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;
// size: pixel width/height
// maxs: cell width/height
// frame: counter
-
+
float i, x, l;
string si;
float RadarMap_Make(float argc)
{
float i;
-
+
if(!radarmapper)
{
radarmapper = spawn();
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 FALSE;
}