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update helpers/location to 'frosted' ui
[carveJwlIkooP6JGAAIwe30JlM.git] / player_common.c
1 #include "ent_skateshop.h"
2 #include "player.h"
3 #include "input.h"
4 #include "menu.h"
5 #include "vg/vg_perlin.h"
6
7 float player_get_heading_yaw(void)
8 {
9 v3f xz;
10 q_mulv( localplayer.rb.q, (v3f){ 0.0f,0.0f,1.0f }, xz );
11 return atan2f( xz[0], xz[2] );
12 }
13
14 static void player_camera_portal_correction(void)
15 {
16 if( localplayer.gate_waiting ){
17 /* construct plane equation for reciever gate */
18 v4f plane;
19 q_mulv( localplayer.gate_waiting->q[1], (v3f){0.0f,0.0f,1.0f}, plane );
20 plane[3] = v3_dot( plane, localplayer.gate_waiting->co[1] );
21
22 f32 pol = v3_dot( localplayer.cam.pos, plane ) - plane[3];
23
24 int cleared = (pol < 0.0f) || (pol > 5.0f);
25
26 if( cleared ){
27 vg_success( "Plane cleared\n" );
28 }
29
30 m4x3f inverse;
31 m4x3_invert_affine( localplayer.gate_waiting->transport, inverse );
32
33 /* de-transform camera and player back */
34 v3f v0;
35 m4x3_mulv( inverse, localplayer.cam.pos, localplayer.cam.pos );
36 v3_angles_vector( localplayer.cam.angles, v0 );
37 m3x3_mulv( inverse, v0, v0 );
38 v3_angles( v0, localplayer.cam.angles );
39
40 skeleton_apply_transform( &localplayer.skeleton, inverse,
41 localplayer.final_mtx );
42
43 /* record and re-put things again */
44 if( cleared )
45 {
46 skaterift_record_frame( &player_replay.local, 1 );
47 localplayer.deferred_frame_record = 1;
48
49 skeleton_apply_transform( &localplayer.skeleton,
50 localplayer.gate_waiting->transport,
51 localplayer.final_mtx );
52
53 m4x3_mulv( localplayer.gate_waiting->transport,
54 localplayer.cam.pos, localplayer.cam.pos );
55 v3_angles_vector( localplayer.cam.angles, v0 );
56 m3x3_mulv( localplayer.gate_waiting->transport, v0, v0 );
57 v3_angles( v0, localplayer.cam.angles );
58 player_apply_transport_to_cam( localplayer.gate_waiting->transport );
59 localplayer.gate_waiting = NULL;
60 }
61 }
62 }
63
64 void player__cam_iterate(void)
65 {
66 struct player_cam_controller *cc = &localplayer.cam_control;
67
68 if( localplayer.subsystem == k_player_subsystem_walk ){
69 v3_copy( (v3f){-0.1f,1.8f,0.0f}, cc->fpv_viewpoint );
70 v3_copy( (v3f){0.0f,0.0f,0.0f}, cc->fpv_offset );
71 v3_copy( (v3f){0.0f,1.8f,0.0f}, cc->tpv_offset );
72 }
73 else if( localplayer.subsystem == k_player_subsystem_glide ){
74 v3_copy( (v3f){-0.15f,1.75f,0.0f}, cc->fpv_viewpoint );
75 v3_copy( (v3f){0.0f,0.0f,0.0f}, cc->fpv_offset );
76 v3_copy( (v3f){0.0f,-1.0f,0.0f}, cc->tpv_offset );
77 v3_add( cc->tpv_offset_extra, cc->tpv_offset, cc->tpv_offset );
78 }
79 else{
80 v3_copy( (v3f){-0.15f,1.75f,0.0f}, cc->fpv_viewpoint );
81 v3_copy( (v3f){0.0f,0.0f,0.0f}, cc->fpv_offset );
82
83 f32 h = vg_lerpf( 0.4f, 1.4f, k_cam_height );
84 v3_copy( (v3f){0.0f,h,0.0f}, cc->tpv_offset );
85 v3_add( cc->tpv_offset_extra, cc->tpv_offset, cc->tpv_offset );
86 }
87
88 localplayer.cam_velocity_constant = 0.25f;
