tmax_y = tmin_y + 1;
}
- setsize (trigger, tmin, tmax);
+ if(tmin_x < tmax_x)
+ if(tmin_y < tmax_y)
+ if(tmin_z < tmax_z)
+ {
+ setsize (trigger, tmin, tmax);
+ return;
+ }
+
+ // otherwise, something is fishy...
+ remove(trigger);
+ objerror("plat_spawn_inside_trigger: platform has odd size or lip, can't spawn");
}
void plat_hit_top()
{
sound (self, CH_TRIGGER_SINGLE, self.noise, VOL_BASE, ATTN_NORM);
self.state = 3;
- SUB_CalcMove (self.pos2, self.speed, plat_hit_bottom);
+ SUB_CalcMove (self.pos2, TSPEED_LINEAR, self.speed, plat_hit_bottom);
}
void plat_go_up()
{
sound (self, CH_TRIGGER_SINGLE, self.noise, VOL_BASE, ATTN_NORM);
self.state = 4;
- SUB_CalcMove (self.pos1, self.speed, plat_hit_top);
+ SUB_CalcMove (self.pos1, TSPEED_LINEAR, self.speed, plat_hit_top);
}
void plat_center_touch()
}
}
-void spawnfunc_path_corner() { }
-void spawnfunc_func_plat()
+.float platmovetype_start_default, platmovetype_end_default;
+float set_platmovetype(entity e, string s)
{
- if (!self.t_length)
- self.t_length = 80;
- if (!self.t_width)
- self.t_width = 10;
+ // sets platmovetype_start and platmovetype_end based on a string consisting of two values
+
+ float n;
+ n = tokenize_console(s);
+ if(n > 0)
+ e.platmovetype_start = stof(argv(0));
+ else
+ e.platmovetype_start = 0;
+
+ if(n > 1)
+ e.platmovetype_end = stof(argv(1));
+ else
+ e.platmovetype_end = e.platmovetype_start;
+
+ if(n > 2)
+ if(argv(2) == "force")
+ return TRUE; // no checking, return immediately
+
+ if(!cubic_speedfunc_is_sane(e.platmovetype_start, e.platmovetype_end))
+ {
+ objerror("Invalid platform move type; platform would go in reverse, which is not allowed.");
+ return FALSE;
+ }
+
+ return TRUE;
+}
+void spawnfunc_path_corner()
+{
+ // setup values for overriding train movement
+ // if a second value does not exist, both start and end speeds are the single value specified
+ if(!set_platmovetype(self, self.platmovetype))
+ return;
+}
+void spawnfunc_func_plat()
+{
if (self.sounds == 0)
self.sounds = 2;
if (!self.speed)
self.speed = 150;
+ if (!self.lip)
+ self.lip = 16;
+ if (!self.height)
+ self.height = self.size_z - self.lip;
self.pos1 = self.origin;
self.pos2 = self.origin;
- self.pos2_z = self.origin_z - self.size_z + 8;
-
- plat_spawn_inside_trigger (); // the "start moving" trigger
+ self.pos2_z = self.origin_z - self.height;
self.reset = plat_reset;
plat_reset();
-}
+ plat_spawn_inside_trigger (); // the "start moving" trigger
+}
+.float train_wait_turning;
void() train_next;
void train_wait()
{
+ entity oldself;
+ oldself = self;
+ self = self.enemy;
+ SUB_UseTargets();
+ self = oldself;
+ self.enemy = world;
+
+ // if turning is enabled, the train will turn toward the next point while waiting
+ if(self.platmovetype_turn && !self.train_wait_turning)
+ {
+ entity targ, cp;
+ vector org;
+ targ = find(world, targetname, self.target);
+ if((self.spawnflags & 1) && targ.curvetarget)
+ cp = find(world, targetname, targ.curvetarget);
+ else
+ cp = world;
+
+ if(cp) // bezier curves movement
+ org = vectoangles(cp.origin - self.origin); // use the origin of the control point of the next path_corner
+ else // linear movement
