3 #include <client/autocvars.qh>
4 #include <client/defs.qh>
5 #include <client/miscfunctions.qh>
6 #include <client/main.qh>
7 #include <lib/csqcmodel/cl_player.qh>
11 void HUD_Physics_Export(int fh)
13 // allow saving cvars that aesthetically change the panel into hud skin files
14 HUD_Write_Cvar("hud_panel_physics_speed_unit_show");
15 HUD_Write_Cvar("hud_panel_physics_speed_max");
16 HUD_Write_Cvar("hud_panel_physics_speed_vertical");
17 HUD_Write_Cvar("hud_panel_physics_topspeed");
18 HUD_Write_Cvar("hud_panel_physics_topspeed_time");
19 HUD_Write_Cvar("hud_panel_physics_acceleration_max");
20 HUD_Write_Cvar("hud_panel_physics_acceleration_vertical");
21 HUD_Write_Cvar("hud_panel_physics_flip");
22 HUD_Write_Cvar("hud_panel_physics_baralign");
23 HUD_Write_Cvar("hud_panel_physics_progressbar");
24 HUD_Write_Cvar("hud_panel_physics_acceleration_progressbar_mode");
25 HUD_Write_Cvar("hud_panel_physics_acceleration_progressbar_scale");
26 HUD_Write_Cvar("hud_panel_physics_acceleration_progressbar_nonlinear");
27 HUD_Write_Cvar("hud_panel_physics_text");
28 HUD_Write_Cvar("hud_panel_physics_text_scale");
32 float acc_prevtime, acc_avg, top_speed, top_speed_time;
33 float physics_update_time, discrete_speed, discrete_acceleration;
36 if(!autocvar__hud_configure)
38 if(!autocvar_hud_panel_physics) return;
39 if(spectatee_status == -1 && (autocvar_hud_panel_physics == 1 || autocvar_hud_panel_physics == 3)) return;
40 if(autocvar_hud_panel_physics == 3 && !MUTATOR_CALLHOOK(HUD_Physics_showoptional)) return;
43 HUD_Panel_LoadCvars();
47 if (autocvar_hud_panel_physics_dynamichud)
54 panel_pos += '1 1 0' * panel_bg_padding;
55 panel_size -= '2 2 0' * panel_bg_padding;
58 float acceleration_progressbar_scale = 0;
59 if(autocvar_hud_panel_physics_progressbar && autocvar_hud_panel_physics_acceleration_progressbar_scale > 1)
60 acceleration_progressbar_scale = autocvar_hud_panel_physics_acceleration_progressbar_scale;
63 if (autocvar_hud_panel_physics_text_scale <= 0)
66 text_scale = min(autocvar_hud_panel_physics_text_scale, 1);
69 float speed, conversion_factor = GetSpeedUnitFactor(autocvar_hud_panel_physics_speed_unit);
70 string unit = GetSpeedUnit(autocvar_hud_panel_physics_speed_unit);
71 vector vel = (csqcplayer ? csqcplayer.velocity : pmove_vel);
73 float max_speed = floor( autocvar_hud_panel_physics_speed_max * conversion_factor + 0.5 );
74 if (autocvar__hud_configure)
75 speed = floor( max_speed * 0.65 + 0.5 );
76 else if(autocvar_hud_panel_physics_speed_vertical)
77 speed = floor( vlen(vel) * conversion_factor + 0.5 );
79 speed = floor( vlen(vel - vel.z * '0 0 1') * conversion_factor + 0.5 );
81 //compute acceleration
82 float acceleration, f;
83 if (autocvar__hud_configure)
84 acceleration = autocvar_hud_panel_physics_acceleration_max * 0.3;
87 // 1 m/s = 0.0254 qu/s; 1 g = 9.80665 m/s^2
88 f = time - acc_prevtime;
89 if(autocvar_hud_panel_physics_acceleration_vertical)
90 acceleration = (vlen(vel) - vlen(acc_prevspeed));
92 acceleration = (vlen(vel - '0 0 1' * vel.z) - vlen(acc_prevspeed - '0 0 1' * acc_prevspeed.z));
94 acceleration = acceleration * (1 / max(0.0001, f)) * (0.0254 / 9.80665);
99 if(autocvar_hud_panel_physics_acceleration_movingaverage)
101 f = bound(0, f * 10, 1);
