics();
+ else
+ player_walk_physics();
/* Integrate velocity */
v3f prevco;
world_routes_activate_gate( i );
player.rb_gate_frame = player.rb;
+
+ m3x3_copy( player.vr, player.gate_vr_frame );
+ m3x3_copy( player.vr_pstep, player.gate_vr_pstep_frame );
break;
}
}
}
/*
- * Walkgrid implementation,
- * loosely based of cmuratoris youtube video 'Killing the Walkmonster'
- */
-
-#define WALKGRID_SIZE 16
-struct walkgrid
-{
- struct grid_sample
- {
- enum sample_type
- {
- k_sample_type_air, /* Nothing was hit. */
- k_sample_type_invalid, /* The point is invalid, but there is a sample
- underneath that can be used */
- k_sample_type_valid, /* This point is good */
- }
- type;
-
- v3f clip[2];
- v3f pos;
-
- enum traverse_state
- {
- k_traverse_none = 0x00,
- k_traverse_h = 0x01,
- k_traverse_v = 0x02
- }
- state;
- }
- samples[WALKGRID_SIZE][WALKGRID_SIZE];
-
- boxf region;
-
- float move; /* Current amount of movement we have left to apply */
- v2f dir; /* The movement delta */
- v2i cell_id;/* Current cell */
- v2f pos; /* Local position (in cell) */
- float h;
-};
-
-static int player_walkgrid_tri_walkable( u32 tri[3] )
-{
- return tri[0] > world.sm_geo_std_oob.vertex_count;
-}
-
-/*
- * Get a sample at this pole location, will return 1 if the sample is valid,
- * and pos will be updated to be the intersection location.
- */
-static void player_walkgrid_samplepole( struct grid_sample *s )
-{
- boxf region = {{ s->pos[0] -0.01f, s->pos[1] - 4.0f, s->pos[2] -0.01f},
- { s->pos[0] +0.01f, s->pos[1] + 4.0f, s->pos[2] +0.01f}};
-
- u32 geo[256];
- v3f tri[3];
- int len = bh_select( &world.geo.bhtris, region, geo, 256 );
-
- const float k_minworld_y = -2000.0f;
-
- float walk_height = k_minworld_y,
- block_height = k_minworld_y;
-
- s->type = k_sample_type_air;
-
- for( int i=0; i<len; i++ )
- {
- u32 *ptri = &world.geo.indices[ geo[i]*3 ];
-
- for( int j=0; j<3; j++ )
- v3_copy( world.geo.verts[ptri[j]].co, tri[j] );
-
- v3f vdown = {0.0f,-1.0f,0.0f};
- v3f sample_from;
- v3_copy( s->pos, sample_from );
- sample_from[1] = region[1][1];
-
- float dist;
- if( ray_tri( tri, sample_from, vdown, &dist ))
- {
- v3f p0;
- v3_muladds( sample_from, vdown, dist, p0 );
-
- if( player_walkgrid_tri_walkable(ptri) )
- {
- if( p0[1] > walk_height )
- {
- walk_height = p0[1];
- }
- }
- else
- {
- if( p0[1] > block_height )
- block_height = p0[1];
- }
- }
- }
-
- s->pos[1] = walk_height;
-
- if( walk_height > k_minworld_y )
- if( block_height > walk_height )
- s->type = k_sample_type_invalid;
- else
- s->type = k_sample_type_valid;
- else
- s->type = k_sample_type_air;
-}
-
-float const k_gridscale = 0.5f;
-
-enum eclipdir
-{
- k_eclipdir_h = 0,
- k_eclipdir_v = 1
-};
-
-static void player_walkgrid_clip_blocker( struct grid_sample *sa,
- struct grid_sample *sb,
- struct grid_sample *st,
- enum eclipdir dir )
-{
- v3f clipdir, pos;
- int valid_a = sa->type == k_sample_type_valid,
- valid_b = sb->type == k_sample_type_valid;
- struct grid_sample *target = valid_a? sa: sb,
- *other = valid_a? sb: sa;
- v3_copy( target->pos, pos );
- v3_sub( other->pos, target->pos, clipdir );
-
- boxf cell_region;
- v3_muladds( pos, (v3f){1.0f,1.0f,1.0f}, -k_gridscale*2.1f, cell_region[0]);
- v3_muladds( pos, (v3f){1.0f,1.0f,1.0f}, k_gridscale*2.1f, cell_region[1]);
-
- u32 geo[256];
- v3f tri[3];
- int len = bh_select( &world.geo.bhtris, cell_region, geo, 256 );
-
- float start_time = v3_length( clipdir ),
- min_time = start_time;
- v3_normalize( clipdir );
- v3_muls( clipdir, 0.0001f, st->clip[dir] );
-
- for( int i=0; i<len; i++ )
- {
- u32 *ptri = &world.geo.indices[ geo[i]*3 ];
- for( int j=0; j<3; j++ )
- v3_copy( world.geo.verts[ptri[j]].co, tri[j] );
-
- if( player_walkgrid_tri_walkable(ptri) )
- continue;
-
- float dist;
- if(ray_tri( tri, pos, clipdir, &dist ))
- {
- if( dist > 0.0f && dist < min_time )
- {
- min_time = dist;
- sb->type = k_sample_type_air;
- }
- }
- }
-
- if( !(min_time < start_time) )
- min_time = 0.5f * k_gridscale;
-
- min_time = vg_clampf( min_time/k_gridscale, 0.01f, 0.99f );
-
- v3_muls( clipdir, min_time, st->clip[dir] );
-
- v3f p0;