+ org = vectoangles(targ.origin - self.origin); // use the origin of the next path_corner
+
+ if(self.wait >= 0) // slow turning
+ {
+ SUB_CalcAngleMove(org, TSPEED_TIME, self.ltime - time + self.wait, train_wait);
+ self.train_wait_turning = TRUE;
+ return;
+ }
+ else // instant turning
+ self.angles = org;
+ }
+
if(self.noise != "")
stopsoundto(MSG_BROADCAST, self, CH_TRIGGER_SINGLE); // send this as unreliable only, as the train will resume operation shortly anyway
- if(self.wait < 0)
+ if(self.wait < 0 || self.train_wait_turning) // no waiting or we already waited while turning
{
+ self.train_wait_turning = FALSE;
train_next();
}
else
self.think = train_next;
self.nextthink = self.ltime + self.wait;
}
-
- entity oldself;
- oldself = self;
- self = self.enemy;
- SUB_UseTargets();
- self = oldself;
- self.enemy = world;
}
void train_next()
{
- entity targ;
+ entity targ, cp;
+ vector cp_org;
+
targ = find(world, targetname, self.target);
- self.enemy = targ;
self.target = targ.target;
+ if (self.spawnflags & 1)
+ {
+ if(targ.curvetarget)
+ {
+ cp = find(world, targetname, targ.curvetarget); // get its second target (the control point)
+ cp_org = cp.origin - self.mins; // no control point found, assume a straight line to the destination
+ }
+ else
+ cp = world; // no cp
+ }
if (!self.target)
objerror("train_next: no next target");
self.wait = targ.wait;
if (!self.wait)
self.wait = 0.1;
+ if(targ.platmovetype)
+ {
+ // this path_corner contains a movetype overrider, apply it
+ self.platmovetype_start = targ.platmovetype_start;
+ self.platmovetype_end = targ.platmovetype_end;
+ }
+ else
+ {
+ // this path_corner doesn't contain a movetype overrider, use the train's defaults
+ self.platmovetype_start = self.platmovetype_start_default;
+ self.platmovetype_end = self.platmovetype_end_default;
+ }
+
if (targ.speed)
- SUB_CalcMove(targ.origin - self.mins, targ.speed, train_wait);
+ {
+ if (cp)
+ SUB_CalcMove_Bezier(cp_org, targ.origin - self.mins, TSPEED_LINEAR, targ.speed, train_wait);
+ else
+ SUB_CalcMove(targ.origin - self.mins, TSPEED_LINEAR, targ.speed, train_wait);
+ }
else
- SUB_CalcMove(targ.origin - self.mins, self.speed, train_wait);
+ {
+ if (cp)
+ SUB_CalcMove_Bezier(cp_org, targ.origin - self.mins, TSPEED_LINEAR, self.speed, train_wait);
+ else
+ SUB_CalcMove(targ.origin - self.mins, TSPEED_LINEAR, self.speed, train_wait);
+ }
if(self.noise != "")
sound(self, CH_TRIGGER_SINGLE, self.noise, VOL_BASE, ATTN_IDLE);
objerror("func_train without a target");
if (!self.speed)
self.speed = 100;
+ if (self.spawnflags & 2)
+ self.platmovetype_turn = TRUE;
if not(InitMovingBrushTrigger())
return;
self.dmgtime = 0.25;
self.dmgtime2 = time;
+ if(!set_platmovetype(self, self.platmovetype))
+ return;
+ self.platmovetype_start_default = self.platmovetype_start;
+ self.platmovetype_end_default = self.platmovetype_end;
+
// TODO make a reset function for this one
}
void button_return()
{
self.state = STATE_DOWN;
- SUB_CalcMove (self.pos1, self.speed, button_done);
+ SUB_CalcMove (self.pos1, TSPEED_LINEAR, self.speed, button_done);
self.frame = 0; // use normal textures
if (self.health)
self.takedamage = DAMAGE_YES; // can be shot again
