-#include "common.h"
-#include "character.h"
-
-static int freecam = 0;
-static float k_walkspeed = 2.0f;
-static int walk_grid_iterations = 1;
-
-static struct gplayer
-{
- /* Physics */
- v3f co, v, a, v_last, m, bob;
- v4f rot;
- float vswitch, slip, slip_last,
- reverse;
-
- float iY; /* Yaw inertia */
- int in_air, is_dead, on_board;
-
- /* Input */
- v2f joy_l;
-
- v2f board_xy;
- float grab;
- float pitch;
-
- v3f land_target;
- v3f land_target_log[22];
- u32 land_target_colours[22];
- int land_log_count;
- m3x3f vr;
-
- m4x3f to_world, to_local;
-
- struct character mdl;
-
- v3f handl_target, handr_target,
- handl, handr;
-
- /* Camera */
- float air_blend;
-
- v3f camera_pos, smooth_localcam;
- v2f angles;
- m4x3f camera, camera_inverse;
-}
-player;
-
-static void player_transform_update(void)
-{
- q_normalize( player.rot );
- q_m3x3( player.rot, player.to_world );
- v3_copy( player.co, player.to_world[3] );
-
- m4x3_invert_affine( player.to_world, player.to_local );
-}
-
-static int reset_player( int argc, char const *argv[] )
-{
- v3_copy( (v3f){ 0.0f, -2.0f, 0.0f }, player.co );
-
- if( argc == 1 )
- {
- if( !strcmp( argv[0], "tutorial" ))
- v3_copy( world.tutorial, player.co );
- }
-
- v3_copy( (v3f){ 0.0f, 0.0f, -0.2f }, player.v );
- q_identity( player.rot );
- player.vswitch = 1.0f;
- player.slip_last = 0.0f;
- player.is_dead = 0;
- player.in_air = 1;
- m3x3_identity( player.vr );
-
- player.mdl.shoes[0] = 1;
- player.mdl.shoes[1] = 1;
-
- player_transform_update();
- return 0;
-}
-
-static void player_mouseview(void)
-{
- static v2f mouse_last,
- view_vel = { 0.0f, 0.0f };
-
- if( vg_get_button_down( "primary" ) )
- v2_copy( vg_mouse, mouse_last );
- else if( vg_get_button( "primary" ) )
- {
- v2f delta;
- v2_sub( vg_mouse, mouse_last, delta );
- v2_copy( vg_mouse, mouse_last );
-
- v2_muladds( view_vel, delta, 0.005f, view_vel );
- }
-
- v2_muls( view_vel, 0.7f, view_vel );
- v2_add( view_vel, player.angles, player.angles );
- player.angles[1] = vg_clampf( player.angles[1], -VG_PIf*0.5f, VG_PIf*0.5f );
-
-}
-
-static void player_freecam(void)
-{
- player_mouseview();
-
- float movespeed = 25.0f;
- v3f lookdir = { 0.0f, 0.0f, -1.0f },
- sidedir = { 1.0f, 0.0f, 0.0f };
-
- m3x3_mulv( player.camera, lookdir, lookdir );
- m3x3_mulv( player.camera, sidedir, sidedir );
-
- static v3f move_vel = { 0.0f, 0.0f, 0.0f };
- if( vg_get_button( "forward" ) )
- v3_muladds( move_vel, lookdir, ktimestep * movespeed, move_vel );
- if( vg_get_button( "back" ) )
- v3_muladds( move_vel, lookdir, ktimestep *-movespeed, move_vel );
- if( vg_get_button( "left" ) )
- v3_muladds( move_vel, sidedir, ktimestep *-movespeed, move_vel );
- if( vg_get_button( "right" ) )
- v3_muladds( move_vel, sidedir, ktimestep * movespeed, move_vel );
-
- v3_muls( move_vel, 0.7f, move_vel );
- v3_add( move_vel, player.camera_pos, player.camera_pos );
-}
-
-static void apply_gravity( v3f vel, float const timestep )
-{
- v3f gravity = { 0.0f, -9.6f, 0.0f };
- v3_muladds( vel, gravity, timestep, vel );
-}
-
-static void player_start_air(void)
-{
- player.in_air = 1;
-
- float pstep = ktimestep*10.0f;
-
- float best_velocity_mod = 0.0f,
- best_velocity_delta = -9999.9f;
-
- v3f axis, vup;
- m3x3_mulv( player.to_world, (v3f){0.0f,1.0f,0.0f}, vup );
- v3_cross( vup, player.v, axis );
- v3_normalize( axis );
- player.land_log_count = 0;
-
- m3x3_identity( player.vr );
-
- for( int m=-3;m<=12; m++ )
- {
- float vmod = ((float)m / 15.0f)*0.09f;
-