- v3_muladds( target->pos, st->clip[dir], k_gridscale, p0 );
-}
-
-static void player_walkgrid_clip_edge( struct grid_sample *sa,
- struct grid_sample *sb,
- struct grid_sample *st, /* data store */
- enum eclipdir dir )
-{
- v3f clipdir = { 0.0f, 0.0f, 0.0f }, pos;
- int valid_a = sa->type == k_sample_type_valid,
- valid_b = sb->type == k_sample_type_valid;
-
- struct grid_sample *target = valid_a? sa: sb,
- *other = valid_a? sb: sa;
-
- v3_sub( other->pos, target->pos, clipdir );
- clipdir[1] = 0.0f;
-
- v3_copy( target->pos, pos );
-
- boxf cell_region;
- v3_muladds( pos, (v3f){1.0f,1.0f,1.0f}, -k_gridscale*1.1f, cell_region[0]);
- v3_muladds( pos, (v3f){1.0f,1.0f,1.0f}, k_gridscale*1.1f, cell_region[1]);
-
- u32 geo[256];
- int len = bh_select( &world.geo.bhtris, cell_region, geo, 256 );
-
- float max_dist = 0.0f;
- v3f tri[3];
- v3f perp;
- v3_cross( clipdir,(v3f){0.0f,1.0f,0.0f},perp );
- v3_muls( clipdir, 0.001f, st->clip[dir] );
-
- for( int i=0; i<len; i++ )
- {
- u32 *ptri = &world.geo.indices[ geo[i]*3 ];
- for( int j=0; j<3; j++ )
- v3_copy( world.geo.verts[ptri[j]].co, tri[j] );
-
- if( !player_walkgrid_tri_walkable(ptri) )
- continue;
-
- for( int k=0; k<3; k++ )
- {
- int ia = k,
- ib = (k+1)%3;
-
- v3f v0, v1;
- v3_sub( tri[ia], pos, v0 );
- v3_sub( tri[ib], pos, v1 );
-
- if( (clipdir[2]*v0[0] - clipdir[0]*v0[2]) *
- (clipdir[2]*v1[0] - clipdir[0]*v1[2]) < 0.0f )
- {
- float da = v3_dot(v0,perp),
- db = v3_dot(v1,perp),
- d = da-db,
- qa = da/d;
-
- v3f p0;
- v3_muls( v1, qa, p0 );
- v3_muladds( p0, v0, 1.0f-qa, p0 );
-
- float h = v3_dot(p0,clipdir)/v3_dot(clipdir,clipdir);
-
- if( h >= max_dist && h <= 1.0f )
- {
- max_dist = h;
- float l = 1.0f/v3_length(clipdir);
- v3_muls( p0, l, st->clip[dir] );
- }
- }
- }
- }
-}
-
-static const struct conf
-{
- struct confedge
- {
- /* i: sample index
- * d: data index
- * a: axis index
- * o: the 'other' point to do a A/B test with
- * if its -1, all AB is done.
- */
- int i0, i1,
- d0, d1,
- a0, a1,
- o0, o1;
- }
- edges[2];
- int edge_count;
-}
-k_walkgrid_configs[16] = {
- {{},0},
- {{{ 3,3, 3,0, 1,0, -1,-1 }}, 1},
- {{{ 2,2, 1,3, 0,1, -1,-1 }}, 1},
- {{{ 2,3, 1,0, 0,0, 3,-1 }}, 1},
-
- {{{ 1,1, 0,1, 1,0, -1,-1 }}, 1},
- {{{ 3,3, 3,0, 1,0, -1,-1 },
- { 1,1, 0,1, 1,0, -1,-1 }}, 2},
- {{{ 1,2, 0,3, 1,1, 2,-1 }}, 1},
- {{{ 1,3, 0,0, 1,0, 2, 2 }}, 1},
-
- {{{ 0,0, 0,0, 0,1, -1,-1 }}, 1},
- {{{ 3,0, 3,0, 1,1, 0,-1 }}, 1},
- {{{ 2,2, 1,3, 0,1, -1,-1 },
- { 0,0, 0,0, 0,1, -1,-1 }}, 2},
- {{{ 2,0, 1,0, 0,1, 3, 3 }}, 1},
-
- {{{ 0,1, 0,1, 0,0, 1,-1 }}, 1},
- {{{ 3,1, 3,1, 1,0, 0, 0 }}, 1},
- {{{ 0,2, 0,3, 0,1, 1, 1 }}, 1},
- {{},0},
-};
-
-/*
- * Get a buffer of edges from cell location
- */
-static const struct conf *player_walkgrid_conf( struct walkgrid *wg,
- v2i cell,
- struct grid_sample *corners[4] )
-{
- corners[0] = &wg->samples[cell[1] ][cell[0] ];
- corners[1] = &wg->samples[cell[1]+1][cell[0] ];
- corners[2] = &wg->samples[cell[1]+1][cell[0]+1];
- corners[3] = &wg->samples[cell[1] ][cell[0]+1];
-
- u32 vd0 = corners[0]->type == k_sample_type_valid,
- vd1 = corners[1]->type == k_sample_type_valid,
- vd2 = corners[2]->type == k_sample_type_valid,
- vd3 = corners[3]->type == k_sample_type_valid,
- config = (vd0<<3) | (vd1<<2) | (vd2<<1) | vd3;
-
- return &k_walkgrid_configs[ config ];
-}
-
-static void player_walkgrid_floor(v3f pos)
-{
- v3_muls( pos, 1.0f/k_gridscale, pos );
- v3_floor( pos, pos );
- v3_muls( pos, k_gridscale, pos );
-}
-
-/*
- * Computes the barycentric coordinate of location on a triangle (vertical),
- * then sets the Y position to the interpolation of the three points
- */
-static void player_walkgrid_stand_tri( v3f a, v3f b, v3f c, v3f pos )
-{
- v3f v0,v1,v2;
- v3_sub( b, a, v0 );
- v3_sub( c, a, v1 );
- v3_sub( pos, a, v2 );
-
- float d = v0[0]*v1[2] - v1[0]*v0[2],
- v = (v2[0]*v1[2] - v1[0]*v2[2]) / d,
- w = (v0[0]*v2[2] - v2[0]*v0[2]) / d,
- u = 1.0f - v - w;
-
- vg_line( pos, a, 0xffff0000 );
- vg_line( pos, b, 0xff00ff00 );
- vg_line( pos, c, 0xff0000ff );
- pos[1] = u*a[1] + v*b[1] + w*c[1];
-}
-
-/*
- * Get the minimum time value of pos+dir until a cell edge
