+#include "radarmap.qh"
+#include "../_.qh"
+
+#include "../g_subs.qh"
+#include "../g_world.qh"
+
+#include "../../common/util.qh"
+
+#include "../../csqcmodellib/sv_model.qh"
+
// ===============================================
// Generates radar map images for use in the HUD
// ===============================================
c = trace_endpos;
}
- n += tracebox_inverted(c, mi, ma, b, MOVE_WORLDONLY, world, FALSE);
+ n += tracebox_inverted(c, mi, ma, b, MOVE_WORLDONLY, world, false, world);
white += vlen(trace_endpos - c);
c = trace_endpos;
ma = '1 0 0' * w + '0 1 0' * h + dz;
o = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin;
- if(x < world.absmin_x - w)
+ if(x < world.absmin.x - w)
return 0;
- if(y < world.absmin_y - h)
+ if(y < world.absmin.y - h)
return 0;
- if(x > world.absmax_x)
+ if(x > world.absmax.x)
return 0;
- if(y > world.absmax_y)
+ if(y > world.absmax.y)
return 0;
r = 0;
{
vector v1, v2;
v1 = v2 = o + dz * i + mi;
- v1_x += random() * (ma_x - mi_x);
- v1_y += random() * (ma_y - mi_y);
- v1_z += random() * (ma_z - mi_z);
- v2_x += random() * (ma_x - mi_x);
- v2_y += random() * (ma_y - mi_y);
- v2_z += random() * (ma_z - mi_z);
+ v1_x += random() * (ma.x - mi.x);
+ v1_y += random() * (ma.y - mi.y);
+ v1_z += random() * (ma.z - mi.z);
+ v2_x += random() * (ma.x - mi.x);
+ v2_y += random() * (ma.y - mi.y);
+ v2_z += random() * (ma.z - mi.z);
traceline(v1, v2, MOVE_WORLDONLY, world);
if(trace_startsolid || trace_fraction < 1)
++r;
ma = '1 0 0' * w + '0 1 0' * h + dz;
o = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin;
- if(x < world.absmin_x - w)
+ if(x < world.absmin.x - w)
return 0;
- if(y < world.absmin_y - h)
+ if(y < world.absmin.y - h)
return 0;
- if(x > world.absmax_x)
+ if(x > world.absmax.x)
return 0;
- if(y > world.absmax_y)
+ if(y > world.absmax.y)
return 0;
r = 0;
for(i = 0; i < q; ++i)
{
vector v;
- v_x = a_x + random() * b_x;
- v_y = a_y + random() * b_y;
- v_z = a_z + random() * b_z;
+ v.x = a.x + random() * b.x;
+ v.y = a.y + random() * b.y;
+ v.z = a.z + random() * b.z;
traceline(v, v, MOVE_WORLDONLY, world);
if(trace_startsolid)
++c;
return c / q;
}
-void sharpen_set(float x, float v)
+void sharpen_set(int x, float v)
{
sharpen_buffer[x + 2 * RADAR_WIDTH_MAX] = v;
}
-float sharpen_getpixel(float x, float y)
+float sharpen_getpixel(int x, int y)
{
if(x < 0)
return 0;
}
float sharpen_get(float x, float a)
{
- float sum;
- sum = sharpen_getpixel(x, 1);
+ float sum = sharpen_getpixel(x, 1);
if(a == 0)
return sum;
sum *= (8 + 1/a);
sum -= sharpen_getpixel(x, 2);
return bound(0, sum * a, 1);
}
-void sharpen_shift(float w)
+void sharpen_shift(int w)
{
- float i;
- for(i = 0; i < w; ++i)
+ for(int i = 0; i < w; ++i)
{
sharpen_buffer[i] = sharpen_buffer[i + RADAR_WIDTH_MAX];
sharpen_buffer[i + RADAR_WIDTH_MAX] = sharpen_buffer[i + 2 * RADAR_WIDTH_MAX];
sharpen_buffer[i + 2 * RADAR_WIDTH_MAX] = 0;
}
}
-void sharpen_init(float w)
+void sharpen_init(int w)
{
- float i;
- for(i = 0; i < w; ++i)
+ for(int i = 0; i < w; ++i)
{
sharpen_buffer[i] = 0;
sharpen_buffer[i + RADAR_WIDTH_MAX] = 0;
}
else if(radarmapper.count & 2)
