IW4-Dump-Files/maps/_drone.gsc

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2017-07-08 11:47:21 -07:00
#include maps\_utility;
#include common_scripts\utility;
#using_animtree( "generic_human" );
DRONE_RUN_SPEED = 170;
TRACE_HEIGHT = 100;
MAX_DRONES_ALLIES = 99999;
MAX_DRONES_AXIS = 99999;
MAX_DRONES_TEAM3 = 99999;
MAX_DRONES_CIVILIAN = 99999;
DEATH_DELETE_FOV = 0.5; // cos(60)
initGlobals()
{
//############################################################################
//############################################################################
// NEVER CALL THIS FUNCTION MANUALLY, THIS IS MEANT TO BE CALLED INTERNALLY!!!
// NEVER CALL THIS FUNCTION MANUALLY, THIS IS MEANT TO BE CALLED INTERNALLY!!!
// NEVER CALL THIS FUNCTION MANUALLY, THIS IS MEANT TO BE CALLED INTERNALLY!!!
//############################################################################
//############################################################################
if ( getdvar( "debug_drones" ) == "" )
setdvar( "debug_drones", "0" );
assert( isdefined( level.drone_anims ) );
// lookahead value - how far the character will lookahead for movement direction
// larger number makes smother, more linear travel. small value makes character go almost exactly point to point
if ( !isdefined( level.lookAhead_value ) )
level.drone_lookAhead_value = 200;
if ( !isdefined( level.max_drones ) )
level.max_drones = [];
if ( !isdefined( level.max_drones[ "allies" ] ) )
level.max_drones[ "allies" ] = MAX_DRONES_ALLIES;
if ( !isdefined( level.max_drones[ "axis" ] ) )
level.max_drones[ "axis" ] = MAX_DRONES_AXIS;
if ( !isdefined( level.max_drones[ "team3" ] ) )
level.max_drones[ "team3" ] = MAX_DRONES_TEAM3;
if ( !isdefined( level.max_drones[ "neutral" ] ) )
level.max_drones[ "neutral" ] = MAX_DRONES_CIVILIAN;
if ( !isdefined( level.drones ) )
level.drones = [];
if ( !isdefined( level.drones[ "allies" ] ) )
level.drones[ "allies" ] = struct_arrayspawn();
if ( !isdefined( level.drones[ "axis" ] ) )
level.drones[ "axis" ] = struct_arrayspawn();
if ( !isdefined( level.drones[ "team3" ] ) )
level.drones[ "team3" ] = struct_arrayspawn();
if ( !isdefined( level.drones[ "neutral" ] ) )
level.drones[ "neutral" ] = struct_arrayspawn();
level.drone_spawn_func = ::drone_init;
}
drone_give_soul()
{
// Tell drone which animtree to use
self useAnimTree( #animtree );
// Tell drone to use hero-only lighting so they look like AI
self startUsingHeroOnlyLighting();
if ( isdefined( self.script_moveplaybackrate ) )
self.moveplaybackrate = self.script_moveplaybackrate;
else
self.moveplaybackrate = 1;
// Put a friendly name on the drone so they look like AI
if ( self.team == "allies" )
{
// asign name
self maps\_names::get_name();
// string not found for
self setlookattext( self.name, &"" );
}
if ( isdefined( level.droneCallbackThread ) )
self thread [[ level.droneCallbackThread ]]();
// Run the friendly fire thread on this drone so the mission can be failed for killing friendly drones
// Runs on all teams since friendly fire script also keeps track of enemies killed, etc.
