makevectors(view_angles);
- if(autocvar_cl_velocityzoom && autocvar_cl_velocityzoom_type) // _type = 0 disables velocity zoom too
+ if(autocvar_cl_velocityzoom_enabled && autocvar_cl_velocityzoom_type && autocvar_cl_velocityzoom_factor) // _type = 0 disables velocity zoom too
{
if(intermission) { curspeed = 0; }
else
velocityzoom = bound(0, drawframetime / max(0.000000001, autocvar_cl_velocityzoom_time), 1); // speed at which the zoom adapts to player velocity
avgspeed = avgspeed * (1 - velocityzoom) + (curspeed / autocvar_cl_velocityzoom_speed) * velocityzoom;
- velocityzoom = exp(float2range11(avgspeed * -autocvar_cl_velocityzoom / 1) * 1);
+ velocityzoom = exp(float2range11(avgspeed * -autocvar_cl_velocityzoom_factor / 1) * 1);
//print(ftos(avgspeed), " avgspeed, ", ftos(curspeed), " curspeed, ", ftos(velocityzoom), " return\n"); // for debugging
}
return '1 0 0' * fovx + '0 1 0' * fovy;
}
+vector GetOrthoviewFOV(vector ov_worldmin, vector ov_worldmax, vector ov_mid, vector ov_org)
+{
+ float fovx, fovy;
+ float width = (ov_worldmax_x - ov_worldmin_x);
+ float height = (ov_worldmax_y - ov_worldmin_y);
+ float distance_to_middle_of_world = vlen(ov_mid - ov_org);
+ fovx = atan2(width/2, distance_to_middle_of_world) / M_PI * 360.0;
+ fovy = atan2(height/2, distance_to_middle_of_world) / M_PI * 360.0;
+ return '1 0 0' * fovx + '0 1 0' * fovy;
+}
+
// this function must match W_SetupShot!
float zoomscript_caught;
break;
}
+ vector traceorigin = getplayerorigin(player_localentnum-1) + (eZ * getstati(STAT_VIEWHEIGHT));
+
vecs = decompressShotOrigin(getstati(STAT_SHOTORG));
- traceline(view_origin, view_origin + view_forward * MAX_SHOT_DISTANCE, mv, ta);
+ traceline(traceorigin, traceorigin + view_forward * MAX_SHOT_DISTANCE, mv, ta);
trueaimpoint = trace_endpos;
- if(vlen(trueaimpoint - view_origin) < g_trueaim_minrange)
- trueaimpoint = view_origin + view_forward * g_trueaim_minrange;
+ if(vlen(trueaimpoint - traceorigin) < g_trueaim_minrange)
+ trueaimpoint = traceorigin + view_forward * g_trueaim_minrange;
if(vecs_x > 0)
vecs_y = -vecs_y;
vecs = '0 0 0';
dv = view_right * vecs_y + view_up * vecs_z;
- w_shotorg = view_origin + dv;
+ w_shotorg = traceorigin + dv;
// now move the vecs forward as much as requested if possible
tracebox(w_shotorg, mi, ma, w_shotorg + view_forward * (vecs_x + nudge), MOVE_NORMAL, ta); // FIXME this MOVE_NORMAL part will misbehave a little in csqc
// event chase camera
if(autocvar_chase_active <= 0) // greater than 0 means it's enabled manually, and this code is skipped
{
- if((spectatee_status >= 0 && (autocvar_cl_eventchase_death && is_dead)) || intermission)
+ if(((spectatee_status >= 0 && (autocvar_cl_eventchase_death && is_dead)) || intermission) && !autocvar_cl_orthoview)
{
// make special vector since we can't use view_origin (It is one frame old as of this code, it gets set later with the results this code makes.)
vector current_view_origin = (csqcplayer ? csqcplayer.origin : pmove_org);
WarpZone_FixView();
//WarpZone_FixPMove();
+ vector ov_org = '0 0 0';
+ vector ov_mid = '0 0 0';
+ vector ov_worldmin = '0 0 0';
+ vector ov_worldmax = '0 0 0';
+ if(autocvar_cl_orthoview)
+ {
+ ov_worldmin = mi_picmin;
+ ov_worldmax = mi_picmax;
+
+ float ov_width = (ov_worldmax_x - ov_worldmin_x);
+ float ov_height = (ov_worldmax_y - ov_worldmin_y);
+ float ov_distance = (max(vid_width, vid_height) * max(ov_width, ov_height));
+
+ ov_mid = ((ov_worldmax + ov_worldmin) * 0.5);
+ ov_org = vec3(ov_mid_x, ov_mid_y, (ov_mid_z + ov_distance));
+
+ float ov_nearest = vlen(ov_org - vec3(
+ bound(ov_worldmin_x, ov_org_x, ov_worldmax_x),
+ bound(ov_worldmin_y, ov_org_y, ov_worldmax_y),
+ bound(ov_worldmin_z, ov_org_z, ov_worldmax_z)
+ ));
+
+ float ov_furthest = 0;
+ float dist = 0;
+
+ if((dist = vlen(vec3(ov_worldmin_x, ov_worldmin_y, ov_worldmin_z) - ov_org)) > ov_furthest) { ov_furthest = dist; }
+ if((dist = vlen(vec3(ov_worldmax_x, ov_worldmin_y, ov_worldmin_z) - ov_org)) > ov_furthest) { ov_furthest = dist; }