- *
- * t[0] -> t[3] are the individual time values
- * t[5] & t[6] are the maximum axis values
- * t[6] is the minimum value
- *
+ * Animation
*/
-static void player_walkgrid_min_cell( float t[7], v2f pos, v2f dir )
-{
- v2f frac = { 1.0f/dir[0], 1.0f/dir[1] };
- t[0] = 999.9f;
- t[1] = 999.9f;
- t[2] = 999.9f;
- t[3] = 999.9f;
-
- if( fabsf(dir[0]) > 0.0001f )
- {
- t[0] = (0.0f-pos[0]) * frac[0];
- t[1] = (1.0f-pos[0]) * frac[0];
- }
- if( fabsf(dir[1]) > 0.0001f )
- {
- t[2] = (0.0f-pos[1]) * frac[1];
- t[3] = (1.0f-pos[1]) * frac[1];
- }
-
- t[4] = vg_maxf(t[0],t[1]);
- t[5] = vg_maxf(t[2],t[3]);
- t[6] = vg_minf(t[4],t[5]);
-}
-
-static void player_walkgrid_iter(struct walkgrid *wg, int iter)
+static void player_animate_offboard(void)
{
+ mdl_keyframe apose[32], bpose[32];
+ struct skeleton *sk = &player.mdl.sk;
- /*
- * For each walkgrid iteration we are stepping through cells and determining
- * the intersections with the grid, and any edges that are present
- */
-
- u32 icolours[] = { 0xffff00ff, 0xff00ffff, 0xffffff00 };
-
- v3f pa, pb, pc, pd, pl0, pl1;
- pa[0] = wg->region[0][0] + (float)wg->cell_id[0] *k_gridscale;
- pa[1] = (wg->region[0][1] + wg->region[1][1]) * 0.5f + k_gridscale;
- pa[2] = wg->region[0][2] + (float)wg->cell_id[1] *k_gridscale;
-#if 0
- pb[0] = pa[0];
- pb[1] = pa[1];
- pb[2] = pa[2] + k_gridscale;
- pc[0] = pa[0] + k_gridscale;
- pc[1] = pa[1];
- pc[2] = pa[2] + k_gridscale;
- pd[0] = pa[0] + k_gridscale;
- pd[1] = pa[1];
- pd[2] = pa[2];
- /* if you want to draw the current cell */
- vg_line( pa, pb, 0xff00ffff );
- vg_line( pb, pc, 0xff00ffff );
- vg_line( pc, pd, 0xff00ffff );
- vg_line( pd, pa, 0xff00ffff );
-#endif
- pl0[0] = pa[0] + wg->pos[0]*k_gridscale;
- pl0[1] = pa[1];
- pl0[2] = pa[2] + wg->pos[1]*k_gridscale;
-
- /*
- * If there are edges present, we need to create a 'substep' event, where
- * we find the intersection point, find the fully resolved position,
- * then the new pos dir is the intersection->resolution
- *
- * the resolution is applied in non-discretized space in order to create a
- * suitable vector for finding outflow, we want it to leave the cell so it
- * can be used by the quad
- */
-
- v2f pos, dir;
- v2_copy( wg->pos, pos );
- v2_muls( wg->dir, wg->move, dir );
-
- struct grid_sample *corners[4];
- v2f corners2d[4] = {{0.0f,0.0f},{0.0f,1.0f},{1.0f,1.0f},{1.0f,0.0f}};
- const struct conf *conf = player_walkgrid_conf( wg, wg->cell_id, corners );
-
- float t[7];
- player_walkgrid_min_cell( t, pos, dir );
-
- for( int i=0; i<conf->edge_count; i++ )
- {
- const struct confedge *edge = &conf->edges[i];
-
- v2f e0, e1, n, r, target, res, tangent;
- e0[0] = corners2d[edge->i0][0] + corners[edge->d0]->clip[edge->a0][0];
- e0[1] = corners2d[edge->i0][1] + corners[edge->d0]->clip[edge->a0][2];
- e1[0] = corners2d[edge->i1][0] + corners[edge->d1]->clip[edge->a1][0];
- e1[1] = corners2d[edge->i1][1] + corners[edge->d1]->clip[edge->a1][2];
-
- v3f pe0 = { pa[0] + e0[0]*k_gridscale,
- pa[1],
- pa[2] + e0[1]*k_gridscale };
- v3f pe1 = { pa[0] + e1[0]*k_gridscale,
- pa[1],
- pa[2] + e1[1]*k_gridscale };
-
- v2_sub( e1, e0, tangent );
- n[0] = -tangent[1];
- n[1] = tangent[0];
- v2_normalize( n );
-
- /*
- * If we find ourselfs already penetrating the edge, move back out a
- * little
- */
- v2_sub( e0, pos, r );
- float p1 = v2_dot(r,n);
-
- if( -p1 < 0.0001f )
- {
- v2_muladds( pos, n, p1+0.0001f, pos );
- v2_copy( pos, wg->pos );
- v3f p_new = { pa[0] + pos[0]*k_gridscale,
- pa[1],
- pa[2] + pos[1]*k_gridscale };
- v3_copy( p_new, pl0 );
- }
-
- v2_add( pos, dir, target );
-
- v2f v1, v2, v3;
- v2_sub( e0, pos, v1 );
- v2_sub( target, pos, v2 );
-
- v2_copy( n, v3 );
-
- v2_sub( e0, target, r );
- float p = v2_dot(r,n),
- t1 = v2_dot(v1,v3)/v2_dot(v2,v3);
-
- if( t1 < t[6] && t1 > 0.0f && -p < 0.001f )
- {
- v2_muladds( target, n, p+0.0001f, res );
-
- v2f intersect;
- v2_muladds( pos, dir, t1, intersect );
- v2_copy( intersect, pos );
- v2_sub( res, intersect, dir );
-
- v3f p_res = { pa[0] + res[0]*k_gridscale,
- pa[1],
- pa[2] + res[1]*k_gridscale };