level thread maps\_friendlyfire::friendly_fire_think( self );
}
drone_init()
{
// Dont keep this drone if we've reached the max population for that team of drones
assertEx( isdefined( level.max_drones ), "You need to put maps\_drone::init(); in your level script!" );
if ( level.drones[ self.team ].array.size >= level.max_drones[ self.team ] )
{
self delete();
return;
}
thread drone_array_handling( self );
// Give the drone default health and make it take damage like an AI does
self setCanDamage( true );
drone_give_soul();
if ( isdefined( self.script_drone_override ) )
return;
// Wait until this drone loses it's health so it can die
thread drone_death_thread();
// If the drone targets something then make it move, otherwise just idle in place
if ( isdefined( self.target ) )
{
if( !isdefined( self.script_moveoverride ) )
self thread drone_move();
else
self thread drone_wait_move();
}
if ( ( isdefined( self.script_looping ) ) && ( self.script_looping == 0 ) )
{
return;
}
self thread drone_idle();
}
drone_array_handling( drone )
{
structarray_add( level.drones[ drone.team ], drone );
team = drone.team;
drone waittill( "death" );
if ( isdefined( drone ) && isdefined( drone.struct_array_index ) )
structarray_remove_index( level.drones[ team ], drone.struct_array_index );
else
structarray_remove_undefined( level.drones[ team ] );
}
drone_death_thread()
{
// Wait until the drone reaches 0 health
while ( isdefined( self ) )
{
self waittill( "damage" );
if ( isdefined( self.damageShield ) && self.damageShield )
{
self.health = 100000;
continue;
}
if ( self.health <= 0 )
break;
}
deathanim = level.drone_anims[ self.team ][ "stand" ][ "death" ];
if( isdefined( self.deathanim ) )
deathanim = self.deathanim;
// Make drone die
self notify( "death" );
if ( !( isdefined( self.noragdoll ) && isdefined( self.skipDeathAnim ) ) )
{
if ( isdefined( self.noragdoll ) )
{
self drone_play_scripted_anim( deathanim, "deathplant" );
}
else
if ( isdefined( self.skipDeathAnim ) )
{
self startragdoll();
self drone_play_scripted_anim( deathanim, "deathplant" );
}
else
{
self drone_play_scripted_anim( deathanim, "deathplant" );
self startragdoll();
}
}
self notsolid();
if( isdefined( self ) && isdefined( self.nocorpsedelete ) )
return;
wait 10;
while( isdefined( self ) )
{
if ( !within_fov( level.player.origin, level.player.angles, self.origin, DEATH_DELETE_FOV ) )
self delete();
wait( 5 );
}
}
// non-blocking loop animation used for idle/movement
drone_play_looping_anim( droneAnim, rate )
{
self ClearAnim( %body, 0.2 );
self StopAnimScripted();
self SetFlaggedAnimKnobAllRestart( "drone_anim", droneAnim, %body, 1, 0.2, rate );
}
//blocking/scripted animation (when we're not moving)
drone_play_scripted_anim( droneAnim, deathplant )
{
self clearAnim( %body, 0.2 );
self stopAnimScripted();
mode = "normal";
if ( isdefined( deathplant ) )
mode = "deathplant";
flag = "drone_anim";
self animscripted( flag, self.origin, self.angles, droneAnim, mode );
//self animRelative( "drone_anim", self.origin, self.angles, droneAnim );
self waittillmatch( "drone_anim", "end" );
}
/*
=============
///ScriptDocBegin
"Name: drone_drop_real_weapon_on_death()"
"Summary: Call this on a drone to have him drop a real weapon that can be picked up by the player"
"Module: Utility"
"CallOn: A spawned drone"
"Example: myDrone thread drone_drop_real_weapon_on_death()"
"SPMP: singleplayer"
///ScriptDocEnd
=============
*/
drone_drop_real_weapon_on_death()
{
if ( !isdefined( self ) )
return;
self waittill( "death" );
if( !isdefined( self ) ) //abort if deleted manually
return;
weapon_model = getWeaponModel( self.weapon );
weapon = self.weapon;
if ( isdefined( weapon_model ) )
{
//self waittill_match_or_timeout( "deathanim", "end", 4 );
self detach( weapon_model, "tag_weapon_right" );
org = self gettagorigin( "tag_weapon_right" );
ang = self gettagangles( "tag_weapon_right" );
gun = Spawn( "weapon_" + weapon, ( 0, 0, 0 ) );
gun.angles = ang;
gun.origin = org;
}
}
drone_idle( lastNode, moveToDest )
{
