1 #include "navigation.qh"
3 #include <server/defs.qh>
4 #include <server/miscfunctions.qh>
8 #include "waypoints.qh"
10 #include <common/t_items.qh>
12 #include <common/items/_mod.qh>
14 #include <common/constants.qh>
15 #include <common/net_linked.qh>
16 #include <common/mapobjects/func/ladder.qh>
17 #include <common/mapobjects/trigger/jumppads.qh>
21 void navigation_goalrating_timeout_set(entity this)
23 if(IS_MOVABLE(this.goalentity))
24 this.bot_strategytime = time + autocvar_bot_ai_strategyinterval_movingtarget;
26 this.bot_strategytime = time + autocvar_bot_ai_strategyinterval;
29 // use this when current goal must be discarded immediately
30 void navigation_goalrating_timeout_force(entity this)
32 navigation_goalrating_timeout_expire(this, 0);
35 // use this when current goal can be kept for a short while to increase the chance
36 // of bot touching a waypoint, which helps to find a new goal more efficiently
37 void navigation_goalrating_timeout_expire(entity this, float seconds)
40 this.bot_strategytime = 0;
41 else if (this.bot_strategytime > time + seconds)
42 this.bot_strategytime = time + seconds;
45 bool navigation_goalrating_timeout(entity this)
47 return this.bot_strategytime < time;
50 void navigation_goalrating_timeout_extend_if_needed(entity this, float seconds)
52 this.bot_strategytime = max(this.bot_strategytime, time + seconds);
55 #define MAX_CHASE_DISTANCE 700
56 bool navigation_goalrating_timeout_can_be_anticipated(entity this)
58 vector gco = (this.goalentity.absmin + this.goalentity.absmax) * 0.5;
59 if (vdist(gco - this.origin, >, autocvar_sv_maxspeed * 1.5)
60 && time > this.bot_strategytime - (IS_MOVABLE(this.goalentity) ? 3 : 2))
65 if (this.goalentity.bot_pickup && time > this.bot_strategytime - 5)
67 if(!havocbot_goalrating_item_pickable_check_players(this, this.origin, this.goalentity, gco))
69 this.ignoregoal = this.goalentity;
70 this.ignoregoaltime = time + autocvar_bot_ai_ignoregoal_timeout;
77 void navigation_dynamicgoal_init(entity this, bool initially_static)
79 this.navigation_dynamicgoal = true;
80 this.bot_basewaypoint = this.nearestwaypoint;
82 this.nearestwaypointtimeout = -1;
84 this.nearestwaypointtimeout = time;
87 void navigation_dynamicgoal_set(entity this, entity dropper)
89 this.nearestwaypointtimeout = time;
90 if (dropper && dropper.nearestwaypointtimeout && dropper.nearestwaypointtimeout < time + 2)
91 this.nearestwaypoint = dropper.nearestwaypoint;
92 if (this.nearestwaypoint)
93 this.nearestwaypointtimeout += 2;
96 void navigation_dynamicgoal_unset(entity this)
98 if(this.bot_basewaypoint)
99 this.nearestwaypoint = this.bot_basewaypoint;
100 this.nearestwaypointtimeout = -1;
103 // returns point of ent closer to org
104 vector get_closer_dest(entity ent, vector org)
106 vector dest = '0 0 0';
107 if ((ent.classname != "waypoint") || ent.wpisbox)
109 vector wm1 = ent.origin + ent.mins;
110 vector wm2 = ent.origin + ent.maxs;
111 dest.x = bound(wm1.x, org.x, wm2.x);
112 dest.y = bound(wm1.y, org.y, wm2.y);
113 dest.z = bound(wm1.z, org.z, wm2.z);
120 void set_tracewalk_dest(entity ent, vector org, bool fix_player_dest)
122 if ((ent.classname != "waypoint") || ent.wpisbox)
124 vector wm1 = ent.origin + ent.mins;
125 vector wm2 = ent.origin + ent.maxs;
126 if (IS_PLAYER(ent) || IS_MONSTER(ent))
128 // move destination point out of player bbox otherwise tracebox always fails
129 // (if bot_navigation_ignoreplayers is false)
130 wm1 += vec2(PL_MIN_CONST) + '-1 -1 0';
131 wm2 += vec2(PL_MAX_CONST) + '1 1 0';
133 // set destination point to x and y coords of ent that are closer to org
134 // z coord is set to ent's min height
135 tracewalk_dest.x = bound(wm1.x, org.x, wm2.x);
136 tracewalk_dest.y = bound(wm1.y, org.y, wm2.y);
137 if ((IS_PLAYER(ent) || IS_MONSTER(ent))
138 && org.x == tracewalk_dest.x && org.y == tracewalk_dest.y && org.z > tracewalk_dest.z)
140 tracewalk_dest.z = wm2.z - PL_MIN_CONST.z;
141 tracewalk_dest_height = 0;
142 fix_player_dest = false;
146 tracewalk_dest.z = wm1.z;
147 tracewalk_dest_height = wm2.z - wm1.z;
152 tracewalk_dest = ent.origin;
153 tracewalk_dest_height = 0;
155 if (fix_player_dest && IS_PLAYER(ent) && !IS_ONGROUND(ent))
157 // snap player to the ground
158 if (org.x == tracewalk_dest.x && org.y == tracewalk_dest.y)
160 // bot is right under the player
161 tracebox(ent.origin, ent.mins, ent.maxs, ent.origin - '0 0 700', MOVE_NORMAL, ent);
162 tracewalk_dest = trace_endpos;
163 tracewalk_dest_height = 0;
167 tracebox(tracewalk_dest, ent.mins, ent.maxs, tracewalk_dest - '0 0 700', MOVE_NORMAL, ent);
168 if (!trace_startsolid && tracewalk_dest.z - trace_endpos.z > 0)
170 tracewalk_dest_height = tracewalk_dest.z - trace_endpos.z;
171 tracewalk_dest.z = trace_endpos.z;
177 // returns point of ent closer to org
178 vector set_tracewalk_dest_2(entity ent, vector org)
180 vector closer_dest = '0 0 0';
181 if ((ent.classname != "waypoint") || ent.wpisbox)
183 vector wm1 = ent.origin + ent.mins;
184 vector wm2 = ent.origin + ent.maxs;
185 closer_dest.x = bound(wm1.x, org.x, wm2.x);
186 closer_dest.y = bound(wm1.y, org.y, wm2.y);
187 closer_dest.z = bound(wm1.z, org.z, wm2.z);
188 // set destination point to x and y coords of ent that are closer to org
189 // z coord is set to ent's min height
190 tracewalk_dest.x = closer_dest.x;
191 tracewalk_dest.y = closer_dest.y;
192 tracewalk_dest.z = wm1.z;
193 tracewalk_dest_height = wm2.z - wm1.z; // destination height
197 closer_dest = ent.origin;
198 tracewalk_dest = closer_dest;
199 tracewalk_dest_height = 0;
204 bool navigation_check_submerged_state(entity ent, vector pos)
208 submerged = (ent.waterlevel == WATERLEVEL_SUBMERGED);
209 else if(ent.nav_submerged_state != SUBMERGED_UNDEFINED)
210 submerged = (ent.nav_submerged_state == SUBMERGED_YES);
213 submerged = SUBMERGED(pos);
214 // NOTE: SUBMERGED check of box waypoint origin may fail even if origin
215 // is actually submerged because often they are inside some solid.
216 // That's why submerged state is saved now that we know current pos is
217 // not stuck in solid (previous tracewalk call to this pos was successfully)
218 if(!ent.navigation_dynamicgoal)
219 ent.nav_submerged_state = (submerged) ? SUBMERGED_YES : SUBMERGED_NO;
224 bool navigation_checkladders(entity e, vector org, vector m1, vector m2, vector end, vector end2, int movemode)
226 IL_EACH(g_ladders, it.classname == "func_ladder",
229 if(boxesoverlap(org + m1 + '-1 -1 -1', org + m2 + '1 1 1', it.absmin, it.absmax))
230 if(boxesoverlap(end, end2, it.absmin + vec2(m1) + '-1 -1 0', it.absmax + vec2(m2) + '1 1 0'))
233 top.z = it.absmax.z + (PL_MAX_CONST.z - PL_MIN_CONST.z);
234 tracebox(org, m1, m2, top, movemode, e);
235 if(trace_fraction == 1)
242 // Unfortuntely we can't use trace_inwater since it doesn't hold the fraction of the total
243 // distance that was traveled before impact as the description in the engine (collision.h) says.
