-void SUB_Null() {}
-float SUB_True() { return 1; }
-float SUB_False() { return 0; }
+void SUB_NullThink(void) { }
void(vector destangle, float tspeed, void() func) SUB_CalcAngleMove;
void() SUB_CalcMoveDone;
//print(ftos(time), " -> ", ftos(e.frame), "\n");
}
-vector animfixfps(entity e, vector a)
-{
- // multi-frame anim: keep as-is
- if(a_y == 1)
- {
- float dur;
- dur = frameduration(e.modelindex, a_x);
- if(dur > 0)
- a_z = 1.0 / dur;
- }
- return a;
-}
-
/*
==================
SUB_Remove
*/
void SUB_VanishOrRemove (entity ent)
{
- if (ent.flags & FL_CLIENT)
+ if (IS_CLIENT(ent))
{
// vanish
ent.alpha = -1;
*/
void SUB_SetFade (entity ent, float when, float fadetime)
{
- //if (ent.flags & FL_CLIENT) // && ent.deadflag != DEAD_NO)
- // return;
- //ent.alpha = 1;
ent.fade_rate = 1/fadetime;
ent.think = SUB_SetFade_Think;
ent.nextthink = when;
controller.think1 = self.think;
// the thinking is now done by the controller
- self.think = SUB_Null;
+ self.think = SUB_NullThink; // for PushMove
self.nextthink = self.ltime + traveltime;
// invoke controller
// check whether antilagged traces are enabled
if (lag < 0.001)
lag = 0;
- if (clienttype(forent) != CLIENTTYPE_REAL)
+ if not(IS_REAL_CLIENT(forent))
lag = 0; // only antilag for clients
// change shooter to SOLID_BBOX so the shot can hit corpses
tracebox_antilag_force_wz(source, v1, mi, ma, v2, nomonst, forent, lag, TRUE);
}
-float tracebox_inverted (vector v1, vector mi, vector ma, vector v2, float nomonsters, entity forent) // returns the number of traces done, for benchmarking
+float tracebox_inverted (vector v1, vector mi, vector ma, vector v2, float nomonsters, entity forent, float stopatentity) // returns the number of traces done, for benchmarking
{
vector pos, dir, t;
float nudge;
+ entity stopentity;
//nudge = 2 * cvar("collision_impactnudge"); // why not?
nudge = 0.5;
dprint(" trace distance is ", ftos(vlen(pos - trace_endpos)), "\n");
}
+ stopentity = trace_ent;
+
if(trace_startsolid)
{
// we started inside solid.
// t is still inside solid? bad
// force advance, then, and retry
pos = t + dir * nudge;
+
+ // but if we hit an entity, stop RIGHT before it
+ if(stopatentity && stopentity)
+ {
+ trace_ent = stopentity;
+ trace_endpos = t;
+ trace_fraction = ((trace_endpos - v1) * dir) / ((v2 - v1) * dir);
+ return c;
+ }
}
else
{
}
}
-void traceline_inverted (vector v1, vector v2, float nomonsters, entity forent)
+void traceline_inverted (vector v1, vector v2, float nomonsters, entity forent, float stopatentity)
{
-#if 0
- vector pos, dir, t;
- float nudge;
-
- //nudge = 2 * cvar("collision_impactnudge"); // why not?
- nudge = 0.5;
-
- dir = normalize(v2 - v1);
-
- pos = v1 + dir * nudge;
-
- for(;;)
- {
- if((pos - v1) * dir >= (v2 - v1) * dir)
- {
- // went too far
- trace_fraction = 1;
- return;
- }
-
- traceline(pos, v2, nomonsters, forent);
-
- if(trace_startsolid)
- {
- // we started inside solid.
- // then trace from endpos to pos
- t = trace_endpos;
- traceline(t, pos, nomonsters, forent);
- if(trace_startsolid)
- {
- // t is inside solid? bad
- // force advance, then
- pos = pos + dir * nudge;
- }
- else
- {
- // we actually LEFT solid!
- trace_fraction = ((trace_endpos - v1) * dir) / ((v2 - v1) * dir);
- return;
- }
- }
- else
- {
- // pos is outside solid?!? but why?!? never mind, just return it.
- trace_endpos = pos;
- trace_fraction = ((trace_endpos - v1) * dir) / ((v2 - v1) * dir);
- return;
- }
- }
-#else
- tracebox_inverted(v1, '0 0 0', '0 0 0', v2, nomonsters, forent);
+ tracebox_inverted(v1, '0 0 0', '0 0 0', v2, nomonsters, forent, stopatentity);
}
/*
if(self.model != "")
{
precache_model(self.model);
- setmodel(self, self.model); // no precision needed
+ if(self.mins != '0 0 0' || self.maxs != '0 0 0')
+ {
+ vector mi = self.mins;
+ vector ma = self.maxs;
+ setmodel(self, self.model); // no precision needed
+ setsize(self, mi, ma);
+ }
+ else
+ setmodel(self, self.model); // no precision needed
InitializeEntity(self, LODmodel_attach, INITPRIO_FINDTARGET);
}
setorigin(self, self.origin);
if(self.model != "")
{
precache_model(self.model);
- setmodel(self, self.model); // no precision needed
+ if(self.mins != '0 0 0' || self.maxs != '0 0 0')
+ {
+ vector mi = self.mins;
+ vector ma = self.maxs;
+ setmodel(self, self.model); // no precision needed
+ setsize(self, mi, ma);
+ }
+ else
+ setmodel(self, self.model); // no precision needed
}
setorigin(self, self.origin);
ApplyMinMaxScaleAngles(self);