89 localplayer.cam_velocity_coefficient = 0.7f;
90
91 /* lerping */
92
93 if( localplayer.cam_dist_smooth == 0.0f ){
94 localplayer.cam_dist_smooth = localplayer.cam_dist;
95 }
96 else {
97 localplayer.cam_dist_smooth = vg_lerpf(
98 localplayer.cam_dist_smooth,
99 localplayer.cam_dist,
100 vg.time_frame_delta * 8.0f );
101 }
102
103 localplayer.cam_velocity_influence_smooth = vg_lerpf(
104 localplayer.cam_velocity_influence_smooth,
105 localplayer.cam_velocity_influence,
106 vg.time_frame_delta * 8.0f );
107
108 localplayer.cam_velocity_coefficient_smooth = vg_lerpf(
109 localplayer.cam_velocity_coefficient_smooth,
110 localplayer.cam_velocity_coefficient,
111 vg.time_frame_delta * 8.0f );
112
113 localplayer.cam_velocity_constant_smooth = vg_lerpf(
114 localplayer.cam_velocity_constant_smooth,
115 localplayer.cam_velocity_constant,
116 vg.time_frame_delta * 8.0f );
117
118 enum camera_mode target_mode = cc->camera_mode;
119
120 if( localplayer.subsystem == k_player_subsystem_dead )
121 target_mode = k_cam_thirdperson;
122
123 cc->camera_type_blend =
124 vg_lerpf( cc->camera_type_blend,
125 (target_mode == k_cam_firstperson)? 1.0f: 0.0f,
126 5.0f * vg.time_frame_delta );
127
128 v3_lerp( cc->fpv_viewpoint_smooth, cc->fpv_viewpoint,
129 vg.time_frame_delta * 8.0f, cc->fpv_viewpoint_smooth );
130
131 v3_lerp( cc->fpv_offset_smooth, cc->fpv_offset,
132 vg.time_frame_delta * 8.0f, cc->fpv_offset_smooth );
133
134 v3_lerp( cc->tpv_offset_smooth, cc->tpv_offset,
135 vg.time_frame_delta * 8.0f, cc->tpv_offset_smooth );
136
137 /* fov -- simple blend */
138 float fov_skate = vg_lerpf( 97.0f, 135.0f, k_fov ),
139 fov_walk = vg_lerpf( 90.0f, 110.0f, k_fov );
140
141 localplayer.cam.fov = vg_lerpf( fov_walk, fov_skate, cc->camera_type_blend );
142
143 /*
144 * first person camera
145 */
146
147 /* position */
148 v3f fpv_pos, fpv_offset;
149 m4x3_mulv( localplayer.final_mtx[ localplayer.id_head-1 ],
150 cc->fpv_viewpoint_smooth, fpv_pos );
151 m3x3_mulv( localplayer.rb.to_world, cc->fpv_offset_smooth, fpv_offset );
152 v3_add( fpv_offset, fpv_pos, fpv_pos );
153
154 /* angles */
155 v3f velocity_angles;
156 v3_lerp( cc->cam_velocity_smooth, localplayer.rb.v, 4.0f*vg.time_frame_delta,
157 cc->cam_velocity_smooth );
158
159 v3_angles( cc->cam_velocity_smooth, velocity_angles );
160 velocity_angles[1] *= localplayer.cam_velocity_coefficient_smooth;
161 velocity_angles[1] += localplayer.cam_velocity_constant_smooth;
162
163 float inf_fpv = localplayer.cam_velocity_influence_smooth *
164 cc->camera_type_blend,
165 inf_tpv = localplayer.cam_velocity_influence_smooth *
166 (1.0f-cc->camera_type_blend);
167
168 vg_camera_lerp_angles( localplayer.angles, velocity_angles,
169 inf_fpv,
170 localplayer.angles );
171
172 /*
173 * Third person camera
174 */
175
176 /* no idea what this technique is called, it acts like clamped position based
177 * on some derivative of where the final camera would end up ....