{
- localcmd(strcat("defer 1 \"sv_cmd radarmap --flags ", ftos(radarmapper.count), strcat(" --res ", ftos(radarmapper.size_x), " ", ftos(radarmapper.size_y), " --sharpen ", ftos(radarmapper.ltime), " --qual ", ftos(radarmapper.size_z)), "\"\n"));
+ localcmd(strcat("defer 1 \"sv_cmd radarmap --flags ", ftos(radarmapper.count), strcat(" --res ", ftos(radarmapper.size.x), " ", ftos(radarmapper.size.y), " --sharpen ", ftos(radarmapper.ltime), " --qual ", ftos(radarmapper.size.z)), "\"\n"));
GotoNextMap(0);
}
remove(radarmapper);
// size: pixel width/height
// maxs: cell width/height
// frame: counter
-
+
float i, x, l;
string si;
// initialize
get_mi_min_max_texcoords(1);
self.mins = mi_picmin;
- self.maxs_x = (mi_picmax_x - mi_picmin_x) / self.size_x;
- self.maxs_y = (mi_picmax_y - mi_picmin_y) / self.size_y;
- self.maxs_z = mi_max_z - mi_min_z;
- print("Picture mins/maxs: ", ftos(self.maxs_x), " and ", ftos(self.maxs_y), " should match\n");
+ self.maxs_x = (mi_picmax.x - mi_picmin.x) / self.size.x;
+ self.maxs_y = (mi_picmax.y - mi_picmin.y) / self.size.y;
+ self.maxs_z = mi_max.z - mi_min.z;
+ print("Picture mins/maxs: ", ftos(self.maxs.x), " and ", ftos(self.maxs.y), " should match\n");
self.netname = strzone(strcat("gfx/", mi_shortname, "_radar.xpm"));
if(!(self.count & 1))
{
fputs(self.cnt, "/* XPM */\n");
fputs(self.cnt, "static char *RadarMap[] = {\n");
fputs(self.cnt, "/* columns rows colors chars-per-pixel */\n");
- fputs(self.cnt, strcat("\"", ftos(self.size_x), " ", ftos(self.size_y), " 256 2\",\n"));
+ fputs(self.cnt, strcat("\"", ftos(self.size.x), " ", ftos(self.size.y), " 256 2\",\n"));
for(i = 0; i < 256; ++i)
{
si = substring(doublehex, i*2, 2);
}
self.frame += 1;
self.nextthink = time;
- sharpen_init(self.size_x);
+ sharpen_init(self.size.x);
}
- else if(self.frame <= self.size_y)
+ else if(self.frame <= self.size.y)
{
// fill the sharpen buffer with this line
- sharpen_shift(self.size_x);
+ sharpen_shift(self.size.x);
i = self.count & 24;
switch(i)
{
case 0:
default:
- for(x = 0; x < self.size_x; ++x)
+ for(x = 0; x < self.size.x; ++x)
{
- l = RadarMapAtPoint_Block(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z);
+ l = RadarMapAtPoint_Block(self.mins.x + x * self.maxs.x, self.mins.y + (self.size.y - self.frame) * self.maxs.y, self.maxs.x, self.maxs.y, self.mins.z, self.maxs.z, self.size.z);
sharpen_set(x, l);
}
break;
case 8:
- for(x = 0; x < self.size_x; ++x)
+ for(x = 0; x < self.size.x; ++x)
{
- l = RadarMapAtPoint_Trace(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z);
+ l = RadarMapAtPoint_Trace(self.mins.x + x * self.maxs.x, self.mins.y + (self.size.y - self.frame) * self.maxs.y, self.maxs.x, self.maxs.y, self.mins.z, self.maxs.z, self.size.z);
sharpen_set(x, l);
}
break;
case 16:
- for(x = 0; x < self.size_x; ++x)
+ for(x = 0; x < self.size.x; ++x)
{
- l = RadarMapAtPoint_Sample(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z);
+ l = RadarMapAtPoint_Sample(self.mins.x + x * self.maxs.x, self.mins.y + (self.size.y - self.frame) * self.maxs.y, self.maxs.x, self.maxs.y, self.mins.z, self.maxs.z, self.size.z);