- v3f pco, pco1, pv;
- v3_copy( player.co, pco );
- v3_copy( player.v, pv );
-
- /*
- * Try different 'rotations' of the velocity to find the best possible
- * landing normal. This conserves magnitude at the expense of slightly
- * unrealistic results
- */
-
- m3x3f vr;
- v4f vr_q;
-
- q_axis_angle( vr_q, axis, vmod );
- q_m3x3( vr_q, vr );
-
- m3x3_mulv( vr, pv, pv );
- v3_muladds( pco, pv, ktimestep, pco );
-
- for( int i=0; i<50; i++ )
- {
- v3_copy( pco, pco1 );
- apply_gravity( pv, pstep );
-
- m3x3_mulv( vr, pv, pv );
- v3_muladds( pco, pv, pstep, pco );
-
- ray_hit contact;
- v3f vdir;
-
- v3_sub( pco, pco1, vdir );
- contact.dist = v3_length( vdir );
- v3_divs( vdir, contact.dist, vdir);
-
- if( ray_world( pco1, vdir, &contact ))
- {
- float land_delta = v3_dot( pv, contact.normal );
- u32 scolour = (u8)(vg_minf(-land_delta * 2.0f, 255.0f));
-
- /* Bias prediction towords ramps */
- if( ray_hit_is_ramp( &contact ) )
- {
- land_delta *= 0.1f;
- scolour |= 0x0000a000;
- }
-
- if( (land_delta < 0.0f) && (land_delta > best_velocity_delta) )
- {
- best_velocity_delta = land_delta;
- best_velocity_mod = vmod;
-
- v3_copy( contact.pos, player.land_target );
-
- q_axis_angle( vr_q, axis, vmod*0.1f );
- q_m3x3( vr_q, player.vr );
- }
-
- v3_copy( contact.pos,
- player.land_target_log[player.land_log_count] );
- player.land_target_colours[player.land_log_count] =
- 0xff000000 | scolour;
-
- player.land_log_count ++;
-
- break;
- }
- }
- }
-
- //v3_rotate( player.v, best_velocity_mod, axis, player.v );
-
- return;
- v3_muls( player.v, best_velocity_mod, player.v );
-}
-
-static int sample_if_resistant( v3f pos )
-{
- v3f ground;
- v3_copy( pos, ground );
- ground[1] += 4.0f;
-
- ray_hit hit;
- hit.dist = INFINITY;
-
- if( ray_world( ground, (v3f){0.0f,-1.0f,0.0f}, &hit ))
- {
- v3f angle;
- v3_copy( player.v, angle );
- v3_normalize( angle );
- float resistance = v3_dot( hit.normal, angle );
-
- if( resistance < 0.25f )
- {
- v3_copy( hit.pos, pos );
- return 1;
- }
- }
-
- return 0;
-}
-
-static float stable_force( float current, float diff )
-{
- float new = current + diff;
-
- if( new * current < 0.0f )
- return 0.0f;
-
- return new;
-}
-
-static void player_physics_ground(void)
-{
- /*
- * Getting surface collision points,
- * the contact manifold is a triangle for simplicity.
- */
- v3f contact_front, contact_back, contact_norm, vup, vside,
- axis;
-
- float klength = 0.65f;
- m4x3_mulv( player.to_world, (v3f){ 0.15f,0.0f,-klength}, contact_norm );
- m4x3_mulv( player.to_world, (v3f){-0.15f,0.0f,-klength}, contact_front );
- m4x3_mulv( player.to_world, (v3f){ 0.00f,0.0f, klength}, contact_back );
- m3x3_mulv( player.to_world, (v3f){ 0.0f, 1.0f, 0.0f}, vup );
- m3x3_mulv( player.to_world, (v3f){ 1.0f, 0.0f, 0.0f}, vside );
-
- v3f cn0, cn1, cn2;
-
- int contact_count =
- sample_if_resistant( contact_front ) +
- sample_if_resistant( contact_back ) +
- sample_if_resistant( contact_norm );
-
- if( contact_count < 3 )
- {
- player_start_air();
- return;
- }
-
- v3f norm;
- v3f v0, v1;
- v3_sub( contact_norm, contact_front, v0 );
- v3_sub( contact_back, contact_front, v1 );
- v3_cross( v1, v0, norm );
- v3_normalize( norm );
-
- vg_line( contact_norm, contact_front, 0xff00ff00 );
- vg_line( contact_back, contact_front, 0xff0000ff );
-
- /* Surface alignment */
- float angle = v3_dot( vup, norm );
- v3_cross( vup, norm, axis );
-
- if( angle < 0.999f )
- {
- v4f correction;
- q_axis_angle( correction, axis, acosf(angle) );