- v3f p_int = { pa[0] + intersect[0]*k_gridscale,
- pa[1],
- pa[2] + intersect[1]*k_gridscale };
-
- vg_line( pl0, p_int, icolours[iter%3] );
- v3_copy( p_int, pl0 );
- v2_copy( pos, wg->pos );
-
- player_walkgrid_min_cell( t, pos, dir );
- }
- }
-
- /*
- * Compute intersection with grid cell moving outwards
- */
- t[6] = vg_minf( t[6], 1.0f );
-
- pl1[0] = pl0[0] + dir[0]*k_gridscale*t[6];
- pl1[1] = pl0[1];
- pl1[2] = pl0[2] + dir[1]*k_gridscale*t[6];
- vg_line( pl0, pl1, icolours[iter%3] );
-
- if( t[6] < 1.0f )
- {
- /*
- * To figure out what t value created the clip so we know which edge
- * to wrap around
- */
-
- if( t[4] < t[5] )
- {
- wg->pos[1] = pos[1] + dir[1]*t[6];
-
- if( t[0] > t[1] ) /* left edge */
- {
- wg->pos[0] = 0.9999f;
- wg->cell_id[0] --;
-
- if( wg->cell_id[0] == 0 )
- wg->move = -1.0f;
- }
- else /* Right edge */
- {
- wg->pos[0] = 0.0001f;
- wg->cell_id[0] ++;
-
- if( wg->cell_id[0] == WALKGRID_SIZE-2 )
- wg->move = -1.0f;
- }
- }
- else
- {
- wg->pos[0] = pos[0] + dir[0]*t[6];
-
- if( t[2] > t[3] ) /* bottom edge */
- {
- wg->pos[1] = 0.9999f;
- wg->cell_id[1] --;
-
- if( wg->cell_id[1] == 0 )
- wg->move = -1.0f;
- }
- else /* top edge */
- {
- wg->pos[1] = 0.0001f;
- wg->cell_id[1] ++;
-
- if( wg->cell_id[1] == WALKGRID_SIZE-2 )
- wg->move = -1.0f;
- }
- }
-
- wg->move -= t[6];
- }
- else
- {
- v2_muladds( wg->pos, dir, wg->move, wg->pos );
- wg->move = 0.0f;
- }
-}
-
-static void player_walkgrid_stand_cell(struct walkgrid *wg)
-{
- /*
- * NOTE: as opposed to the other function which is done in discretized space
- * this use a combination of both.
- */
+ float walk_norm = 30.0f/(float)player.mdl.anim_walk->length,
+ run_norm = 30.0f/(float)player.mdl.anim_run->length,
+ t = player.walk_timer,
+ l = vg_get_axis("grabr") * 0.5f + 0.5f;
- v3f world;
- world[0] = wg->region[0][0]+((float)wg->cell_id[0]+wg->pos[0])*k_gridscale;
- world[1] = player.rb.co[1];
- world[2] = wg->region[0][2]+((float)wg->cell_id[1]+wg->pos[1])*k_gridscale;
+ skeleton_sample_anim( sk, player.mdl.anim_walk, t*walk_norm, apose );
+ skeleton_sample_anim( sk, player.mdl.anim_run, t*run_norm, bpose );
- struct grid_sample *corners[4];
- const struct conf *conf = player_walkgrid_conf( wg, wg->cell_id, corners );
+ skeleton_lerp_pose( sk, apose, bpose, l, apose );
- if( conf != k_walkgrid_configs )
- {
- if( conf->edge_count == 0 )
- {
- v3f v0;
+ float idle_walk = vg_minf( l * 10.0f, 1.0f);
- /* Split the basic quad along the shortest diagonal */
- if( fabsf(corners[2]->pos[1] - corners[0]->pos[1]) <
- fabsf(corners[3]->pos[1] - corners[1]->pos[1]) )
- {
- vg_line( corners[2]->pos, corners[0]->pos, 0xffaaaaaa );
-
- if( wg->pos[0] > wg->pos[1] )
- player_walkgrid_stand_tri( corners[0]->pos,
- corners[3]->pos,
- corners[2]->pos, world );
- else
- player_walkgrid_stand_tri( corners[0]->pos,
- corners[2]->pos,
- corners[1]->pos, world );
- }
- else
- {
- vg_line( corners[3]->pos, corners[1]->pos, 0xffaaaaaa );
-
- if( wg->pos[0] < 1.0f-wg->pos[1] )
- player_walkgrid_stand_tri( corners[0]->pos,
- corners[3]->pos,
- corners[1]->pos, world );
- else
- player_walkgrid_stand_tri( corners[3]->pos,
- corners[2]->pos,
- corners[1]->pos, world );
- }
- }
- else
- {
- for( int i=0; i<conf->edge_count; i++ )
- {
- const struct confedge *edge = &conf->edges[i];
+ skeleton_sample_anim( sk, player.mdl.anim_idle, vg_time*0.1f, bpose );
+ skeleton_lerp_pose( sk, apose, bpose, 1.0f-idle_walk, apose );
- v3f p0, p1;
- v3_muladds( corners[edge->i0]->pos,
- corners[edge->d0]->clip[edge->a0], k_gridscale, p0 );
- v3_muladds( corners[edge->i1]->pos,
- corners[edge->d1]->clip[edge->a1], k_gridscale, p1 );
+ skeleton_apply_pose( &player.mdl.sk, apose, k_anim_apply_defer_ik );
+ skeleton_apply_ik_pass( &player.mdl.sk );
+ skeleton_apply_pose( &player.mdl.sk, apose, k_anim_apply_deffered_only );
- /*
- * Find penetration distance between player position and the edge
- */
+ v3_copy( player.mdl.sk.final_mtx[player.mdl.id_head-1][3],
+ player.mdl.cam_pos );
- v2f normal = { -(p1[2]-p0[2]), p1[0]-p0[0] },
- rel = { world[0]-p0[0], world[2]-p0[2] };