102 acc_avg = acc_avg * (1 - f) + acceleration * f;
103 acceleration = acc_avg;
107 const int acc_decimals = 2;
108 if(time > physics_update_time)
110 discrete_acceleration = acceleration;
111 // workaround for ftos_decimals returning a negative 0
112 if(discrete_acceleration > -1 / (10 ** acc_decimals) && discrete_acceleration < 0)
113 discrete_acceleration = 0;
114 discrete_speed = speed;
115 physics_update_time += autocvar_hud_panel_physics_update_interval;
116 if(physics_update_time < time)
117 physics_update_time = time + autocvar_hud_panel_physics_update_interval;
121 float panel_ar = panel_size.x/panel_size.y;
122 vector speed_offset = '0 0 0', acceleration_offset = '0 0 0';
123 if (panel_ar >= 5 && !acceleration_progressbar_scale)
126 if (autocvar_hud_panel_physics_flip)
127 speed_offset.x = panel_size.x;
129 acceleration_offset.x = panel_size.x;
134 if (autocvar_hud_panel_physics_flip)
135 speed_offset.y = panel_size.y;
137 acceleration_offset.y = panel_size.y;
139 int speed_baralign, acceleration_baralign;
140 if (autocvar_hud_panel_physics_baralign == 1)
141 acceleration_baralign = speed_baralign = 1;
142 else if(autocvar_hud_panel_physics_baralign == 4)
143 acceleration_baralign = speed_baralign = 2;
144 else if (autocvar_hud_panel_physics_flip)
146 acceleration_baralign = (autocvar_hud_panel_physics_baralign == 2);
147 speed_baralign = (autocvar_hud_panel_physics_baralign == 3);
151 speed_baralign = (autocvar_hud_panel_physics_baralign == 2);
152 acceleration_baralign = (autocvar_hud_panel_physics_baralign == 3);
154 if (autocvar_hud_panel_physics_acceleration_progressbar_mode == 0)
155 acceleration_baralign = 3; //override hud_panel_physics_baralign value for acceleration
159 if(autocvar_hud_panel_physics_progressbar == 1 || autocvar_hud_panel_physics_progressbar == 2)
160 HUD_Panel_DrawProgressBar(panel_pos + speed_offset, panel_size, "progressbar", speed/max_speed, 0, speed_baralign, autocvar_hud_progressbar_speed_color, autocvar_hud_progressbar_alpha * panel_fg_alpha, DRAWFLAG_NORMAL);
161 vector tmp_offset = '0 0 0', tmp_size = '0 0 0';
162 if (autocvar_hud_panel_physics_text == 1 || autocvar_hud_panel_physics_text == 2)
164 tmp_size.x = panel_size.x * 0.75;
165 tmp_size.y = panel_size.y * text_scale;
167 tmp_offset.x = panel_size.x - tmp_size.x;
170 tmp_offset.y = (panel_size.y - tmp_size.y) / 2;
171 drawstring_aspect(panel_pos + speed_offset + tmp_offset, ftos(discrete_speed), tmp_size, '1 1 1', panel_fg_alpha, DRAWFLAG_NORMAL);
177 tmp_offset.x = tmp_size.x;
178 if (autocvar_hud_panel_physics_speed_unit_show)
181 tmp_size.x = panel_size.x * (1 - 0.75);
182 tmp_size.y = panel_size.y * 0.4 * text_scale;
183 tmp_offset.y = (panel_size.y * 0.4 - tmp_size.y) / 2;
184 drawstring_aspect(panel_pos + speed_offset + tmp_offset, unit, tmp_size, '1 1 1', panel_fg_alpha, DRAWFLAG_NORMAL);
188 //compute and draw top speed
189 if (autocvar_hud_panel_physics_topspeed)
190 if (autocvar_hud_panel_physics_text == 1 || autocvar_hud_panel_physics_text == 2)
192 if (autocvar__hud_configure)
194 top_speed = floor( max_speed * 0.75 + 0.5 );
199 if (speed >= top_speed)
202 top_speed_time = time;
206 f = max(1, autocvar_hud_panel_physics_topspeed_time);
207 // divide by f to make it start from 1