if ( ( isdefined( lastNode ) ) && ( isdefined( lastNode[ "script_noteworthy" ] ) ) && ( isdefined( level.drone_anims[ self.team ][ lastNode[ "script_noteworthy" ] ] ) ) )
{
//if the last node has a valid fight behavior in its script_noteworthy, fight from that node
self thread drone_fight( lastNode[ "script_noteworthy" ], lastNode, moveToDest );
}
else
{
// Otherwise, just loop standard idle animation
self drone_play_looping_anim( level.drone_anims[ self.team ][ "stand" ][ "idle" ], 1 );
}
}
drone_get_goal_loc_with_arrival( dist, node )
{
animset = node[ "script_noteworthy" ];
if ( !isdefined( level.drone_anims[ self.team ][ animset ][ "arrival" ] ) )
return dist;
animDelta = GetMoveDelta( level.drone_anims[ self.team ][ animset ][ "arrival" ], 0, 1 );
animDelta = length( animDelta );
assertex( animDelta < dist, "Drone with export " + self.export + " does not have enough room to play an arrival anim. Space nodes out more and ensure he has a straight path into the last node" );
dist = ( dist - animDelta );
return dist;
}
/*
ent_cleanup( drone )
{
//cleanup the script_origin used to make arrivals work on uneven terrain
self endon( "death" );
drone waittill( "death" );
if ( isdefined( self ) )
self delete();
}
*/
drone_fight( animset, struct, moveToDest )
{
self endon( "death" );
self endon( "stop_drone_fighting" );
self.animset = animset;
self.weaponsound = undefined;
iRand = randomintrange( 1, 4 );
//assign drone a random weapon for sound variety
if( self.team == "axis" )
{
if( iRand == 1 )
self.weaponsound = "drone_ak47_fire_npc";
else if( iRand == 2 )
self.weaponsound = "drone_g36c_fire_npc";
if( iRand == 3 )
self.weaponsound = "drone_fnp90_fire_npc";
}
else
{
if( iRand == 1 )
self.weaponsound = "drone_m4carbine_fire_npc";
else if( iRand == 2 )
self.weaponsound = "drone_m16_fire_npc";
if( iRand == 3 )
self.weaponsound = "drone_m249saw_fire_npc";
}
//commenting out arrival stuff for now....causes floating and other unpredictible behavior
//attach drone to dummy node for arrival so he can arrive on uneven terrain
// dummy = spawn( "script_origin", moveToDest );
// dummy thread ent_cleanup( self );
// dummy thread debug_message( "ORG", undefined, 9999, dummy );
// dummy.origin = ( dummy.origin[ 0 ], dummy.origin[ 1 ], self.origin[ 2 ] );
// self linkTo( dummy );
// dummyTime = getanimlength( level.drone_anims[ self.team ][ animset ][ "arrival" ] );
// dummyTime = dummyTime - 1;
// dummy moveto( moveToDest + ( 0, 0, 2 ), dummyTime );
// self drone_play_scripted_anim( level.drone_anims[ self.team ][ animset ][ "arrival" ] );
// self unlink();
// dummy delete();
//make sure drone has no UP angle...should just play anim flat on the ground and not be tilted
self.angles = ( 0, self.angles[ 1 ], self.angles[ 2 ] );
//move up a few units if prone...keeps getting buried in ground
if ( animset == "coverprone" )
self moveto( self.origin + ( 0, 0, 8 ), .05 );
//set deathanim to one that will work with cover behavior
self.noragdoll = true;
self.deathanim = level.drone_anims[ self.team ][ animset ][ "death" ];
bPopUpToFire = 1;
while( isdefined( self ) )
{
//play random cover loop/twitch
self drone_play_scripted_anim( level.drone_anims[ self.team ][ animset ][ "idle" ][ randomint( level.drone_anims[ self.team ][ animset ][ "idle" ].size ) ] );
//pop up and fire
if ( ( cointoss() ) && ( !isdefined( self.ignoreall ) ) )
{
//dont always pop up if prone
if ( animset == "coverprone" )
{
if( cointoss() )
bPopUpToFire = 0;
else
bPopUpToFire = 1;
}
//never pop up if coverguard
else if ( animset == "coverguard" )
bPopUpToFire = 0;
if ( bPopUpToFire == 1 )
{
self drone_play_scripted_anim( level.drone_anims[ self.team ][ animset ][ "hide_2_aim" ] );
wait( getanimlength( level.drone_anims[ self.team ][ animset ][ "hide_2_aim" ] ) - .5 );
}
//fire some blank bullets
if ( isdefined( level.drone_anims[ self.team ][ animset ][ "fire" ] ) )
{
if ( ( animset == "coverprone" ) && ( bPopUpToFire == 1 ) )
self thread drone_play_looping_anim( level.drone_anims[ self.team ][ animset ][ "fire_exposed" ], 1 );
else