244 // It would have helped to speed up tracewalk underwater
245 vector resurface_limited(vector org, float lim, vector m1)
247 if (WETFEET(org + eZ * (lim - org.z)))
251 float RES_min_h = org.z;
252 float RES_max_h = lim;
254 org.z = 0.5 * (RES_min_h + RES_max_h);
259 } while (RES_max_h - RES_min_h >= 1);
264 #define RESURFACE_LIMITED(org, lim) org = resurface_limited(org, lim, m1)
267 #define NAV_SWIM_ONWATER 1
268 #define NAV_SWIM_UNDERWATER 2
270 // rough simulation of walking from one point to another to test if a path
271 // can be traveled, used for waypoint linking and havocbot
272 // if end_height is > 0 destination is any point in the vertical segment [end, end + end_height * eZ]
273 // INFO: the command sv_cmd trace walk is useful to test this function in game
274 bool tracewalk(entity e, vector start, vector m1, vector m2, vector end, float end_height, float movemode)
276 if(autocvar_bot_debug_tracewalk)
283 vector flatdir = end - start;
285 float flatdist = vlen(flatdir);
286 flatdir = normalize(flatdir);
288 bool ignorehazards = false;
291 // Analyze starting point
293 ignorehazards = true;
295 tracebox(start, m1, m2, start, MOVE_NOMONSTERS, e);
296 if (trace_startsolid)
299 if(autocvar_bot_debug_tracewalk)
300 debugnodestatus(start, DEBUG_NODE_FAIL);
302 //print("tracewalk: ", vtos(start), " is a bad start\n");
308 end2.z += end_height;
310 vector fixed_end = end;
313 if (flatdist > 0 && WETFEET(org))
316 nav_action = NAV_SWIM_UNDERWATER;
319 // tracebox down by player's height
320 // useful to know if water level is so low that bot can still walk
321 tracebox(org, m1, m2, org - eZ * (m2.z - m1.z), movemode, e);
322 if (SUBMERGED(trace_endpos))
325 nav_action = NAV_SWIM_UNDERWATER;
328 nav_action = NAV_WALK;
332 nav_action = NAV_WALK;
340 if (org.z > end2.z + 1)
342 tracebox(org, m1, m2, end2, movemode, e);
344 if (org.z > end2.z + 1)
347 else if (org.z < end.z - 1)
349 tracebox(org, m1, m2, org - jumpheight_vec, movemode, e);
350 if (SUBMERGED(trace_endpos))
352 vector v = trace_endpos;
353 tracebox(v, m1, m2, end, movemode, e);
354 if(trace_endpos.z >= end.z - 1)
356 RESURFACE_LIMITED(v, trace_endpos.z);
360 else if (trace_endpos.z > org.z - jumpheight_vec.z)
361 tracebox(trace_endpos, m1, m2, trace_endpos + jumpheight_vec, movemode, e);
363 if (org.z < end.z - 1)
370 if(autocvar_bot_debug_tracewalk)
373 debugnodestatus(org, DEBUG_NODE_SUCCESS);
376 //print("tracewalk: ", vtos(start), " can reach ", vtos(end), "\n");
381 if(autocvar_bot_debug_tracewalk)
387 if (stepdist > flatdist)
389 if(nav_action == NAV_SWIM_UNDERWATER || (nav_action == NAV_SWIM_ONWATER && org.z > end2.z))
391 // can't use movement direction here to calculate move because of
392 // precision errors especially when direction has a high enough z value
393 //water_dir = normalize(water_end - org);
394 //move = org + water_dir * stepdist;
395 fixed_end.z = bound(end.z, org.z, end2.z);
396 if (stepdist == flatdist) {
400 move = org + (fixed_end - org) * (stepdist / flatdist);
401 flatdist = vlen(vec2(fixed_end - move));
404 else // horiz. direction
406 flatdist -= stepdist;
407 move = org + flatdir * stepdist;
410 if(nav_action == NAV_SWIM_ONWATER)
412 tracebox(org, m1, m2, move, movemode, e); // swim
415 if (trace_fraction < 1)
418 tracebox(org + stepheightvec, m1, m2, move + stepheightvec, movemode, e);
420 if (trace_fraction < 1 || trace_startsolid) // can't jump obstacle out of water
423 if(navigation_checkladders(e, org, m1, m2, end, end2, movemode))
425 if(autocvar_bot_debug_tracewalk)
428 debugnodestatus(org, DEBUG_NODE_SUCCESS);
431 //print("tracewalk: ", vtos(start), " can reach ", vtos(end), "\n");
435 if(autocvar_bot_debug_tracewalk)
436 debugnodestatus(org, DEBUG_NODE_FAIL);
439 //print("tracewalk: ", vtos(start), " hit something when trying to reach ", vtos(end), "\n");
450 if (org.z <= move.z) // going horiz.
452 tracebox(trace_endpos, m1, m2, move, movemode, e);
454 nav_action = NAV_WALK;
459 if (org.z <= move.z) // going horiz.
462 nav_action = NAV_SWIM_ONWATER;
468 nav_action = NAV_SWIM_UNDERWATER;
470 nav_action = NAV_SWIM_ONWATER;
473 else if(nav_action == NAV_SWIM_UNDERWATER)
475 if (move.z >= org.z) // swimming upwards or horiz.
477 tracebox(org, m1, m2, move, movemode, e); // swim
479 bool stepswum = false;
482 if (trace_fraction < 1)
485 vector stepswim_move = move + stepheightvec;
486 if (flatdist > 0 && stepswim_move.z > end2.z + stepheightvec.z) // don't allow stepswim to go higher than destination
487 stepswim_move.z = end2.z;
489 tracebox(org + stepheightvec, m1, m2, stepswim_move, movemode, e);
492 if (trace_startsolid)
494 if(autocvar_bot_debug_tracewalk)
495 debugnodestatus(org, DEBUG_NODE_FAIL);
497 //print("tracewalk: ", vtos(start), " hit something when trying to reach ", vtos(end), "\n");
501 if (trace_fraction < 1)
503 float org_z_prev = org.z;
504 RESURFACE_LIMITED(org, end2.z);
505 if(org.z == org_z_prev)
507 if(autocvar_bot_debug_tracewalk)
508 debugnodestatus(org, DEBUG_NODE_FAIL);
510 //print("tracewalk: ", vtos(start), " can't reach ", vtos(end), "\n");
514 nav_action = NAV_SWIM_UNDERWATER;
516 nav_action = NAV_SWIM_ONWATER;
518 // we didn't advance horiz. in this step, flatdist decrease should be reverted
519 // but we can't do it properly right now... apply this workaround instead
537 if (!WETFEET(trace_endpos))
539 tracebox(trace_endpos, m1, m2, trace_endpos - eZ * (stepdist + (m2.z - m1.z)), movemode, e);
540 // if stepswum we'll land on the obstacle, avoid the SUBMERGED check
541 if (!stepswum && SUBMERGED(trace_endpos))
543 RESURFACE_LIMITED(trace_endpos, end2.z);
545 nav_action = NAV_SWIM_ONWATER;
551 nav_action = NAV_WALK;
557 nav_action = NAV_SWIM_UNDERWATER;