- q_mul( correction, player.rot, player.rot );
- }
-
- float resistance = v3_dot( norm, player.v );
- if( resistance >= 0.0f )
- {
- player_start_air();
- return;
- }
- else
- {
- v3_muladds( player.v, norm, -resistance, player.v );
- }
-
- /* This is where velocity integration used to be */
-
- float slip = 0.0f;
-
- player.co[1] = (contact_front[1]+contact_back[1])*0.5f;
-
- v3f vel;
- m3x3_mulv( player.to_local, player.v, vel );
-
- /* Calculate local forces */
-
- if( fabsf(vel[2]) > 0.01f )
- slip = fabsf(-vel[0] / vel[2]) * vg_signf(vel[0]);
-
- if( fabsf( slip ) > 1.2f )
- slip = vg_signf( slip ) * 1.2f;
- player.slip = slip;
- player.reverse = -vg_signf(vel[2]);
-
- float substep = ktimestep * 0.2f;
- float fwd_resistance = (vg_get_button( "break" )? 5.0f: 0.02f) * -substep;
-
- for( int i=0; i<5; i++ )
- {
- vel[2] = stable_force( vel[2], vg_signf( vel[2] ) * fwd_resistance );
- vel[0] = stable_force( vel[0], vg_signf( vel[0] ) * -7.0f *substep );
- }
-
- static double start_push = 0.0;
- if( vg_get_button_down( "push" ) )
- start_push = vg_time;
-
- if( !vg_get_button("break") && vg_get_button( "push" ) )
- {
- float const k_maxpush = 16.0f,
- k_pushaccel = 5.0f;
-
- float cycle_time = vg_time-start_push,
- amt = k_pushaccel * (sinf( cycle_time * 8.0f )*0.5f+0.5f)*ktimestep,
- current = v3_length( vel ),
- new_vel = vg_minf( current + amt, k_maxpush );
- new_vel -= vg_minf(current, k_maxpush);
- vel[2] -= new_vel * player.reverse;
- }
-
- m3x3_mulv( player.to_world, vel, player.v );
-
- if( vg_get_button( "yawl" ) )
- player.iY += 3.6f * ktimestep;
- if( vg_get_button( "yawr" ) )
- player.iY -= 3.6f * ktimestep;
-
- float steer = vg_get_axis( "horizontal" );
- player.iY -= vg_signf(steer)*powf(steer,2.0f) * 1.5f * ktimestep;
-
- /* Too much lean and it starts to look like a snowboard here */
- v2_lerp( player.board_xy, (v2f){ slip*0.25f, 0.0f },
- ktimestep*5.0f, player.board_xy);
-}
-
-static void draw_cross(v3f pos,u32 colour, float scale)
-{
- v3f p0, p1;
- v3_add( (v3f){ scale,0.0f,0.0f}, pos, p0 );
- v3_add( (v3f){-scale,0.0f,0.0f}, pos, p1 );
- vg_line( p0, p1, colour );
- v3_add( (v3f){0.0f, scale,0.0f}, pos, p0 );
- v3_add( (v3f){0.0f,-scale,0.0f}, pos, p1 );
- vg_line( p0, p1, colour );
- v3_add( (v3f){0.0f,0.0f, scale}, pos, p0 );
- v3_add( (v3f){0.0f,0.0f,-scale}, pos, p1 );
- vg_line( p0, p1, colour );
-}
-
-static void player_physics_air(void)
-{
- m3x3_mulv( player.vr, player.v, player.v );
- for( int i=0; i<player.land_log_count; i++ )
- draw_cross( player.land_target_log[i], player.land_target_colours[i], 1);
-
- draw_cross( player.land_target, 0xff0000ff, 1 );
-
- v3f ground_pos;
- v3_copy( player.co, ground_pos );
- ground_pos[1] += 4.0f;
-
- ray_hit hit;
- hit.dist = INFINITY;
- if( ray_world( ground_pos, (v3f){0.0f,-1.0f,0.0f}, &hit ))
- {
- if( hit.pos[1] > player.co[1] )
- {
- player.in_air = 0;
-
- if( !ray_hit_is_ramp( &hit ) )
- {
- player.is_dead = 1;
- character_ragdoll_copypose( &player.mdl, player.v );
- }
-
- return;
- }
- }
-
- /* Prediction
- */
- float pstep = ktimestep*10.0f;
-
- v3f pco, pco1, pv;
- v3_copy( player.co, pco );
- v3_copy( player.v, pv );
-
- float time_to_impact = 0.0f;
- float limiter = 1.0f;
-
- for( int i=0; i<50; i++ )
- {
- v3_copy( pco, pco1 );
- apply_gravity( pv, pstep );
- v3_muladds( pco, pv, pstep, pco );
-
- //vg_line( pco, pco1, i&0x1?0xff000000:0xffffffff );
-
- ray_hit contact;
- v3f vdir;
-
- v3_sub( pco, pco1, vdir );