+ skeleton_apply_inverses( &player.mdl.sk );
- if( edge->o0 == -1 )
- {
- /* No subregions (default case), just use triangle created by
- * i0, e0, e1 */
- player_walkgrid_stand_tri( corners[edge->i0]->pos,
- p0,
- p1, world );
- }
- else
- {
- /*
- * Test if we are in the first region, which is
- * edge.i0, edge.e0, edge.o0,
- */
- v3f v0, ref;
- v3_sub( p0, corners[edge->o0]->pos, ref );
- v3_sub( world, corners[edge->o0]->pos, v0 );
-
- vg_line( corners[edge->o0]->pos, p0, 0xffffff00 );
- vg_line( corners[edge->o0]->pos, world, 0xff000000 );
-
- if( ref[0]*v0[2] - ref[2]*v0[0] < 0.0f )
- {
- player_walkgrid_stand_tri( corners[edge->i0]->pos,
- p0,
- corners[edge->o0]->pos, world );
- }
- else
- {
- if( edge->o1 == -1 )
- {
- /*
- * No other edges mean we just need to use the opposite
- *
- * e0, e1, o0 (in our case, also i1)
- */
- player_walkgrid_stand_tri( p0,
- p1,
- corners[edge->o0]->pos, world );
- }
- else
- {
- /*
- * Note: this v0 calculation can be ommited with the
- * current tileset.
- *
- * the last two triangles we have are:
- * e0, e1, o1
- * and
- * e1, i1, o1
- */
- v3_sub( p1, corners[edge->o1]->pos, ref );
- v3_sub( world, corners[edge->o1]->pos, v0 );
- vg_line( corners[edge->o1]->pos, p1, 0xff00ffff );
-
- if( ref[0]*v0[2] - ref[2]*v0[0] < 0.0f )
- {
- player_walkgrid_stand_tri( p0,
- p1,
- corners[edge->o1]->pos,
- world );
- }
- else
- {
- player_walkgrid_stand_tri( p1,
- corners[edge->i1]->pos,
- corners[edge->o1]->pos,
- world );
- }
- }
- }
- }
- }
- }
- }
+ m4x3f mtx;
+ v4f rot;
+ q_axis_angle( rot, (v3f){0.0f,1.0f,0.0f}, -player.angles[0] - VG_PIf*0.5f );
+ q_m3x3( rot, mtx );
+ v3_copy( player.rb.to_world[3], mtx[3] );
- v3_copy( world, player.rb.co );
+ skeleton_apply_transform( &player.mdl.sk, mtx );
+ skeleton_debug( &player.mdl.sk );
}
-static void player_walkgrid_getsurface(void)
+static void player_animate(void)
{
- float const k_stepheight = 0.5f;
- float const k_miny = 0.6f;
- float const k_height = 1.78f;
- float const k_region_size = (float)WALKGRID_SIZE/2.0f * k_gridscale;
-
- static struct walkgrid wg;
-
- v3f cell;
- v3_copy( player.rb.co, cell );
- player_walkgrid_floor( cell );
-
- v3_muladds( cell, (v3f){-1.0f,-1.0f,-1.0f}, k_region_size, wg.region[0] );
- v3_muladds( cell, (v3f){ 1.0f, 1.0f, 1.0f}, k_region_size, wg.region[1] );
-
-
- /*
- * Create player input vector
- */
- v3f delta = {0.0f,0.0f,0.0f};
- v3f fwd = { -sinf(-player.angles[0]), 0.0f, -cosf(-player.angles[0]) },
- side = { -fwd[2], 0.0f, fwd[0] };
-
- /* Temp */
- if( !vg_console_enabled() )
- {
- if( glfwGetKey( vg_window, GLFW_KEY_W ) )
- v3_muladds( delta, fwd, ktimestep*k_walkspeed, delta );
- if( glfwGetKey( vg_window, GLFW_KEY_S ) )
- v3_muladds( delta, fwd, -ktimestep*k_walkspeed, delta );
-
- if( glfwGetKey( vg_window, GLFW_KEY_A ) )
- v3_muladds( delta, side, -ktimestep*k_walkspeed, delta );
- if( glfwGetKey( vg_window, GLFW_KEY_D ) )
- v3_muladds( delta, side, ktimestep*k_walkspeed, delta );
-
- v3_muladds( delta, fwd,
- vg_get_axis("vertical")*-ktimestep*k_walkspeed, delta );
- v3_muladds( delta, side,
- vg_get_axis("horizontal")*ktimestep*k_walkspeed, delta );
- }
-
- /*
- * Create our move in grid space
- */
- wg.dir[0] = delta[0] * (1.0f/k_gridscale);
- wg.dir[1] = delta[2] * (1.0f/k_gridscale);
- wg.move = 1.0f;
-
- v2f region_pos =
- {
- (player.rb.co[0] - wg.region[0][0]) * (1.0f/k_gridscale),
- (player.rb.co[2] - wg.region[0][2]) * (1.0f/k_gridscale)
- };
- v2f region_cell_pos;
- v2_floor( region_pos, region_cell_pos );
- v2_sub( region_pos, region_cell_pos, wg.pos );
-
- wg.cell_id[0] = region_cell_pos[0];
- wg.cell_id[1] = region_cell_pos[1];
-
- for(int y=0; y<WALKGRID_SIZE; y++ )
- {
- for(int x=0; x<WALKGRID_SIZE; x++ )
- {
- struct grid_sample *s = &wg.samples[y][x];
- v3_muladds( wg.region[0], (v3f){ x, 0, y }, k_gridscale, s->pos );
- s->state = k_traverse_none;
- s->type = k_sample_type_air;
- v3_zero( s->clip[0] );
- v3_zero( s->clip[1] );
- }
- }
-
- v2i border[WALKGRID_SIZE*WALKGRID_SIZE];
- v2i *cborder = border;
- u32 border_length = 1;
-
- struct grid_sample *base = NULL;
-