560 else //if (move.z < org.z) // swimming downwards
562 tracebox(org, m1, m2, move, movemode, e); // swim
565 if (trace_fraction < 1)
568 tracebox(org + stepheightvec, m1, m2, move + stepheightvec, movemode, e);
571 if (trace_fraction < 1 || trace_startsolid) // can't jump obstacle out of water
573 if(autocvar_bot_debug_tracewalk)
574 debugnodestatus(move, DEBUG_NODE_FAIL);
576 //print("tracewalk: ", vtos(start), " hit something when trying to reach ", vtos(end), "\n");
588 if (trace_endpos.z > org.z && !SUBMERGED(trace_endpos))
590 // stepswim caused upwards direction
591 tracebox(trace_endpos, m1, m2, trace_endpos - stepheightvec, movemode, e);
592 if (!SUBMERGED(trace_endpos))
595 nav_action = NAV_WALK;
602 nav_action = NAV_SWIM_UNDERWATER;
606 else if(nav_action == NAV_WALK)
609 tracebox(org, m1, m2, move, movemode, e);
611 if(autocvar_bot_debug_tracewalk)
612 debugnode(e, trace_endpos);
615 if (trace_fraction < 1)
617 // check if we can walk over this obstacle, possibly by jumpstepping
618 tracebox(org + stepheightvec, m1, m2, move + stepheightvec, movemode, e);
619 if (trace_fraction < 1 || trace_startsolid)
621 if (trace_startsolid) // hit ceiling above org
623 // reduce stepwalk height
624 tracebox(org, m1, m2, org + stepheightvec, movemode, e);
625 tracebox(trace_endpos, m1, m2, move + eZ * (trace_endpos.z - move.z), movemode, e);
627 else //if (trace_fraction < 1)
629 tracebox(org + jumpstepheightvec, m1, m2, move + jumpstepheightvec, movemode, e);
630 if (trace_startsolid) // hit ceiling above org
632 // reduce jumpstepwalk height
633 tracebox(org, m1, m2, org + jumpstepheightvec, movemode, e);
634 tracebox(trace_endpos, m1, m2, move + eZ * (trace_endpos.z - move.z), movemode, e);
638 if (trace_fraction < 1)
640 vector v = trace_endpos;
641 v.z = org.z + jumpheight_vec.z;
642 if(navigation_checkladders(e, v, m1, m2, end, end2, movemode))
644 if(autocvar_bot_debug_tracewalk)
647 debugnodestatus(v, DEBUG_NODE_SUCCESS);
650 //print("tracewalk: ", vtos(start), " can reach ", vtos(end), "\n");
654 if(autocvar_bot_debug_tracewalk)
655 debugnodestatus(trace_endpos, DEBUG_NODE_WARNING);
657 traceline( org, move, movemode, e);
659 if ( trace_ent.classname == "door_rotating" || trace_ent.classname == "door")
663 while(trace_ent.classname == "door_rotating" || trace_ent.classname == "door")
665 nextmove = move + (flatdir * stepdist);
666 traceline( move, nextmove, movemode, e);
669 flatdist = vlen(vec2(end - move));
673 if(autocvar_bot_debug_tracewalk)
674 debugnodestatus(trace_endpos, DEBUG_NODE_FAIL);
676 //print("tracewalk: ", vtos(start), " hit something when trying to reach ", vtos(end), "\n");
677 //te_explosion(trace_endpos);
678 //print(ftos(e.dphitcontentsmask), "\n");
679 return false; // failed
691 // trace down from stepheight as far as possible and move there,
692 // if this starts in solid we try again without the stepup, and
693 // if that also fails we assume it is a wall
694 // (this is the same logic as the Quake walkmove function used)
695 tracebox(move, m1, m2, move + '0 0 -65536', movemode, e);
703 if(autocvar_bot_debug_tracewalk)
705 debugnode(e, trace_endpos);
706 debugnodestatus(org, DEBUG_NODE_FAIL);
709 //print("tracewalk: ", vtos(start), " hits a hazard when trying to reach ", vtos(end), "\n");
716 if(move.z >= end2.z && org.z < end2.z)
721 if(org.z > move.z - 1 || !SUBMERGED(org))
723 nav_action = NAV_WALK;
727 // ended up submerged while walking
728 if(autocvar_bot_debug_tracewalk)
731 RESURFACE_LIMITED(org, move.z);
732 nav_action = NAV_SWIM_ONWATER;
737 //print("tracewalk: ", vtos(start), " did not arrive at ", vtos(end), " but at ", vtos(org), "\n");
739 // moved but didn't arrive at the intended destination
740 if(autocvar_bot_debug_tracewalk)
741 debugnodestatus(org, DEBUG_NODE_FAIL);
746 /////////////////////////////////////////////////////////////////////////////
748 /////////////////////////////////////////////////////////////////////////////
750 // completely empty the goal stack, used when deciding where to go
751 void navigation_clearroute(entity this)
753 this.lastteleporttime = 0;
754 this.goalcurrent_prev = this.goalcurrent;
755 this.goalcurrent_distance_2d = FLOAT_MAX;
756 this.goalcurrent_distance_z = FLOAT_MAX;
757 this.goalcurrent_distance_time = 0;
758 this.goalentity_lock_timeout = 0;
759 this.goalentity_shouldbefrozen = false;
760 this.goalentity = NULL;
761 this.goalcurrent = NULL;
762 this.goalstack01 = NULL;
763 this.goalstack02 = NULL;
764 this.goalstack03 = NULL;
765 this.goalstack04 = NULL;
766 this.goalstack05 = NULL;
767 this.goalstack06 = NULL;
768 this.goalstack07 = NULL;
769 this.goalstack08 = NULL;
770 this.goalstack09 = NULL;
771 this.goalstack10 = NULL;
772 this.goalstack11 = NULL;
773 this.goalstack12 = NULL;
774 this.goalstack13 = NULL;
775 this.goalstack14 = NULL;
776 this.goalstack15 = NULL;
777 this.goalstack16 = NULL;
778 this.goalstack17 = NULL;
779 this.goalstack18 = NULL;
780 this.goalstack19 = NULL;
781 this.goalstack20 = NULL;
782 this.goalstack21 = NULL;
783 this.goalstack22 = NULL;
784 this.goalstack23 = NULL;
785 this.goalstack24 = NULL;
786 this.goalstack25 = NULL;
787 this.goalstack26 = NULL;
788 this.goalstack27 = NULL;
789 this.goalstack28 = NULL;
790 this.goalstack29 = NULL;
791 this.goalstack30 = NULL;
792 this.goalstack31 = NULL;
795 // add a new goal at the beginning of the stack
796 // (in other words: add a new prerequisite before going to the later goals)
797 // NOTE: when a waypoint is added, the WP gets pushed first, then the
798 // next-closest WP on the shortest path to the WP
799 // That means, if the stack overflows, the bot will know how to do the FIRST 32
800 // steps to the goal, and then recalculate the path.