208 f = cos( ((time - top_speed_time) / f) * PI/2 );
210 else //hide top speed 0, it would be stupid
215 //top speed progressbar peak
216 if(speed < top_speed)
217 if(autocvar_hud_panel_physics_progressbar == 1 || autocvar_hud_panel_physics_progressbar == 2)
220 vector peak_size = '0 0 0';
221 if (speed_baralign == 0)
222 peak_offsetX = min(top_speed, max_speed)/max_speed * panel_size.x;
223 else if (speed_baralign == 1)
224 peak_offsetX = (1 - min(top_speed, max_speed)/max_speed) * panel_size.x;
225 else // if (speed_baralign == 2)
226 peak_offsetX = min(top_speed, max_speed)/max_speed * panel_size.x * 0.5;
227 peak_size.x = floor(panel_size.x * 0.01 + 1.5);
228 peak_size.y = panel_size.y;
229 if (speed_baralign == 2) // draw two peaks, on both sides
231 drawfill(panel_pos + speed_offset + eX * (0.5 * panel_size.x + peak_offsetX - peak_size.x), peak_size, autocvar_hud_progressbar_speed_color, f * autocvar_hud_progressbar_alpha * panel_fg_alpha, DRAWFLAG_NORMAL);
232 drawfill(panel_pos + speed_offset + eX * (0.5 * panel_size.x - peak_offsetX + peak_size.x), peak_size, autocvar_hud_progressbar_speed_color, f * autocvar_hud_progressbar_alpha * panel_fg_alpha, DRAWFLAG_NORMAL);
235 drawfill(panel_pos + speed_offset + eX * (peak_offsetX - peak_size.x), peak_size, autocvar_hud_progressbar_speed_color, f * autocvar_hud_progressbar_alpha * panel_fg_alpha, DRAWFLAG_NORMAL);
239 tmp_offset.y = panel_size.y * 0.4;
240 tmp_size.x = panel_size.x * (1 - 0.75);
241 tmp_size.y = (panel_size.y - tmp_offset.y) * text_scale;
242 tmp_offset.y += (panel_size.y - tmp_offset.y - tmp_size.y) / 2;
243 drawstring_aspect(panel_pos + speed_offset + tmp_offset, ftos(top_speed), tmp_size, '1 0 0', f * panel_fg_alpha, DRAWFLAG_NORMAL);
251 if(autocvar_hud_panel_physics_progressbar == 1 || autocvar_hud_panel_physics_progressbar == 3)
253 vector progressbar_color;
255 progressbar_color = autocvar_hud_progressbar_acceleration_neg_color;
257 progressbar_color = autocvar_hud_progressbar_acceleration_color;
259 f = acceleration/autocvar_hud_panel_physics_acceleration_max;
260 if (autocvar_hud_panel_physics_acceleration_progressbar_nonlinear)
261 f = (f >= 0 ? sqrt(f) : -sqrt(-f));
263 if (acceleration_progressbar_scale) // allow progressbar to go out of panel bounds
265 tmp_size = acceleration_progressbar_scale * panel_size.x * eX + panel_size.y * eY;
267 if (acceleration_baralign == 1)
268 tmp_offset.x = panel_size.x - tmp_size.x;
269 else if (acceleration_baralign == 2 || acceleration_baralign == 3)
270 tmp_offset.x = (panel_size.x - tmp_size.x) / 2;
277 tmp_size = panel_size;
278 tmp_offset = '0 0 0';
281 HUD_Panel_DrawProgressBar(panel_pos + acceleration_offset + tmp_offset, tmp_size, "accelbar", f, 0, acceleration_baralign, progressbar_color, autocvar_hud_progressbar_alpha * panel_fg_alpha, DRAWFLAG_NORMAL);
284 if(autocvar_hud_panel_physics_text == 1 || autocvar_hud_panel_physics_text == 3)
286 tmp_size.x = panel_size.x;
287 tmp_size.y = panel_size.y * text_scale;
289 tmp_offset.y = (panel_size.y - tmp_size.y) / 2;
291 drawstring_aspect(panel_pos + acceleration_offset + tmp_offset, strcat(ftos_decimals(discrete_acceleration, acc_decimals), "g"), tmp_size, '1 1 1', panel_fg_alpha, DRAWFLAG_NORMAL);