- v2i starters[] = {{0,0},{1,1},{0,1},{1,0}};
-
- for( int i=0;i<4;i++ )
- {
- v2i test;
- v2i_add( wg.cell_id, starters[i], test );
- v2i_copy( test, border[0] );
- base = &wg.samples[test[1]][test[0]];
-
- base->pos[1] = cell[1];
- player_walkgrid_samplepole( base );
-
- if( base->type == k_sample_type_valid )
- break;
- else
- base->type = k_sample_type_air;
- }
-
- vg_line_pt3( base->pos, 0.1f, 0xffffffff );
-
- int iter = 0;
-
- while( border_length )
+ if( !player.on_board )
{
- v2i directions[] = {{1,0},{0,1},{-1,0},{0,-1}};
-
- v2i *old_border = cborder;
- int len = border_length;
-
- border_length = 0;
- cborder = old_border+len;
-
- for( int i=0; i<len; i++ )
- {
- v2i co;
- v2i_copy( old_border[i], co );
- struct grid_sample *sa = &wg.samples[co[1]][co[0]];
-
- for( int j=0; j<4; j++ )
- {
- v2i newp;
- v2i_add( co, directions[j], newp );
-
- if( newp[0] < 0 || newp[1] < 0 ||
- newp[0] == WALKGRID_SIZE || newp[1] == WALKGRID_SIZE )
- continue;
-
- struct grid_sample *sb = &wg.samples[newp[1]][newp[0]];
- enum traverse_state thismove = j%2==0? 1: 2;
-
- if( (sb->state & thismove) == 0x00 ||
- sb->type == k_sample_type_air )
- {
- sb->pos[1] = sa->pos[1];
-
- player_walkgrid_samplepole( sb );
-
- if( sb->type != k_sample_type_air )
- {
- /*
- * Need to do a blocker pass
- */
-
- struct grid_sample *store = (j>>1 == 0)? sa: sb;
- player_walkgrid_clip_blocker( sa, sb, store, j%2 );
-
-
- if( sb->type != k_sample_type_air )
- {
- vg_line( sa->pos, sb->pos, 0xffffffff );
-
- if( sb->state == k_traverse_none )
- v2i_copy( newp, cborder[ border_length ++ ] );
- }
- else
- {
- v3f p1;
- v3_muladds( sa->pos, store->clip[j%2], k_gridscale, p1 );
- vg_line( sa->pos, p1, 0xffffffff );
- }
- }
- else
- {
- /*
- * A clipping pass is now done on the edge of the walkable
- * surface
- */
-
- struct grid_sample *store = (j>>1 == 0)? sa: sb;
- player_walkgrid_clip_edge( sa, sb, store, j%2 );
-
- v3f p1;
- v3_muladds( sa->pos, store->clip[j%2], k_gridscale, p1 );
- vg_line( sa->pos, p1, 0xffffffff );
- }
-
- sb->state |= thismove;
- }
- }
-
- sa->state = k_traverse_h|k_traverse_v;
- }
-
- iter ++;
- if( iter == walk_grid_iterations )
- break;
- }
-
- /* Draw connections */
- struct grid_sample *corners[4];
- for( int x=0; x<WALKGRID_SIZE-1; x++ )
- {
- for( int z=0; z<WALKGRID_SIZE-1; z++ )
- {
- const struct conf *conf =
- player_walkgrid_conf( &wg, (v2i){x,z}, corners );
-
- for( int i=0; i<conf->edge_count; i++ )
- {
- const struct confedge *edge = &conf->edges[i];
-
- v3f p0, p1;
- v3_muladds( corners[edge->i0]->pos,
- corners[edge->d0]->clip[edge->a0], k_gridscale, p0 );
- v3_muladds( corners[edge->i1]->pos,
- corners[edge->d1]->clip[edge->a1], k_gridscale, p1 );
-
- vg_line( p0, p1, 0xff0000ff );
- }
- }
- }
-
- /*
- * Commit player movement into the grid
- */
-
- if( v3_length2(delta) <= 0.00001f )
+ player_animate_offboard();
return;
-
- int i=0;
- for(; i<8 && wg.move > 0.001f; i++ )
- player_walkgrid_iter( &wg, i );
-
- player_walkgrid_stand_cell( &wg );
-}
-
-static void player_walkgrid(void)
-{
- player_walkgrid_getsurface();
-
- m4x3_mulv( player.rb.to_world, (v3f){0.0f,1.8f,0.0f}, player.camera_pos );
- player_mouseview();
- rb_update_transform( &player.rb );
-}
-
-/*
- * Animation
- */
+ }
-static void player_animate(void)
-{
/* Camera position */
v3_sub( player.rb.v, player.v_last, player.a );
v3_copy( player.rb.v, player.v_last );
skeleton_lerp_pose( sk, apose, bpose, player.fpush, apose );
/* trick setup */
- float setup_frame = player.jump * (12.0f/30.0f),
+ float jump_start_frame = 14.0f/30.0f;
+ float setup_frame = player.jump * jump_start_frame,
setup_blend = vg_minf( player.jump*5.0f, 1.0f );
- float jump_frame = (vg_time - player.jump_time) + (12.0f/30.0f);
- if( jump_frame >= (12.0f/30.0f) && jump_frame <= (40.0f/30.0f) )
+ float jump_frame = (vg_time - player.jump_time) + jump_start_frame;
+ if( jump_frame >= jump_start_frame && jump_frame <= (40.0f/30.0f) )
setup_frame = jump_frame;
- skeleton_sample_anim_clamped( sk, player.mdl.anim_ollie,
- setup_frame, bpose );
+ struct skeleton_anim *jump_anim = player.jump_dir?