801 void navigation_pushroute(entity this, entity e)
803 this.goalcurrent_prev = this.goalcurrent;
804 this.goalcurrent_distance_2d = FLOAT_MAX;
805 this.goalcurrent_distance_z = FLOAT_MAX;
806 this.goalcurrent_distance_time = 0;
807 //print("bot ", etos(this), " push ", etos(e), "\n");
808 if(this.goalstack31 == this.goalentity)
809 this.goalentity = NULL;
810 this.goalstack31 = this.goalstack30;
811 this.goalstack30 = this.goalstack29;
812 this.goalstack29 = this.goalstack28;
813 this.goalstack28 = this.goalstack27;
814 this.goalstack27 = this.goalstack26;
815 this.goalstack26 = this.goalstack25;
816 this.goalstack25 = this.goalstack24;
817 this.goalstack24 = this.goalstack23;
818 this.goalstack23 = this.goalstack22;
819 this.goalstack22 = this.goalstack21;
820 this.goalstack21 = this.goalstack20;
821 this.goalstack20 = this.goalstack19;
822 this.goalstack19 = this.goalstack18;
823 this.goalstack18 = this.goalstack17;
824 this.goalstack17 = this.goalstack16;
825 this.goalstack16 = this.goalstack15;
826 this.goalstack15 = this.goalstack14;
827 this.goalstack14 = this.goalstack13;
828 this.goalstack13 = this.goalstack12;
829 this.goalstack12 = this.goalstack11;
830 this.goalstack11 = this.goalstack10;
831 this.goalstack10 = this.goalstack09;
832 this.goalstack09 = this.goalstack08;
833 this.goalstack08 = this.goalstack07;
834 this.goalstack07 = this.goalstack06;
835 this.goalstack06 = this.goalstack05;
836 this.goalstack05 = this.goalstack04;
837 this.goalstack04 = this.goalstack03;
838 this.goalstack03 = this.goalstack02;
839 this.goalstack02 = this.goalstack01;
840 this.goalstack01 = this.goalcurrent;
841 this.goalcurrent = e;
844 // remove first goal from stack
845 // (in other words: remove a prerequisite for reaching the later goals)
846 // (used when a spawnfunc_waypoint is reached)
847 void navigation_poproute(entity this)
849 this.goalcurrent_prev = this.goalcurrent;
850 this.goalcurrent_distance_2d = FLOAT_MAX;
851 this.goalcurrent_distance_z = FLOAT_MAX;
852 this.goalcurrent_distance_time = 0;
853 //print("bot ", etos(this), " pop\n");
854 if(this.goalcurrent == this.goalentity)
856 this.goalentity = NULL;
857 this.goalentity_lock_timeout = 0;
859 this.goalcurrent = this.goalstack01;
860 this.goalstack01 = this.goalstack02;
861 this.goalstack02 = this.goalstack03;
862 this.goalstack03 = this.goalstack04;
863 this.goalstack04 = this.goalstack05;
864 this.goalstack05 = this.goalstack06;
865 this.goalstack06 = this.goalstack07;
866 this.goalstack07 = this.goalstack08;
867 this.goalstack08 = this.goalstack09;
868 this.goalstack09 = this.goalstack10;
869 this.goalstack10 = this.goalstack11;
870 this.goalstack11 = this.goalstack12;
871 this.goalstack12 = this.goalstack13;
872 this.goalstack13 = this.goalstack14;
873 this.goalstack14 = this.goalstack15;
874 this.goalstack15 = this.goalstack16;
875 this.goalstack16 = this.goalstack17;
876 this.goalstack17 = this.goalstack18;
877 this.goalstack18 = this.goalstack19;
878 this.goalstack19 = this.goalstack20;
879 this.goalstack20 = this.goalstack21;
880 this.goalstack21 = this.goalstack22;
881 this.goalstack22 = this.goalstack23;
882 this.goalstack23 = this.goalstack24;
883 this.goalstack24 = this.goalstack25;
884 this.goalstack25 = this.goalstack26;
885 this.goalstack26 = this.goalstack27;
886 this.goalstack27 = this.goalstack28;
887 this.goalstack28 = this.goalstack29;
888 this.goalstack29 = this.goalstack30;
889 this.goalstack30 = this.goalstack31;
890 this.goalstack31 = NULL;
893 // walking to wp (walkfromwp == false) v2 and v2_height will be used as
894 // waypoint destination coordinates instead of v (only useful for box waypoints)
895 // for normal waypoints v2 == v and v2_height == 0
896 float navigation_waypoint_will_link(vector v, vector org, entity ent, vector v2, float v2_height, vector o2, float o2_height, float walkfromwp, float bestdist)
898 if (vdist(v - org, <, bestdist))
900 traceline(v, org, true, ent);
901 if (trace_fraction == 1)
905 if (tracewalk(ent, v, PL_MIN_CONST, PL_MAX_CONST, v2, v2_height, bot_navigation_movemode))
910 if (tracewalk(ent, org, PL_MIN_CONST, PL_MAX_CONST, o2, o2_height, bot_navigation_movemode))
918 // find the spawnfunc_waypoint near a dynamic goal such as a dropped weapon
919 entity navigation_findnearestwaypoint_withdist_except(entity ent, float walkfromwp, float bestdist, entity except)
922 ent = ent.tag_entity;
924 vector pm1 = ent.origin + ent.mins;
925 vector pm2 = ent.origin + ent.maxs;
927 if (autocvar_g_waypointeditor && !IS_BOT_CLIENT(ent))
929 // this code allows removing waypoints in the air and seeing jumppad/telepport waypoint links
930 // FIXME it causes a bug where a waypoint spawned really close to another one (max 16 qu)
931 // isn't detected as the nearest waypoint
932 IL_EACH(g_waypoints, it != ent && it != except,
934 if (boxesoverlap(pm1, pm2, it.absmin, it.absmax))
940 // do two scans, because box test is cheaper
941 IL_EACH(g_waypoints, it != ent && it != except && !(it.wpflags & (WAYPOINTFLAG_TELEPORT | WAYPOINTFLAG_JUMP)),
943 if(boxesoverlap(pm1, pm2, it.absmin, it.absmax))
945 if(walkfromwp && !ent.navigation_dynamicgoal)
947 waypoint_clearlinks(ent); // initialize wpXXmincost fields
948 navigation_item_addlink(it, ent);
955 vector org = ent.origin;
956 if (navigation_testtracewalk)
962 if(ent.size && !IS_PLAYER(ent))
964 org += 0.5 * (ent.mins + ent.maxs);
965 org.z = ent.origin.z + ent.mins.z - PL_MIN_CONST.z; // player height
968 if(!autocvar_g_waypointeditor && walkfromwp && !ent.navigation_dynamicgoal)
970 waypoint_clearlinks(ent); // initialize wpXXmincost fields
971 IL_EACH(g_waypoints, it != ent,
973 if (walkfromwp && (it.wpflags & WPFLAGMASK_NORELINK))
976 set_tracewalk_dest(ent, it.origin, false);
977 if (vdist(tracewalk_dest - it.origin, <, 1050)
978 && tracewalk(ent, it.origin, PL_MIN_CONST, PL_MAX_CONST,
979 tracewalk_dest, tracewalk_dest_height, bot_navigation_movemode))
981 navigation_item_addlink(it, ent);
986 // box check failed, try walk
987 IL_EACH(g_waypoints, it != ent,
989 if (walkfromwp && (it.wpflags & WPFLAGMASK_NORELINK))
995 set_tracewalk_dest(ent, v, true);
996 if (trace_ent == ent)
1004 set_tracewalk_dest(it, org, false);
1006 if (navigation_waypoint_will_link(v, org, ent,
1007 tracewalk_dest, tracewalk_dest_height,
1008 tracewalk_dest, tracewalk_dest_height, walkfromwp, bestdist))
1011 bestdist = vlen(tracewalk_dest - v);
1013 bestdist = vlen(v - org);
1017 if(!best && !ent.navigation_dynamicgoal)
1019 int solid_save = ent.solid;
1020 ent.solid = SOLID_BSP;
1021 IL_EACH(g_jumppads, true,
1023 if(trigger_push_test(it, ent))
1025 best = it.nearestwaypoint;
1029 ent.solid = solid_save;
1033 entity navigation_findnearestwaypoint(entity ent, float walkfromwp)
1035 entity wp = navigation_findnearestwaypoint_withdist_except(ent, walkfromwp, 1050, NULL);
1036 if (autocvar_g_waypointeditor_auto)
1038 entity wp2 = navigation_findnearestwaypoint_withdist_except(ent, walkfromwp, 1050, wp);
1040 wp.wpflags |= WAYPOINTFLAG_PROTECTED;
1045 // finds the waypoints near the bot initiating a navigation query
1046 float navigation_markroutes_nearestwaypoints(entity this, float maxdist)
1048 //navigation_testtracewalk = true;
1050 IL_EACH(g_waypoints, !it.wpconsidered,
1052 set_tracewalk_dest(it, this.origin, false);
1054 vector diff = tracewalk_dest - this.origin;
1055 diff.z = max(0, diff.z);
1056 if(vdist(diff, <, maxdist))
1058 it.wpconsidered = true;
1059 if (tracewalk(this, this.origin, this.mins, this.maxs,
1060 tracewalk_dest, tracewalk_dest_height, bot_navigation_movemode))
1062 it.wpnearestpoint = tracewalk_dest;
1063 it.wpcost = waypoint_gettravelcost(this.origin, tracewalk_dest, this, it) + it.dmg;
1070 //navigation_testtracewalk = false;
1074 // updates a path link if a spawnfunc_waypoint link is better than the current one
1075 void navigation_markroutes_checkwaypoint(entity w, entity wp, float cost, vector p)
1081 m1 = wp.origin + wp.mins;
1082 m2 = wp.origin + wp.maxs;
1083 v.x = bound(m1_x, p.x, m2_x);
1084 v.y = bound(m1_y, p.y, m2_y);
1085 v.z = bound(m1_z, p.z, m2_z);
1089 if (w.wpflags & WAYPOINTFLAG_TELEPORT)
1090 cost += w.wp00mincost; // assuming teleport has exactly one destination
1092 cost += waypoint_gettravelcost(p, v, w, wp);
1093 if (wp.wpcost > cost)