- contact.dist = v3_length( vdir );
- v3_divs( vdir, contact.dist, vdir);
-
- float orig_dist = contact.dist;
- if( ray_world( pco1, vdir, &contact ))
- {
- v3f localup;
- m3x3_mulv( player.to_world, (v3f){0.0f,1.0f,0.0f}, localup );
-
- float angle = v3_dot( localup, contact.normal );
- v3f axis;
- v3_cross( localup, contact.normal, axis );
-
- time_to_impact += (contact.dist/orig_dist)*pstep;
- limiter = vg_minf( 5.0f, time_to_impact )/5.0f;
- limiter = 1.0f-limiter;
- limiter *= limiter;
- limiter = 1.0f-limiter;
-
- if( angle < 0.99f )
- {
- v4f correction;
- q_axis_angle( correction, axis, acosf(angle)*0.05f*(1.0f-limiter) );
- q_mul( correction, player.rot, player.rot );
- }
-
- draw_cross( contact.pos, 0xffff0000, 1 );
- break;
- }
- time_to_impact += pstep;
- }
-
- player.iY -= vg_get_axis( "horizontal" ) * 3.6f * ktimestep;
- {
-
- float iX = vg_get_axis( "vertical" ) * 3.6f * limiter * ktimestep;
- static float siX = 0.0f;
- siX = vg_lerpf( siX, iX, 0.3f );
-
- v4f rotate;
- v3f vside;
-
- m3x3_mulv( player.to_world, (v3f){1.0f,0.0f,0.0f}, vside );
-
- q_axis_angle( rotate, vside, siX );
- q_mul( rotate, player.rot, player.rot );
- }
-
- v2f target = {0.0f,0.0f};
- v2_muladds( target, (v2f){ vg_get_axis("h1"), vg_get_axis("v1") },
- player.grab, target );
- v2_lerp( player.board_xy, target, ktimestep*3.0f, player.board_xy );
-}
-
-static void player_do_motion(void)
-{
- float horizontal = vg_get_axis("horizontal"),
- vertical = vg_get_axis("vertical");
-
- player.joy_l[0] = vg_signf(horizontal) * powf( horizontal, 2.0f );
- player.joy_l[1] = vg_signf(vertical) * powf( vertical, 2.0f );
-
- if( player.in_air )
- player_physics_air();
-
- if( !player.in_air )
- player_physics_ground();
-
- /* Integrate velocity */
- v3f prevco;
- v3_copy( player.co, prevco );
-
- apply_gravity( player.v, ktimestep );
- v3_muladds( player.co, player.v, ktimestep, player.co );
-
- /* Integrate inertia */
- v4f rotate; v3f vup = {0.0f,1.0f,0.0f};
- m3x3_mulv( player.to_world, vup, vup );
-
- static float siY = 0.0f;
-
- float lerpq = player.in_air? 0.04f: 0.3f;
- siY = vg_lerpf( siY, player.iY, lerpq );
-
- q_axis_angle( rotate, vup, siY );
- q_mul( rotate, player.rot, player.rot );
-
- player.iY = 0.0f; /* temp */
-
-#if 0
- /* GATE COLLISION */
- if( gate_intersect( &gate_a, player.co, prevco ) )
- {
- teleport_gate *gate = &gate_a;
-
- m4x3f transport;
- m4x3_mul( gate->other->to_world, gate->to_local, transport );
- m4x3_mulv( transport, player.co, player.co );
- m3x3_mulv( transport, player.v, player.v );
- m3x3_mulv( transport, player.v_last, player.v_last );
- m3x3_mulv( transport, player.m, player.m );
- m3x3_mulv( transport, player.bob, player.bob );
-
- v4f transport_rotation;
- m3x3_q( transport, transport_rotation );
- q_mul( transport_rotation, player.rot, player.rot );
- }
-#endif
-
- /* Camera and character */
- player_transform_update();
-
- player.angles[0] = atan2f( player.v[0], -player.v[2] );
- player.angles[1] = atan2f( -player.v[1], sqrtf(player.v[0]*player.v[0]+
- player.v[2]*player.v[2]) ) * 0.3f;
-
- player.air_blend = vg_lerpf( player.air_blend, player.in_air, 0.04f );
- v3_muladds( player.camera_pos, player.v, -0.05f*player.air_blend,
- player.camera_pos );
-}
-
-static int player_walkgrid_tri_walkable( u32 tri[3] )
-{
- return tri[0] < world.sm_road.vertex_count;
-}
-
-#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];
-
-#if 0
- u32 geo[256];
-#endif
-
- 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;