sound (self, CH_TRIGGER, self.noise, VOL_BASE, ATTN_NORM);
self.state = STATE_UP;
- SUB_CalcMove (self.pos2, self.speed, button_wait);
+ SUB_CalcMove (self.pos2, TSPEED_LINEAR, self.speed, button_wait);
}
void button_reset()
}
self.state = STATE_DOWN;
- SUB_CalcMove (self.pos1, self.speed, door_hit_bottom);
+ SUB_CalcMove (self.pos1, TSPEED_LINEAR, self.speed, door_hit_bottom);
}
void door_go_up()
if (self.noise2 != "")
sound (self, CH_TRIGGER_SINGLE, self.noise2, VOL_BASE, ATTN_NORM);
self.state = STATE_UP;
- SUB_CalcMove (self.pos2, self.speed, door_hit_top);
+ SUB_CalcMove (self.pos2, TSPEED_LINEAR, self.speed, door_hit_top);
string oldmessage;
oldmessage = self.message;
}
self.state = STATE_DOWN;
- SUB_CalcAngleMove (self.pos1, self.speed, door_rotating_hit_bottom);
+ SUB_CalcAngleMove (self.pos1, TSPEED_LINEAR, self.speed, door_rotating_hit_bottom);
}
void door_rotating_go_up()
if (self.noise2 != "")
sound (self, CH_TRIGGER_SINGLE, self.noise2, VOL_BASE, ATTN_NORM);
self.state = STATE_UP;
- SUB_CalcAngleMove (self.pos2, self.speed, door_rotating_hit_top);
+ SUB_CalcAngleMove (self.pos2, TSPEED_LINEAR, self.speed, door_rotating_hit_top);
string oldmessage;
oldmessage = self.message;
self.dest1 = self.origin + v_right * (self.t_width * temp);
self.dest2 = self.dest1 + v_forward * self.t_length;
- SUB_CalcMove(self.dest1, self.speed, fd_secret_move1);
+ SUB_CalcMove(self.dest1, TSPEED_LINEAR, self.speed, fd_secret_move1);
if (self.noise2 != "")
sound(self, CH_TRIGGER_SINGLE, self.noise2, VOL_BASE, ATTN_NORM);
}
{
if (self.noise2 != "")
sound(self, CH_TRIGGER_SINGLE, self.noise2, VOL_BASE, ATTN_NORM);
- SUB_CalcMove(self.dest2, self.speed, fd_secret_move3);
+ SUB_CalcMove(self.dest2, TSPEED_LINEAR, self.speed, fd_secret_move3);
}
// Wait here until time to go back...
{
if (self.noise2 != "")
sound(self, CH_TRIGGER_SINGLE, self.noise2, VOL_BASE, ATTN_NORM);
- SUB_CalcMove(self.dest1, self.speed, fd_secret_move5);
+ SUB_CalcMove(self.dest1, TSPEED_LINEAR, self.speed, fd_secret_move5);
}
// Wait 1 second...
{
if (self.noise2 != "")
sound(self, CH_TRIGGER_SINGLE, self.noise2, VOL_BASE, ATTN_NORM);
- SUB_CalcMove(self.oldorigin, self.speed, fd_secret_done);
+ SUB_CalcMove(self.oldorigin, TSPEED_LINEAR, self.speed, fd_secret_done);
}
void fd_secret_done()
if(self.state)
{
- for(e = findradius((self.absmin + self.absmax) * 0.5, vlen(self.absmax - self.absmin) * 0.5); e; e = e.chain)
+ for(e = findradius((self.absmin + self.absmax) * 0.5, vlen(self.absmax - self.absmin) * 0.5 + 1); e; e = e.chain)
if(!e.conveyor.state)
- if(e.movetype != MOVETYPE_NONE)
+ if(isPushable(e))
{
vector emin = e.absmin;
vector emax = e.absmax;
if(e.flags & FL_CLIENT) // doing it via velocity has quite some advantages
continue; // done in SV_PlayerPhysics
+ setorigin(e, e.origin + self.movedir * sys_frametime);
+ move_out_of_solid(e);
+ UpdateCSQCProjectile(e);
+ /*
// stupid conveyor code
tracebox(e.origin, e.mins, e.maxs, e.origin + self.movedir * sys_frametime, MOVE_NORMAL, e);
if(trace_fraction > 0)
setorigin(e, trace_endpos);
+ */
}
}
void spawnfunc_trigger_conveyor()
{
+ SetMovedir();
EXACTTRIGGER_INIT;
conveyor_init();
}