1098 wp.wpnearestpoint = v;
1102 // queries the entire spawnfunc_waypoint network for pathes leading away from the bot
1103 void navigation_markroutes(entity this, entity fixed_source_waypoint)
1108 IL_EACH(g_waypoints, true,
1110 it.wpconsidered = false;
1111 it.wpnearestpoint = '0 0 0';
1112 it.wpcost = 10000000;
1117 if(fixed_source_waypoint)
1119 fixed_source_waypoint.wpconsidered = true;
1120 fixed_source_waypoint.wpnearestpoint = fixed_source_waypoint.origin + 0.5 * (fixed_source_waypoint.mins + fixed_source_waypoint.maxs);
1121 fixed_source_waypoint.wpcost = fixed_source_waypoint.dmg;
1122 fixed_source_waypoint.wpfire = 1;
1123 fixed_source_waypoint.enemy = NULL;
1127 // try a short range search for the nearest waypoints, and expand the search repeatedly if none are found
1128 // as this search is expensive we will use lower values if the bot is on the air
1129 float increment, maxdistance;
1130 if(IS_ONGROUND(this))
1133 maxdistance = 50000;
1141 for(int j = increment; !navigation_markroutes_nearestwaypoints(this, j) && j < maxdistance; j += increment);
1144 bool searching = true;
1148 IL_EACH(g_waypoints, it.wpfire,
1153 p = it.wpnearestpoint;
1155 wp = it.wp00;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp00mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1156 wp = it.wp01;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp01mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1157 wp = it.wp02;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp02mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1158 wp = it.wp03;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp03mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1159 wp = it.wp04;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp04mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1160 wp = it.wp05;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp05mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1161 wp = it.wp06;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp06mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1162 wp = it.wp07;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp07mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1163 wp = it.wp08;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp08mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1164 wp = it.wp09;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp09mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1165 wp = it.wp10;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp10mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1166 wp = it.wp11;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp11mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1167 wp = it.wp12;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp12mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1168 wp = it.wp13;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp13mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1169 wp = it.wp14;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp14mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1170 wp = it.wp15;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp15mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1171 wp = it.wp16;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp16mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1172 wp = it.wp17;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp17mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1173 wp = it.wp18;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp18mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1174 wp = it.wp19;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp19mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1175 wp = it.wp20;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp20mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1176 wp = it.wp21;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp21mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1177 wp = it.wp22;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp22mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1178 wp = it.wp23;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp23mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1179 wp = it.wp24;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp24mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1180 wp = it.wp25;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp25mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1181 wp = it.wp26;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp26mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1182 wp = it.wp27;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp27mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1183 wp = it.wp28;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp28mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1184 wp = it.wp29;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp29mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1185 wp = it.wp30;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp30mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1186 wp = it.wp31;if (wp){cost2 = cost + wp.dmg;if (wp.wpcost > cost2 + it.wp31mincost) navigation_markroutes_checkwaypoint(it, wp, cost2, p);
1187 }}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}
1192 // queries the entire spawnfunc_waypoint network for pathes leading to the bot
1193 void navigation_markroutes_inverted(entity fixed_source_waypoint)
1197 IL_EACH(g_waypoints, true,
1199 it.wpconsidered = false;
1200 it.wpnearestpoint = '0 0 0';
1201 it.wpcost = 10000000;
1206 if(fixed_source_waypoint)
1208 fixed_source_waypoint.wpconsidered = true;
1209 fixed_source_waypoint.wpnearestpoint = fixed_source_waypoint.origin + 0.5 * (fixed_source_waypoint.mins + fixed_source_waypoint.maxs);
1210 fixed_source_waypoint.wpcost = fixed_source_waypoint.dmg; // the cost to get from X to fixed_source_waypoint
1211 fixed_source_waypoint.wpfire = 1;
1212 fixed_source_waypoint.enemy = NULL;
1216 error("need to start with a waypoint\n");
1219 bool searching = true;
1223 IL_EACH(g_waypoints, it.wpfire,
1227 cost = it.wpcost; // cost to walk from it to home
1228 p = it.wpnearestpoint;
1230 IL_EACH(g_waypoints, it != wp,
1232 if(!waypoint_islinked(it, wp))
1234 cost2 = cost + it.dmg;
1235 navigation_markroutes_checkwaypoint(wp, it, cost2, p);
1241 // updates the best goal according to a weighted calculation of travel cost and item value of a new proposed item
1242 void navigation_routerating(entity this, entity e, float f, float rangebias)
1244 if (!e || e.blacklisted) { return; }
1246 rangebias = waypoint_getlinearcost(rangebias);
1247 f = waypoint_getlinearcost(f);
1251 bool rate_wps = false;
1252 if (e.watertype < CONTENT_WATER || (e.waterlevel > WATERLEVEL_WETFEET && !STAT(FROZEN, e))
1253 || (e.flags & FL_PARTIALGROUND))
1260 traceline(e.origin, e.origin + '0 0 -1500', true, NULL);
1261 int t = pointcontents(trace_endpos + '0 0 1');
1262 if(t != CONTENT_SOLID )
1264 if(t == CONTENT_WATER || t == CONTENT_SLIME || t == CONTENT_LAVA)
1266 else if(tracebox_hits_trigger_hurt(e.origin, e.mins, e.maxs, trace_endpos))
1273 entity theEnemy = e;
1274 entity best_wp = NULL;
1275 float best_dist = FLOAT_MAX;
1276 IL_EACH(g_waypoints, !(it.wpflags & WAYPOINTFLAG_TELEPORT)
1277 && vdist(it.origin - theEnemy.origin, <, 500)
1278 && vdist(it.origin - this.origin, >, 100)
1279 && vdist(it.origin - this.origin, <, 10000),
1281 float dist = vlen2(it.origin - theEnemy.origin);
1282 if (dist < best_dist)
1294 vector goal_org = (e.absmin + e.absmax) * 0.5;
1296 //print("routerating ", etos(e), " = ", ftos(f), " - ", ftos(rangebias), "\n");
1298 // Evaluate path using jetpack
1299 if(this.items & IT_JETPACK)
1300 if(autocvar_bot_ai_navigation_jetpack)
1301 if(vdist(this.origin - goal_org, >, autocvar_bot_ai_navigation_jetpack_mindistance))
1303 vector pointa, pointb;
1305 LOG_DEBUG("jetpack ai: evaluating path for ", e.classname);
1308 traceline(this.origin, this.origin + '0 0 65535', MOVE_NORMAL, this);
1309 pointa = trace_endpos - '0 0 1';
1312 traceline(goal_org, goal_org + '0 0 65535', MOVE_NORMAL, e);
1313 pointb = trace_endpos - '0 0 1';
1315 // Can I see these two points from the sky?