+ player.mdl.anim_ollie:
+ player.mdl.anim_ollie_reverse;
+
+ skeleton_sample_anim_clamped( sk, jump_anim, setup_frame, bpose );
skeleton_lerp_pose( sk, apose, bpose, setup_blend, ground_pose );
}
float air_frame = (player.fairdir*0.5f+0.5f) * (15.0f/30.0f);
- skeleton_sample_anim( sk, player.mdl.anim_air, air_frame, air_pose );
+ skeleton_sample_anim( sk, player.mdl.anim_air, air_frame, apose );
+
+ static v2f grab_choice;
+ v2_lerp( grab_choice, (v2f){ vg_get_axis("h1"), vg_get_axis("v1") },
+ 0.04f, grab_choice );
+
+ float ang = atan2f( grab_choice[0], grab_choice[1] ),
+ ang_unit = (ang+VG_PIf) * (1.0f/VG_TAUf),
+ grab_frame = ang_unit * (15.0f/30.0f);
+
+ skeleton_sample_anim( sk, player.mdl.anim_grabs, grab_frame, bpose );
+ skeleton_lerp_pose( sk, apose, bpose, player.grab, air_pose );
}
skeleton_lerp_pose( sk, ground_pose, air_pose, player.ffly, apose );
+ float add_grab_mod = player.ffly * player.grab;
+
/* additive effects */
- apose[player.mdl.id_hip-1].co[0] += offset[0];
- apose[player.mdl.id_hip-1].co[2] += offset[2];
- apose[player.mdl.id_ik_hand_l-1].co[0] += offset[0];
- apose[player.mdl.id_ik_hand_l-1].co[2] += offset[2];
- apose[player.mdl.id_ik_hand_r-1].co[0] += offset[0];
- apose[player.mdl.id_ik_hand_r-1].co[2] += offset[2];
- apose[player.mdl.id_ik_elbow_l-1].co[0] += offset[0];
- apose[player.mdl.id_ik_elbow_l-1].co[2] += offset[2];
- apose[player.mdl.id_ik_elbow_r-1].co[0] += offset[0];
- apose[player.mdl.id_ik_elbow_r-1].co[2] += offset[2];
+ apose[player.mdl.id_hip-1].co[0] += offset[0]*add_grab_mod;
+ apose[player.mdl.id_hip-1].co[2] += offset[2]*add_grab_mod;
+ apose[player.mdl.id_ik_hand_l-1].co[0] += offset[0]*add_grab_mod;
+ apose[player.mdl.id_ik_hand_l-1].co[2] += offset[2]*add_grab_mod;
+ apose[player.mdl.id_ik_hand_r-1].co[0] += offset[0]*add_grab_mod;
+ apose[player.mdl.id_ik_hand_r-1].co[2] += offset[2]*add_grab_mod;
+ apose[player.mdl.id_ik_elbow_l-1].co[0] += offset[0]*add_grab_mod;
+ apose[player.mdl.id_ik_elbow_l-1].co[2] += offset[2]*add_grab_mod;
+ apose[player.mdl.id_ik_elbow_r-1].co[0] += offset[0]*add_grab_mod;
+ apose[player.mdl.id_ik_elbow_r-1].co[2] += offset[2]*add_grab_mod;
skeleton_apply_pose( &player.mdl.sk, apose, k_anim_apply_defer_ik );
skeleton_apply_ik_pass( &player.mdl.sk );
static void player_animate_death_cam(void)
{
-#if 0
v3f delta;
v3f head_pos;
- v3_copy( player.mdl.ragdoll[k_chpart_head].co, head_pos );
+ v3_copy( player.mdl.ragdoll[0].rb.co, head_pos );
v3_sub( head_pos, player.camera_pos, delta );
v3_normalize( delta );
player.angles[0] = atan2f( delta[0], -delta[2] );
player.angles[1] = -asinf( delta[1] );
-#endif
}
static void player_animate_camera(void)
{
static v3f lerp_cam = {0.0f,0.0f,0.0f};
- v3f offs = { -0.4f, 0.15f, 0.0f };
-
- v3_lerp( lerp_cam, player.mdl.cam_pos, 0.8f, lerp_cam );
- v3_add( lerp_cam, offs, offs );
- m4x3_mulv( player.rb.to_world, offs, player.camera_pos );
-
- /* Look angles */
- v3_lerp( player.vl, player.rb.v, 0.05f, player.vl );
-
- float yaw = atan2f( player.vl[0], -player.vl[2] ),
- pitch = atan2f( -player.vl[1],
- sqrtf(
- player.vl[0]*player.vl[0] + player.vl[2]*player.vl[2]
- )) * 0.7f;
+ v3f cam_pos;
- player.angles[0] = yaw;
- player.angles[1] = pitch + 0.30f;
+ player.fonboard = vg_lerpf(player.fonboard, player.on_board, ktimestep*1.0f);
- /* Camera shake */