self thread drone_play_looping_anim( level.drone_anims[ self.team ][ animset ][ "fire" ], 1 );
self drone_fire_randomly();
}
else
{
//if no fire idle anim...just put out a quick burst
self drone_shoot();
wait(.15);
self drone_shoot();
wait(.15);
self drone_shoot();
wait(.15);
self drone_shoot();
}
//dont always pop up if prone..never pop up if coverguard
if ( bPopUpToFire == 1 )
self drone_play_scripted_anim( level.drone_anims[ self.team ][ animset ][ "aim_2_hide" ] );
//reload weapon
self drone_play_scripted_anim( level.drone_anims[ self.team ][ animset ][ "reload" ] );
}
}
}
drone_fire_randomly()
{
self endon( "death" );
//randomly do bursts or single shots
if( cointoss() )
{
self drone_shoot();
wait( .1 );
self drone_shoot();
wait( .1 );
self drone_shoot();
if( cointoss() )
{
wait( .1 );
self drone_shoot();
}
if( cointoss() )
{
wait( .1 );
self drone_shoot();
wait( .1 );
self drone_shoot();
wait( .1 );
}
if( cointoss() )
wait( randomfloatrange( 1, 2 ) );
}
else
{
self drone_shoot();
wait( randomfloatrange( .25, .75 ) );
self drone_shoot();
wait( randomfloatrange( .15, .75 ) );
self drone_shoot();
wait( randomfloatrange( .15, .75 ) );
self drone_shoot();
wait( randomfloatrange( .15, .75 ) );
}
}
drone_shoot()
{
self endon( "death" );
self notify( "firing" );
self endon( "firing" );
drone_shoot_fx();
fireAnim = %exposed_crouch_shoot_auto_v2;
//SetAnimKnobRestart( <animation>, <weight>, <time>, <rate> )
self setAnimKnobRestart( fireAnim, 1, .2, 1.0 );
self delaycall( .25, ::clearAnim, fireAnim, 0 );
}
drone_shoot_fx()
{
shoot_fx = getfx( "ak47_muzzleflash" );
if ( self.team == "allies" )
{
shoot_fx = getfx( "m16_muzzleflash" );
}
self thread drone_play_weapon_sound( self.weaponsound );
PlayFXOnTag( shoot_fx, self, "tag_flash" );
}
drone_play_weapon_sound( weaponsound )
{
self playsound( weaponsound );
}
drone_wait_move()
{
self endon( "death" );
self waittill( "move" );
self thread drone_move();
}
drone_init_path()
{
if ( !isdefined( self.target ) )
return;
if ( isdefined( level.drone_paths[ self.target ] ) )
return;
// don't process a path more than once
level.drone_paths[ self.target ] = true;
target = self.target;
node = getstruct( target, "targetname" );
if ( !isdefined( node ) )
return;
vectors = [];
completed_nodes = [];
original_node = node;
for ( ;; )
{
node = original_node;
found_new_node = false;
for ( ;; )
{
if ( !isdefined( node.target ) )
break;
nextNodes = getstructarray( node.target, "targetname" );
if ( nextNodes.size )
break;
nextNode = undefined;
foreach ( newNode in nextNodes )
{
// origin should be unique per node
if ( isdefined( completed_nodes[ newNode.origin + "" ] ) )
continue;
nextNode = newNode;
break;
}
if ( !isdefined( nextNode ) )
break;
completed_nodes[ nextNode.origin + "" ] = true;
//Line( node.origin, nextNode.origin, (1,1,1), 1, 0, 5000 );
vectors[ node.targetname ] = nextNode.origin - node.origin;
node.angles = vectortoangles( vectors[ node.targetname ] );
node = nextNode;
found_new_node = true;
}
if ( !found_new_node )
break;
}
// now average the angles so they take corners properly
target = self.target;
node = getstruct( target, "targetname" );
prevNode = node;
completed_nodes = [];
for ( ;; )
{
node = original_node;
found_new_node = false;
for ( ;; )
{
if ( !isdefined( node.target ) )
return;
if ( !isdefined( vectors[ node.targetname ] ) )
return;
nextNodes = getstructarray( node.target, "targetname" );
if ( nextNodes.size )
break;
nextNode = undefined;
foreach ( newNode in nextNodes )
{
// origin should be unique per node
if ( isdefined( completed_nodes[ newNode.origin + "" ] ) )
continue;
nextNode = newNode;
break;
}
if ( !isdefined( nextNode ) )
break;
if ( isdefined( node.radius ) )
{
vec1 = vectors[ prevNode.targetname ];
vec2 = vectors[ node.targetname ];
vec = ( vec1 + vec2 ) * 0.5;
node.angles = vectorToAngles( vec );
/*
Line( node.origin, node.origin + vec1, (1,0,0), 1, 1, 1000 );
Line( node.origin, node.origin + vec2, (0,0,1), 1, 1, 1000 );
Line( node.origin, node.origin + vec, (0,1,0), 1, 1, 1000 );
/#