1316 traceline(pointa, pointb, MOVE_NORMAL, this);
1318 if(trace_fraction==1)
1320 LOG_DEBUG("jetpack ai: can bridge these two points");
1322 // Lower the altitude of these points as much as possible
1323 float zdistance, xydistance, cost, t, fuel;
1324 vector down, npa, npb;
1326 down = '0 0 -1' * (STAT(PL_MAX, this).z - STAT(PL_MIN, this).z) * 10;
1329 npa = pointa + down;
1330 npb = pointb + down;
1332 if(npa.z<=this.absmax.z)
1335 if(npb.z<=e.absmax.z)
1338 traceline(npa, npb, MOVE_NORMAL, this);
1339 if(trace_fraction==1)
1345 while(trace_fraction == 1);
1348 // Rough estimation of fuel consumption
1349 // (ignores acceleration and current xyz velocity)
1350 xydistance = vlen(pointa - pointb);
1351 zdistance = fabs(pointa.z - this.origin.z);
1353 t = zdistance / autocvar_g_jetpack_maxspeed_up;
1354 t += xydistance / autocvar_g_jetpack_maxspeed_side;
1355 fuel = t * autocvar_g_jetpack_fuel * 0.8;
1357 LOG_DEBUG("jetpack ai: required fuel ", ftos(fuel), ", have ", ftos(GetResource(this, RES_FUEL)));
1360 if(GetResource(this, RES_FUEL) > fuel || (this.items & IT_UNLIMITED_AMMO))
1363 // (as onground costs calculation is mostly based on distances, here we do the same establishing some relationship
1364 // - between air and ground speeds)
1366 cost = xydistance / (autocvar_g_jetpack_maxspeed_side/autocvar_sv_maxspeed);
1367 cost += zdistance / (autocvar_g_jetpack_maxspeed_up/autocvar_sv_maxspeed);
1370 // Compare against other goals
1371 f = f * rangebias / (rangebias + cost);
1373 if (navigation_bestrating < f)
1375 LOG_DEBUG("jetpack path: added goal ", e.classname, " (with rating ", ftos(f), ")");
1376 navigation_bestrating = f;
1377 navigation_bestgoal = e;
1378 this.navigation_jetpack_goal = e;
1379 this.navigation_jetpack_point = pointb;
1387 //te_wizspike(e.origin);
1390 // update the cached spawnfunc_waypoint link on a dynamic item entity
1391 if(e.classname == "waypoint" && !(e.wpflags & WAYPOINTFLAG_PERSONAL))
1397 if(autocvar_g_waypointeditor && e.nearestwaypointtimeout >= 0 && time > e.nearestwaypointtimeout)
1398 e.nearestwaypoint = NULL;
1400 if ((!e.nearestwaypoint || e.navigation_dynamicgoal)
1401 && e.nearestwaypointtimeout >= 0 && time > e.nearestwaypointtimeout)
1403 if(IS_BOT_CLIENT(e) && e.goalcurrent && e.goalcurrent.classname == "waypoint")
1404 e.nearestwaypoint = nwp = e.goalcurrent;
1406 e.nearestwaypoint = nwp = navigation_findnearestwaypoint(e, true);
1409 LOG_DEBUG("FAILED to find a nearest waypoint to '", e.classname, "' #", etos(e));
1411 if(!e.navigation_dynamicgoal)
1412 e.blacklisted = true;
1416 LOG_DEBUG("The entity '", e.classname, "' is going to be excluded from path finding during this match");
1421 if(e.navigation_dynamicgoal)
1422 e.nearestwaypointtimeout = time + 2;
1423 else if(autocvar_g_waypointeditor)
1424 e.nearestwaypointtimeout = time + 3 + random() * 2;
1426 nwp = e.nearestwaypoint;
1429 if (nwp && nwp.wpcost < 10000000)
1431 //te_wizspike(nwp.wpnearestpoint);
1432 float nwptoitem_cost = 0;
1433 if(nwp.wpflags & WAYPOINTFLAG_TELEPORT)
1434 nwptoitem_cost = nwp.wp00mincost;
1436 nwptoitem_cost = waypoint_gettravelcost(nwp.wpnearestpoint, goal_org, nwp, e);
1437 float cost = nwp.wpcost + nwptoitem_cost;
1438 LOG_DEBUG("checking ^5", e.classname, "^7 with base rating ^xf04", ftos(f), "^7 and rangebias ^xf40", ftos(rangebias));
1439 f = f * rangebias / (rangebias + cost);
1440 LOG_DEBUG(" ^5", e.classname, "^7 with cost ^6", ftos(cost), "^7 and final rating ^2", ftos(f));
1441 if (navigation_bestrating < f)
1443 LOG_DEBUG(" ground path: ^3added goal ^5", e.classname);
1444 navigation_bestrating = f;
1445 navigation_bestgoal = e;
1450 // adds an item to the the goal stack with the path to a given item
1451 bool navigation_routetogoal(entity this, entity e, vector startposition)
1453 // if there is no goal, just exit
1457 entity teleport_goal = NULL;
1459 this.goalentity = e;
1461 if(e.wpflags & WAYPOINTFLAG_TELEPORT)
1463 // force teleport destination as route destination
1465 navigation_pushroute(this, e.wp00);
1466 this.goalentity = e.wp00;
1469 // put the entity on the goal stack
1470 //print("routetogoal ", etos(e), "\n");
1471 navigation_pushroute(this, e);
1474 e = this.goalentity;
1476 if(e.classname == "waypoint" && !(e.wpflags & WAYPOINTFLAG_PERSONAL))
1478 this.wp_goal_prev1 = this.wp_goal_prev0;
1479 this.wp_goal_prev0 = e;
1483 if(e==this.navigation_jetpack_goal)
1486 // if it can reach the goal there is nothing more to do
1487 set_tracewalk_dest(e, startposition, true);
1488 if ((!IS_MOVABLE(this.goalcurrent) || vdist(tracewalk_dest - this.origin, <, MAX_CHASE_DISTANCE))
1489 && (trace_ent == this || tracewalk(this, startposition, STAT(PL_MIN, this), STAT(PL_MAX, this),
1490 tracewalk_dest, tracewalk_dest_height, bot_navigation_movemode)))
1495 entity nearest_wp = NULL;
1496 // see if there are waypoints describing a path to the item
1497 if(e.classname != "waypoint" || (e.wpflags & WAYPOINTFLAG_PERSONAL))
1499 e = e.nearestwaypoint;
1502 else if(teleport_goal)
1505 e = e.enemy; // we already have added it, so...
1510 if(nearest_wp && nearest_wp.enemy)
1512 // often path can be optimized by not adding the nearest waypoint
1513 if (this.goalentity.navigation_dynamicgoal || autocvar_g_waypointeditor)
1515 if (nearest_wp.enemy.wpcost < autocvar_bot_ai_strategyinterval_movingtarget)
1517 if (vdist(vec2(this.goalentity.origin - nearest_wp.origin), <, 32))
1518 e = nearest_wp.enemy;
1521 set_tracewalk_dest(this.goalentity, nearest_wp.enemy.origin, true);
1522 if (trace_ent == this || (vdist(tracewalk_dest - nearest_wp.enemy.origin, <, 1050)
1523 && vlen2(tracewalk_dest - nearest_wp.enemy.origin) < vlen2(nearest_wp.origin - nearest_wp.enemy.origin)
1524 && tracewalk(this, nearest_wp.enemy.origin, STAT(PL_MIN, this), STAT(PL_MAX, this),
1525 tracewalk_dest, tracewalk_dest_height, bot_navigation_movemode)))
1527 e = nearest_wp.enemy;
1532 else if(navigation_item_islinked(nearest_wp.enemy, this.goalentity))
1533 e = nearest_wp.enemy;
1538 // add the spawnfunc_waypoint to the path
1539 navigation_pushroute(this, e);
1549 // shorten path by removing intermediate goals
1550 bool navigation_shortenpath(entity this)
1552 if (!this.goalstack01 || wasfreed(this.goalstack01))
1554 if (this.bot_tracewalk_time > time)
1556 this.bot_tracewalk_time = max(time, this.bot_tracewalk_time) + 0.25;
1558 bool cut_allowed = false;
1559 entity next = this.goalentity;
1560 // evaluate whether bot can discard current route and chase directly a player, trying to
1561 // keep waypoint route as long as possible, as it is safer and faster (bot can bunnyhop)
1562 if (IS_MOVABLE(next))
1564 set_tracewalk_dest(next, this.origin, true);
1565 if (vdist(this.origin - tracewalk_dest, <, 200))
1567 else if (vdist(tracewalk_dest - this.origin, <, MAX_CHASE_DISTANCE)
1568 && vdist(tracewalk_dest - this.goalcurrent.origin, >, 200)
1569 && vdist(this.origin - this.goalcurrent.origin, >, 100)
1570 && checkpvs(this.origin + this.view_ofs, next))
1572 if (vlen2(next.origin - this.origin) < vlen2(this.goalcurrent.origin - this.origin))