- static v2f shake_damp = {0.0f,0.0f};
- v2f shake = { vg_randf()-0.5f, vg_randf()-0.5f };
- v2_muls( shake, v3_length(player.rb.v)*0.3f
- * (1.0f+fabsf(player.slip)), shake);
-
- v2_lerp( shake_damp, shake, 0.01f, shake_damp );
- shake_damp[0] *= 0.2f;
+ if( player.on_board )
+ {
+ v3f offs = { -0.4f, 0.15f, 0.0f };
+ v3_lerp( lerp_cam, player.mdl.cam_pos, 0.8f, lerp_cam );
+ v3_add( lerp_cam, offs, cam_pos );
+
+ /* Look angles */
+ v3_lerp( player.vl, player.rb.v, 0.05f, player.vl );
+
+ float yaw = atan2f( player.vl[0], -player.vl[2] ),
+ pitch = atan2f( -player.vl[1],
+ sqrtf(
+ player.vl[0]*player.vl[0] + player.vl[2]*player.vl[2]
+ )) * 0.7f;
+
+ player.angles[0] = yaw;
+ player.angles[1] = vg_lerpf( player.angles[1], pitch + 0.30f,
+ player.fonboard );
+
+ /* Camera shake */
+ static v2f shake_damp = {0.0f,0.0f};
+ v2f shake = { vg_randf()-0.5f, vg_randf()-0.5f };
+ v2_muls( shake, v3_length(player.rb.v)*0.3f
+ * (1.0f+fabsf(player.slip)), shake);
+
+ v2_lerp( shake_damp, shake, 0.01f, shake_damp );
+ shake_damp[0] *= 0.2f;
+
+ v2_muladds( player.angles, shake_damp, 0.1f, player.angles );
+ m4x3_mulv( player.rb.to_world, cam_pos, player.camera_pos );
+ }
+ else
+ {
+ float speed = ktimestep * k_look_speed;
+ player.angles[0] += vg_get_axis( "horizontal" ) * speed;
+ player.angles[1] += vg_get_axis( "vertical" ) * speed;
+
+ player.angles[1] = vg_clampf( player.angles[1],
+ -k_pitch_limit, k_pitch_limit );
+
+ float s = sinf(player.angles[0]) * 0.2f,
+ c = -cosf(player.angles[0]) * 0.2f;
+ v3f forward_dir = { s,0.15f,c };
- v2_muladds( player.angles, shake_damp, 0.1f, player.angles );
+
+ m4x3f mtx;
+ v4f rot;
+ q_axis_angle( rot, (v3f){0.0f,1.0f,0.0f},
+ -player.angles[0] -VG_PIf*0.5f );
+ q_m3x3( rot, mtx );
+ v3_copy( player.rb.to_world[3], mtx[3] );
+
+ m4x3_mulv( mtx, player.mdl.cam_pos, cam_pos );
+ v3_add( cam_pos, forward_dir, player.camera_pos );
+ v3_lerp( player.vl, player.rb.v, 0.3f, player.vl );
+ }
}
/*
rb_update_transform( &player.rb );
m3x3_mulv( player.rb.to_world, (v3f){ 0.0f, 0.0f, -1.2f }, player.rb.v );
+ m3x3_identity( player.gate_vr_frame );
+ m3x3_identity( player.gate_vr_pstep_frame );
player.rb_gate_frame = player.rb;
return 1;
if( vg_get_axis("grabl")>0.0f)
{
player.rb = player.rb_gate_frame;
+ m3x3_copy( player.gate_vr_frame, player.vr );
+ m3x3_copy( player.gate_vr_pstep_frame, player.vr_pstep );
player.is_dead = 0;
player.in_air = 1;
m3x3_identity( player.vr );
player.on_board ^= 0x1;
}
+ if( glfwGetKey( vg_window, GLFW_KEY_O ) )
+ {
+ character_ragdoll_copypose( &player.mdl, player.rb.v );
+ player.is_dead = 1;
+ }
+
if( player.is_dead )
{
character_ragdoll_iter( &player.mdl );
}
else
{
- if( player.on_board )
- {
- player_do_motion();
- player_animate();
+ player_do_motion();
+ player_animate();
- if( !freecam )
- player_animate_camera();
- }
- else
- {
- player_walkgrid();
- }
+ if( !freecam )
+ player_animate_camera();
}
if( freecam )
static void draw_player(void)
{
- /* Draw */
-#if 0
- m4x3_copy( player.rb.to_world, player.mdl.mroot );
-
if( player.is_dead )
character_mimic_ragdoll( &player.mdl );
- else
- character_eval( &player.mdl );
-
- float opacity = 1.0f-player.air_blend;
- if( player.is_dead )
- opacity = 0.0f;
-
- character_draw( &player.mdl, opacity, player.camera );
-#endif
shader_viewchar_use();
vg_tex2d_bind( &tex_characters, 0 );