178 *
179 * it is done in the local basis then transformed back */
180
181 v3f future;
182 v3_muls( localplayer.rb.v, 0.4f*vg.time_frame_delta, future );
183
184 v3f camera_follow_dir =
185 { -sinf( localplayer.angles[0] ) * cosf( localplayer.angles[1] ),
186 sinf( localplayer.angles[1] ),
187 cosf( localplayer.angles[0] ) * cosf( localplayer.angles[1] ) };
188
189 v3f v0;
190 v3_sub( camera_follow_dir, future, v0 );
191
192 v3f follow_angles;
193 v3_copy( localplayer.angles, follow_angles );
194 follow_angles[0] = atan2f( -v0[0], v0[2] );
195 follow_angles[1] = 0.3f + velocity_angles[1] * 0.2f;
196
197 float ya = atan2f( -cc->cam_velocity_smooth[1], 30.0f );
198
199 follow_angles[1] = 0.3f + ya;
200 vg_camera_lerp_angles( localplayer.angles, follow_angles,
201 inf_tpv,
202 localplayer.angles );
203
204 v3f pco;
205 v4f pq;
206 rb_extrapolate( &localplayer.rb, pco, pq );
207 v3_muladds( pco, localplayer.holdout_pose.root_co,
208 localplayer.holdout_time, pco );
209 v3_lerp( cc->tpv_lpf, pco, 20.0f*vg.time_frame_delta, cc->tpv_lpf );
210
211 /* now move into world */
212 v3f tpv_pos, tpv_offset, tpv_origin;
213
214 /* TODO: whats up with CC and not CC but both sets of variables are doing
215 * the same ideas just saved in different places?
216 */
217 /* origin */
218 q_mulv( pq, cc->tpv_offset_smooth, tpv_origin );
219 v3_add( tpv_origin, cc->tpv_lpf, tpv_origin );
220
221 /* offset */
222 v3_muls( camera_follow_dir, localplayer.cam_dist_smooth, tpv_offset );
223 v3_muladds( tpv_offset, cc->cam_velocity_smooth, -0.025f, tpv_offset );
224
225 v3_add( tpv_origin, tpv_offset, tpv_pos );
226
227 #if 0
228 if( localplayer.subsystem == k_player_subsystem_walk )
229 {
230 v3f fwd, right;
231 v3_angles_vector( localplayer.angles, fwd );
232 v3_cross( fwd, (v3f){0,1.001f,0}, right );
233 right[1] = 0.0f;
234 v3_normalize( right );
235 v3_muladds( tpv_pos, right, 0.5f, tpv_pos );
236 }
237 #endif
238
239 /*
240 * Blend cameras
241 */
242 v3_lerp( tpv_pos, fpv_pos, cc->camera_type_blend, localplayer.cam.pos );
243 v3_copy( localplayer.angles, localplayer.cam.angles );
244
245 /* Camera shake */
246 f32 speed = v3_length(localplayer.rb.v),
247 strength = k_cam_shake_strength * speed;
248 localplayer.cam_trackshake +=
249 speed*k_cam_shake_trackspeed*vg.time_frame_delta;
250
251 v2f rnd = {vg_perlin_fract_1d( localplayer.cam_trackshake, 1.0f, 4, 20 ),
252 vg_perlin_fract_1d( localplayer.cam_trackshake, 1.0f, 4, 63 ) };
253 v2_muladds( localplayer.cam.angles, rnd, strength, localplayer.cam.angles );
254
255 v3f Fd, Fs, F;
256 v3_muls( localplayer.cam_land_punch_v, -k_cam_damp, Fd );
257 v3_muls( localplayer.cam_land_punch, -k_cam_spring, Fs );
258 v3_muladds( localplayer.cam_land_punch, localplayer.cam_land_punch_v,
259 vg.time_frame_delta, localplayer.cam_land_punch );
260 v3_add( Fd, Fs, F );
261 v3_muladds( localplayer.cam_land_punch_v, F, vg.time_frame_delta,
262 localplayer.cam_land_punch_v );
263 v3_add( localplayer.cam_land_punch, localplayer.cam.pos,
264 localplayer.cam.pos );
265
266 /* portal transitions */
267 player_camera_portal_correction();
268 }
269
270 void player_look( v3f angles, float speed )
271 {
272 if( vg_ui.wants_mouse ) return;
273
274 angles[2] = 0.0f;
275
276 v2f mouse_input;
277 v2_copy( vg.mouse_delta, mouse_input );
278 if( k_invert_y ) mouse_input[1] *= -1.0f;
279 v2_muladds( angles, mouse_input, 0.0025f * speed, angles );
280
281 v2f jlook;
282 joystick_state( k_srjoystick_look, jlook );
283
284 angles[0] += jlook[0] * vg.time_frame_delta * 4.0f * speed;
285 float input_y = jlook[1] * vg.time_frame_delta * 4.0f;
286 if( k_invert_y ) input_y *= -1.0f;
287
288 angles[1] += input_y * speed;
289 angles[1] = vg_clampf( angles[1], -VG_PIf*0.5f, VG_PIf*0.5f );
290 }
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