1576 vector deviation = vectoangles(this.goalcurrent.origin - this.origin) - vectoangles(next.origin - this.origin);
1577 while (deviation.y < -180) deviation.y += 360;
1578 while (deviation.y > 180) deviation.y -= 360;
1579 if (fabs(deviation.y) > 25)
1585 if (trace_ent == this || tracewalk(this, this.origin, this.mins, this.maxs,
1586 tracewalk_dest, tracewalk_dest_height, bot_navigation_movemode))
1588 LOG_DEBUG("path optimized for ", this.netname, ", route cleared");
1591 navigation_poproute(this);
1593 while (this.goalcurrent != next);
1600 next = this.goalstack01;
1601 // if for some reason the bot is closer to the next goal, pop the current one
1602 if (!IS_MOVABLE(next) && !(this.goalcurrent.wpflags & (WAYPOINTFLAG_TELEPORT | WAYPOINTFLAG_JUMP))
1603 && vlen2(this.goalcurrent.origin - next.origin) > vlen2(next.origin - this.origin)
1604 && checkpvs(this.origin + this.view_ofs, next))
1606 set_tracewalk_dest(next, this.origin, true);
1612 if (trace_ent == this || tracewalk(this, this.origin, this.mins, this.maxs,
1613 tracewalk_dest, tracewalk_dest_height, bot_navigation_movemode))
1615 LOG_DEBUG("path optimized for ", this.netname, ", removed a goal from the queue");
1616 navigation_poproute(this);
1623 // removes any currently touching waypoints from the goal stack
1624 // (this is how bots detect if they reached a goal)
1625 int navigation_poptouchedgoals(entity this)
1627 int removed_goals = 0;
1629 if(!this.goalcurrent)
1630 return removed_goals;
1632 if(this.goalcurrent.wpflags & WAYPOINTFLAG_TELEPORT)
1634 if (!this.goalcurrent.wpisbox // warpzone
1635 && vlen2(this.origin - this.goalstack01.origin) < vlen2(this.origin - this.goalcurrent.origin))
1637 // immediately remove origin and destination waypoints
1638 navigation_poproute(this);
1640 navigation_poproute(this);
1642 this.lastteleporttime = 0;
1645 // make sure jumppad is really hit, don't rely on distance based checks
1646 // as they may report a touch even if it didn't really happen
1647 if(this.lastteleporttime > 0 && TELEPORT_USED(this, this.goalcurrent))
1649 if(this.aistatus & AI_STATUS_WAYPOINT_PERSONAL_GOING)
1650 if(this.goalcurrent.wpflags & WAYPOINTFLAG_PERSONAL && this.goalcurrent.owner==this)
1652 this.aistatus &= ~AI_STATUS_WAYPOINT_PERSONAL_GOING;
1653 this.aistatus |= AI_STATUS_WAYPOINT_PERSONAL_REACHED;
1655 if(this.jumppadcount)
1657 // remove jumppad waypoint after a random delay to prevent bots getting
1658 // stuck on certain jumppads that require an extra initial horizontal speed
1659 float max_delay = 0.1;
1660 if (vdist(vec2(this.velocity), >, 2 * autocvar_sv_maxspeed))
1662 if (time - this.lastteleporttime < random() * max_delay)
1663 return removed_goals;
1665 else if (this.goalcurrent.wpisbox) // teleport
1667 // immediately remove origin and destination waypoints
1668 navigation_poproute(this);
1671 navigation_poproute(this);
1672 this.lastteleporttime = 0;
1675 return removed_goals;
1677 else if (this.lastteleporttime > 0)
1679 // sometimes bot is pushed so hard (by a jumppad or a shot) that ends up touching the next
1680 // teleport / jumppad / warpzone present in its path skipping check of one or more goals
1681 // if so immediately fix bot path by removing skipped goals
1682 entity tele_ent = NULL;
1683 if (this.goalstack01 && (this.goalstack01.wpflags & WAYPOINTFLAG_TELEPORT))
1684 tele_ent = this.goalstack01;
1685 else if (this.goalstack02 && (this.goalstack02.wpflags & WAYPOINTFLAG_TELEPORT))
1686 tele_ent = this.goalstack02;
1687 else if (this.goalstack03 && (this.goalstack03.wpflags & WAYPOINTFLAG_TELEPORT))
1688 tele_ent = this.goalstack03;
1689 if (tele_ent && TELEPORT_USED(this, tele_ent))
1691 if (this.aistatus & AI_STATUS_WAYPOINT_PERSONAL_GOING)
1692 if (tele_ent.wpflags & WAYPOINTFLAG_PERSONAL && tele_ent.owner == this)
1694 this.aistatus &= ~AI_STATUS_WAYPOINT_PERSONAL_GOING;
1695 this.aistatus |= AI_STATUS_WAYPOINT_PERSONAL_REACHED;
1697 while (this.goalcurrent != tele_ent)
1699 navigation_poproute(this);
1702 navigation_poproute(this);
1703 this.lastteleporttime = 0;
1705 return removed_goals;
1707 // reset of lastteleporttime can be overriden by a jumppad when it's set
1708 // in more than one frame: make sure it's reset
1709 this.lastteleporttime = 0;
1712 // Loose goal touching check when running
1713 if(this.aistatus & AI_STATUS_RUNNING)
1714 if(this.goalcurrent.classname=="waypoint")
1715 if(vdist(vec2(this.velocity), >=, autocvar_sv_maxspeed)) // if -really- running
1717 if(vdist(this.origin - this.goalcurrent.origin, <, 150))
1719 traceline(this.origin + this.view_ofs , this.goalcurrent.origin, true, NULL);
1720 if(trace_fraction==1)
1722 // Detect personal waypoints
1723 if(this.aistatus & AI_STATUS_WAYPOINT_PERSONAL_GOING)
1724 if(this.goalcurrent.wpflags & WAYPOINTFLAG_PERSONAL && this.goalcurrent.owner==this)
1726 this.aistatus &= ~AI_STATUS_WAYPOINT_PERSONAL_GOING;
1727 this.aistatus |= AI_STATUS_WAYPOINT_PERSONAL_REACHED;
1730 navigation_poproute(this);
1732 if(this.goalcurrent && this.goalcurrent.wpflags & WAYPOINTFLAG_TELEPORT)
1733 return removed_goals;
1738 while (this.goalcurrent && !IS_PLAYER(this.goalcurrent))
1740 vector gc_min = this.goalcurrent.absmin;
1741 vector gc_max = this.goalcurrent.absmax;
1742 if(this.goalcurrent.classname == "waypoint" && !this.goalcurrent.wpisbox)
1744 gc_min = this.goalcurrent.origin - '1 1 1' * 12;
1745 gc_max = this.goalcurrent.origin + '1 1 1' * 12;
1747 if (time < this.ladder_time)
1749 if (!boxesoverlap(this.absmin, this.absmax - eZ * STAT(PL_MAX, this).z, gc_min, gc_max))
1754 if (!boxesoverlap(this.absmin, this.absmax, gc_min, gc_max))
1758 // Detect personal waypoints
1759 if(this.aistatus & AI_STATUS_WAYPOINT_PERSONAL_GOING)
1760 if(this.goalcurrent.wpflags & WAYPOINTFLAG_PERSONAL && this.goalcurrent.owner==this)
1762 this.aistatus &= ~AI_STATUS_WAYPOINT_PERSONAL_GOING;
1763 this.aistatus |= AI_STATUS_WAYPOINT_PERSONAL_REACHED;
1766 navigation_poproute(this);
1768 if(this.goalcurrent && this.goalcurrent.wpflags & WAYPOINTFLAG_TELEPORT)
1769 return removed_goals;
1771 return removed_goals;
1774 entity navigation_get_really_close_waypoint(entity this)
1776 entity wp = this.goalcurrent;
1778 wp = this.goalcurrent_prev;
1781 if(wp != this.goalcurrent_prev && vdist(wp.origin - this.origin, >, 50))
1783 wp = this.goalcurrent_prev;
1787 if(wp.classname != "waypoint")
1789 wp = wp.nearestwaypoint;
1793 if(vdist(wp.origin - this.origin, >, 50))
1796 IL_EACH(g_waypoints, !(it.wpflags & (WAYPOINTFLAG_TELEPORT | WAYPOINTFLAG_JUMP)),
1798 if(vdist(it.origin - this.origin, <, 50))
1807 if(wp.wpflags & WAYPOINTFLAG_TELEPORT)
1810 set_tracewalk_dest(wp, this.origin, false);
1811 if (!tracewalk(this, this.origin, STAT(PL_MIN, this), STAT(PL_MAX, this),
1812 tracewalk_dest, tracewalk_dest_height, bot_navigation_movemode))
1819 // begin a goal selection session (queries spawnfunc_waypoint network)
1820 void navigation_goalrating_start(entity this)
1822 if(this.aistatus & AI_STATUS_STUCK)
1825 this.navigation_jetpack_goal = NULL;
1826 navigation_bestrating = -1;
1827 entity wp = navigation_get_really_close_waypoint(this);