sharpen_set(x, l);
}
break;
case 24:
- for(x = 0; x < self.size_x; ++x)
+ for(x = 0; x < self.size.x; ++x)
{
- l = RadarMapAtPoint_LineBlock(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z);
+ l = RadarMapAtPoint_LineBlock(self.mins.x + x * self.maxs.x, self.mins.y + (self.size.y - self.frame) * self.maxs.y, self.maxs.x, self.maxs.y, self.mins.z, self.maxs.z, self.size.z);
sharpen_set(x, l);
}
break;
{
// write a pixel line
fputs(self.cnt, "\"");
- for(x = 0; x < self.size_x; ++x)
+ for(x = 0; x < self.size.x; ++x)
{
l = sharpen_get(x, self.ltime);
fputs(self.cnt, substring(doublehex, 2 * floor(l * 256.0), 2));
}
- if(self.frame == self.size_y)
+ if(self.frame == self.size.y)
fputs(self.cnt, "\"\n");
else
{
fputs(self.cnt, "\",\n");
- print(ftos(self.size_y - self.frame), " lines left\n");
+ print(ftos(self.size.y - self.frame), " lines left\n");
}
}
// is this the last line? then write back the missing line
- if(self.frame == self.size_y)
+ if(self.frame == self.size.y)
{
- sharpen_shift(self.size_x);
+ sharpen_shift(self.size.x);
// write a pixel line
fputs(self.cnt, "\"");
- for(x = 0; x < self.size_x; ++x)
+ for(x = 0; x < self.size.x; ++x)
{
l = sharpen_get(x, self.ltime);
fputs(self.cnt, substring(doublehex, 2 * floor(l * 256.0), 2));
}
- if(self.frame == self.size_y)
+ if(self.frame == self.size.y)
fputs(self.cnt, "\"\n");
else
{
fputs(self.cnt, "\",\n");
- print(ftos(self.size_y - self.frame), " lines left\n");
+ print(ftos(self.size.y - self.frame), " lines left\n");
}
}
float RadarMap_Make(float argc)
{
float i;
-
+
if(!radarmapper)
{
radarmapper = spawn();
case "--force": { radarmapper.count |= 1; break; }
case "--loop": { radarmapper.count |= 2; break; }
case "--quit": { radarmapper.count |= 4; break; }
- case "--block": { radarmapper.count &~= 24; break; }
- case "--trace": { radarmapper.count &~= 24; radarmapper.count |= 8; break; }
- case "--sample": { radarmapper.count &~= 24; radarmapper.count |= 16; break; }
+ case "--block": { radarmapper.count &= ~24; break; }
+ case "--trace": { radarmapper.count &= ~24; radarmapper.count |= 8; break; }
+ case "--sample": { radarmapper.count &= ~24; radarmapper.count |= 16; break; }
case "--lineblock": { radarmapper.count |= 24; break; }
case "--flags": { ++i; radarmapper.count = stof(argv(i)); break; } // for the recursive call
case "--sharpen": { ++i; radarmapper.ltime = stof(argv(i)); break; } // for the recursive call
case "--resolution": { ++i; radarmapper.size_x = stof(argv(i)); ++i; radarmapper.size_y = stof(argv(i)); break; }
case "--qual": // minor alias
case "--quality": { ++i; radarmapper.size_z = stof(argv(i)); break; }
-
- default:
- i = argc;
+
+ default:
+ i = argc;
remove(radarmapper);
radarmapper = world;
break;
}
}
-
- if(radarmapper) // after doing the arguments, see if we successfully went forward.
+
+ if(radarmapper) // after doing the arguments, see if we successfully went forward.
{
print("Radarmap entity spawned.\n");
- return TRUE; // if so, don't print usage.
+ return true; // if so, don't print usage.
}
}
-
- return FALSE;
+
+ return false;
}