+ if((dist = vlen(vec3(ov_worldmin_x, ov_worldmax_y, ov_worldmin_z) - ov_org)) > ov_furthest) { ov_furthest = dist; }
+ if((dist = vlen(vec3(ov_worldmin_x, ov_worldmin_y, ov_worldmax_z) - ov_org)) > ov_furthest) { ov_furthest = dist; }
+ if((dist = vlen(vec3(ov_worldmax_x, ov_worldmax_y, ov_worldmin_z) - ov_org)) > ov_furthest) { ov_furthest = dist; }
+ if((dist = vlen(vec3(ov_worldmin_x, ov_worldmax_y, ov_worldmax_z) - ov_org)) > ov_furthest) { ov_furthest = dist; }
+ if((dist = vlen(vec3(ov_worldmax_x, ov_worldmin_y, ov_worldmax_z) - ov_org)) > ov_furthest) { ov_furthest = dist; }
+ if((dist = vlen(vec3(ov_worldmax_x, ov_worldmax_y, ov_worldmax_z) - ov_org)) > ov_furthest) { ov_furthest = dist; }
+
+ cvar_settemp("r_nearclip", ftos(ov_nearest));
+ cvar_settemp("r_farclip_base", ftos(ov_furthest));
+ cvar_settemp("r_farclip_world", "0");
+ cvar_settemp("r_novis", "1");
+ cvar_settemp("r_useportalculling", "0");
+ cvar_settemp("r_useinfinitefarclip", "0");
+
+ setproperty(VF_ORIGIN, ov_org);
+ setproperty(VF_ANGLES, '90 0 0');
+
+ #if 0
+ printf("OrthoView: org = %s, angles = %s, distance = %f, nearest = %f, furthest = %f\n",
+ vtos(ov_org),
+ vtos(getpropertyvec(VF_ANGLES)),
+ ov_distance,
+ ov_nearest,
+ ov_furthest);
+ #endif
+ }
+
// Render the Scene
view_origin = getpropertyvec(VF_ORIGIN);
view_angles = getpropertyvec(VF_ANGLES);
vid_conheight = autocvar_vid_conheight;
vid_pixelheight = autocvar_vid_pixelheight;
- setproperty(VF_FOV, GetCurrentFov(fov));
+ if(autocvar_cl_orthoview) { setproperty(VF_FOV, GetOrthoviewFOV(ov_worldmin, ov_worldmax, ov_mid, ov_org)); }
+ else { setproperty(VF_FOV, GetCurrentFov(fov)); }
// Camera for demo playback
if(camera_active)
// wcross_origin = '0.5 0 0' * vid_conwidth + '0 0.5 0' * vid_conheight;
wcross_origin = project_3d_to_2d(view_origin + MAX_SHOT_DISTANCE * view_forward);
wcross_origin_z = 0;
- if(autocvar_crosshair_hittest)
+
+ if(
+ autocvar_crosshair_hittest
+ &&
+ (
+ autocvar_crosshair_hittest_blur
+ ||
+ autocvar_crosshair_hittest_scale
+ ||
+ autocvar_crosshair_hittest_showimpact
+ )
+ )
{
vector wcross_oldorigin;
wcross_oldorigin = wcross_origin;
if(!autocvar_crosshair_hittest_showimpact)
wcross_origin = wcross_oldorigin;
}
- else
- shottype = SHOTTYPE_HITWORLD;
+ else { shottype = SHOTTYPE_HITWORLD; }
vector wcross_color = '0 0 0', wcross_size = '0 0 0';
string wcross_wep = "", wcross_name;
}
}
- //print(sprintf("crosshair style: %s\n", wcross_style));
+ //printf("crosshair style: %s\n", wcross_style);
wcross_name = strcat("gfx/crosshair", wcross_style);
// MAIN CROSSHAIR COLOR DECISION
}
if(shottype == SHOTTYPE_HITENEMY)
- wcross_scale *= autocvar_crosshair_hittest; // is not queried if hittest is 0
+ wcross_scale *= autocvar_crosshair_hittest_scale; // is not queried if hittest is 0
if(shottype == SHOTTYPE_HITTEAM)
- wcross_scale /= autocvar_crosshair_hittest; // is not queried if hittest is 0
+ wcross_scale /= autocvar_crosshair_hittest_scale; // is not queried if hittest is 0
f = fabs(autocvar_crosshair_effect_time);
if(wcross_scale != wcross_scale_goal_prev || wcross_alpha != wcross_alpha_goal_prev || wcross_color != wcross_color_goal_prev)
if(!(gametype == MAPINFO_TYPE_RACE || gametype == MAPINFO_TYPE_CTS))
Accuracy_LoadLevels();
- HUD_Main(); // always run these functions for alpha checks
- HUD_DrawScoreboard();
+ HUD_Main(); // always run these functions for alpha checks
+ HUD_DrawScoreboard();
- if (scoreboard_active) // scoreboard/accuracy
- HUD_Reset();
- else if (intermission == 2) // map voting screen
- {
- HUD_FinaleOverlay();
- HUD_Reset();
- }
- /*
- switch(hud)
+ if (scoreboard_active) // scoreboard/accuracy
+ HUD_Reset();
+ else if (intermission == 2) // map voting screen
{
- case HUD_SPIDERBOT:
- CSQC_SPIDER_HUD();
- break;
-
- case HUD_WAKIZASHI:
- CSQC_WAKIZASHI_HUD();
- break;
-
- case HUD_BUMBLEBEE:
- CSQC_BUMBLE_HUD();
- break;
+ MapVote_Draw();
+ HUD_Reset();
}
- */
}