1828 navigation_clearroute(this);
1829 navigation_bestgoal = NULL;
1830 navigation_markroutes(this, wp);
1831 this.goalstack31 = wp; // temporarly save the really close waypoint
1834 // ends a goal selection session (updates goal stack to the best goal)
1835 void navigation_goalrating_end(entity this)
1837 if(this.aistatus & AI_STATUS_STUCK)
1840 entity wp = this.goalstack31; // save to wp as this.goalstack31 is set by navigation_routetogoal
1841 this.goalstack31 = NULL;
1843 navigation_routetogoal(this, navigation_bestgoal, this.origin);
1844 LOG_DEBUG("best goal ", navigation_bestgoal.classname);
1846 if (wp && this.goalcurrent == wp)
1847 navigation_poproute(this);
1849 // If the bot got stuck then try to reach the farthest waypoint
1850 if (!this.goalentity)
1852 if (autocvar_bot_wander_enable && !(this.aistatus & AI_STATUS_STUCK))
1854 LOG_DEBUG(this.netname, " cannot walk to any goal");
1855 this.aistatus |= AI_STATUS_STUCK;
1857 this.goalentity_shouldbefrozen = false;
1860 this.goalentity_shouldbefrozen = boolean(STAT(FROZEN, this.goalentity));
1863 void botframe_updatedangerousobjects(float maxupdate)
1865 vector m1, m2, v, o;
1869 IL_EACH(g_waypoints, true,
1875 IL_EACH(g_bot_dodge, it.bot_dodge,
1878 v.x = bound(m1_x, v.x, m2_x);
1879 v.y = bound(m1_y, v.y, m2_y);
1880 v.z = bound(m1_z, v.z, m2_z);
1881 o = (it.absmin + it.absmax) * 0.5;
1882 d = waypoint_getlinearcost(it.bot_dodgerating) - waypoint_gettravelcost(o, v, it, wp_cur);
1885 traceline(o, v, true, NULL);
1886 if (trace_fraction == 1)
1887 danger = danger + d;
1897 void navigation_unstuck(entity this)
1899 if (!autocvar_bot_wander_enable)
1902 bool has_user_waypoints = false;
1903 IL_EACH(g_waypoints, !(it.wpflags & WAYPOINTFLAG_GENERATED),
1905 has_user_waypoints = true;
1908 if (!has_user_waypoints)
1911 float search_radius = 1000;
1913 if (!bot_waypoint_queue_owner)
1915 LOG_DEBUG(this.netname, " stuck, taking over the waypoints queue");
1916 bot_waypoint_queue_owner = this;
1917 bot_waypoint_queue_bestgoal = NULL;
1918 bot_waypoint_queue_bestgoalrating = 0;
1921 if(bot_waypoint_queue_owner!=this)
1924 if (bot_waypoint_queue_goal)
1926 // evaluate the next goal on the queue
1927 float d = vlen2(this.origin - bot_waypoint_queue_goal.origin);
1928 LOG_DEBUG(this.netname, " evaluating ", bot_waypoint_queue_goal.classname, " with squared distance ", ftos(d));
1929 set_tracewalk_dest(bot_waypoint_queue_goal, this.origin, false);
1930 if (tracewalk(this, this.origin, STAT(PL_MIN, this), STAT(PL_MAX, this),
1931 tracewalk_dest, tracewalk_dest_height, bot_navigation_movemode))
1933 if( d > bot_waypoint_queue_bestgoalrating)
1935 bot_waypoint_queue_bestgoalrating = d;
1936 bot_waypoint_queue_bestgoal = bot_waypoint_queue_goal;
1940 // move to a random waypoint while bot is searching for a walkable path;
1941 // this is usually sufficient to unstuck bots from bad spots or when other
1942 // bots of the same team block all their ways
1943 if (!bot_waypoint_queue_bestgoal && (!this.goalentity || random() < 0.1))
1945 navigation_clearroute(this);
1946 navigation_routetogoal(this, bot_waypoint_queue_goal, this.origin);
1947 navigation_goalrating_timeout_expire(this, 1 + random() * 2);
1950 bot_waypoint_queue_goal = bot_waypoint_queue_goal.bot_waypoint_queue_nextgoal;
1952 if (!bot_waypoint_queue_goal)
1954 if (bot_waypoint_queue_bestgoal)
1956 LOG_DEBUG(this.netname, " stuck, reachable waypoint found, heading to it");
1957 navigation_clearroute(this);
1958 navigation_routetogoal(this, bot_waypoint_queue_bestgoal, this.origin);
1959 navigation_goalrating_timeout_set(this);
1960 this.aistatus &= ~AI_STATUS_STUCK;
1964 LOG_DEBUG(this.netname, " stuck, cannot walk to any waypoint at all");
1967 bot_waypoint_queue_owner = NULL;
1972 if(bot_strategytoken!=this)
1975 // build a new queue
1976 LOG_DEBUG(this.netname, " stuck, scanning reachable waypoints within ", ftos(search_radius)," qu");
1978 entity first = NULL;
1980 FOREACH_ENTITY_RADIUS(this.origin, search_radius, it.classname == "waypoint" && !(it.wpflags & WAYPOINTFLAG_GENERATED),
1982 if(bot_waypoint_queue_goal)
1983 bot_waypoint_queue_goal.bot_waypoint_queue_nextgoal = it;
1987 bot_waypoint_queue_goal = it;
1988 bot_waypoint_queue_goal.bot_waypoint_queue_nextgoal = NULL;
1992 bot_waypoint_queue_goal = first;
1995 LOG_DEBUG(this.netname, " stuck, cannot walk to any waypoint at all");
1996 bot_waypoint_queue_owner = NULL;
2001 // Support for debugging tracewalk visually
2003 void debugresetnodes()
2005 debuglastnode = '0 0 0';
2008 void debugnode(entity this, vector node)
2010 if (!IS_PLAYER(this))
2013 if(debuglastnode=='0 0 0')
2015 debuglastnode = node;
2019 te_lightning2(NULL, node, debuglastnode);
2020 debuglastnode = node;
2023 void debugnodestatus(vector position, float status)
2029 case DEBUG_NODE_SUCCESS:
2032 case DEBUG_NODE_WARNING:
2035 case DEBUG_NODE_FAIL:
2042 te_customflash(position, 40, 2, c);
2045 // Support for debugging the goal stack visually
2048 .vector lastposition;
2050 // Debug the goal stack visually
2051 void debuggoalstack(entity this)
2056 if(this.goalcounter==0)goal=this.goalcurrent;
2057 else if(this.goalcounter==1)goal=this.goalstack01;
2058 else if(this.goalcounter==2)goal=this.goalstack02;
2059 else if(this.goalcounter==3)goal=this.goalstack03;
2060 else if(this.goalcounter==4)goal=this.goalstack04;
2061 else if(this.goalcounter==5)goal=this.goalstack05;
2062 else if(this.goalcounter==6)goal=this.goalstack06;
2063 else if(this.goalcounter==7)goal=this.goalstack07;
2064 else if(this.goalcounter==8)goal=this.goalstack08;
2065 else if(this.goalcounter==9)goal=this.goalstack09;
2066 else if(this.goalcounter==10)goal=this.goalstack10;
2067 else if(this.goalcounter==11)goal=this.goalstack11;
2068 else if(this.goalcounter==12)goal=this.goalstack12;
2069 else if(this.goalcounter==13)goal=this.goalstack13;
2070 else if(this.goalcounter==14)goal=this.goalstack14;
2071 else if(this.goalcounter==15)goal=this.goalstack15;
2072 else if(this.goalcounter==16)goal=this.goalstack16;
2073 else if(this.goalcounter==17)goal=this.goalstack17;
2074 else if(this.goalcounter==18)goal=this.goalstack18;
2075 else if(this.goalcounter==19)goal=this.goalstack19;
2076 else if(this.goalcounter==20)goal=this.goalstack20;
2077 else if(this.goalcounter==21)goal=this.goalstack21;
2078 else if(this.goalcounter==22)goal=this.goalstack22;
2079 else if(this.goalcounter==23)goal=this.goalstack23;
2080 else if(this.goalcounter==24)goal=this.goalstack24;
2081 else if(this.goalcounter==25)goal=this.goalstack25;
2082 else if(this.goalcounter==26)goal=this.goalstack26;
2083 else if(this.goalcounter==27)goal=this.goalstack27;
2084 else if(this.goalcounter==28)goal=this.goalstack28;
2085 else if(this.goalcounter==29)goal=this.goalstack29;
2086 else if(this.goalcounter==30)goal=this.goalstack30;
2087 else if(this.goalcounter==31)goal=this.goalstack31;
2092 this.goalcounter = 0;
2093 this.lastposition='0 0 0';
2097 if(this.lastposition=='0 0 0')
2100 org = this.lastposition;
2103 go = ( goal.absmin + goal.absmax ) * 0.5;
2104 te_lightning2(NULL, org, go);
2105 this.lastposition = go;