thread maps\_debug::drawArrowForever( node.origin, node.angles );
#/
*/
}
found_new_node = true;
prevNode = node;
node = nextNode;
}
if ( !found_new_node )
break;
}
}
drone_move()
{
self endon( "death" );
// Loop run animation
wait randomfloat( 0.5 );
runAnim = level.drone_anims[ self.team ][ "stand" ][ "run" ];
if ( isdefined( self.runanim ) )
runAnim = self.runanim;
self drone_play_looping_anim( runAnim, self.moveplaybackrate );
nodes = self getPathArray( self.target, self.origin );
assert( isdefined( nodes ) );
assert( isdefined( nodes[ 0 ] ) );
prof_begin( "drone_math" );
loopTime = 0.5;
currentNode_LookAhead = 0;
for ( ;; )
{
if ( !isdefined( nodes[ currentNode_LookAhead ] ) )
break;
// Calculate how far and what direction the lookahead path point should move
//--------------------------------------------------------------------------
// find point on real path where character is
vec1 = nodes[ currentNode_LookAhead ][ "vec" ];
vec2 = ( self.origin - nodes[ currentNode_LookAhead ][ "origin" ] );
distanceFromPoint1 = vectorDot( vectorNormalize( vec1 ), vec2 );
// check if this is the last node (wont have a distance value)
if ( !isdefined( nodes[ currentNode_LookAhead ][ "dist" ] ) )
break;
lookaheadDistanceFromNode = ( distanceFromPoint1 + level.drone_lookAhead_value );
assert( isdefined( lookaheadDistanceFromNode ) );
assert( isdefined( currentNode_LookAhead ) );
assert( isdefined( nodes[ currentNode_LookAhead ] ) );
assert( isdefined( nodes[ currentNode_LookAhead ][ "dist" ] ) );
while ( lookaheadDistanceFromNode > nodes[ currentNode_LookAhead ][ "dist" ] )
{
// moving the lookahead would pass the node, so move it the remaining distance on the vector of the next node
lookaheadDistanceFromNode = lookaheadDistanceFromNode - nodes[ currentNode_LookAhead ][ "dist" ];
currentNode_LookAhead++ ;
if ( !isdefined( nodes[ currentNode_LookAhead ][ "dist" ] ) )
{
//last node on the chain
self rotateTo( vectorToAngles( nodes[ nodes.size - 1 ][ "vec" ] ), loopTime );
d = distance( self.origin, nodes[ nodes.size - 1 ][ "origin" ] );
timeOfMove = ( d / ( DRONE_RUN_SPEED * self.moveplaybackrate ) );
//compensate for arrivals, if any
// timeOfMoveWithArrival = undefined;
// if ( isdefined( nodes[ nodes.size - 1 ][ "script_noteworthy" ] ) )
// {
// d = drone_get_goal_loc_with_arrival( d, nodes[ nodes.size - 1 ] );
// timeOfMoveWithArrival = ( d / ( DRONE_RUN_SPEED * self.moveplaybackrate ) );
// }
traceOrg1 = nodes[ nodes.size - 1 ][ "origin" ] + ( 0, 0, TRACE_HEIGHT );
traceOrg2 = nodes[ nodes.size - 1 ][ "origin" ] - ( 0, 0, TRACE_HEIGHT );
moveToDest = physicstrace( traceOrg1, traceOrg2 );
if ( getdvar( "debug_drones" ) == "1" )
{
thread draw_line_for_time( traceOrg1, traceOrg2, 1, 1, 1, loopTime );
thread draw_line_for_time( self.origin, moveToDest, 0, 0, 1, loopTime );
}
self moveTo( moveToDest, timeOfMove );
// if ( isdefined( timeOfMoveWithArrival ) )
// wait timeOfMoveWithArrival;
// else
// wait timeOfMove;
wait timeOfMove;
prof_end( "drone_math" );
self notify( "goal" );
self thread check_delete();
self thread drone_idle( nodes[ nodes.size - 1 ], moveToDest );
return;
}
if ( !isdefined( nodes[ currentNode_LookAhead ] ) )
{
prof_end( "drone_math" );
self notify( "goal" );
self thread drone_idle();
return;
}
assert( isdefined( nodes[ currentNode_LookAhead ] ) );
}
//-------------------------------------------------------------------------
// Move the lookahead point down along it's path
//----------------------------------------------
assert( isdefined( nodes[ currentNode_LookAhead ][ "vec" ] ) );
assert( isdefined( nodes[ currentNode_LookAhead ][ "vec" ][ 0 ] ) );
assert( isdefined( nodes[ currentNode_LookAhead ][ "vec" ][ 1 ] ) );
assert( isdefined( nodes[ currentNode_LookAhead ][ "vec" ][ 2 ] ) );
desiredPosition = vector_multiply( nodes[ currentNode_LookAhead ][ "vec" ], lookaheadDistanceFromNode );
desiredPosition = desiredPosition + nodes[ currentNode_LookAhead ][ "origin" ];
lookaheadPoint = desiredPosition;
// trace the lookahead point to the ground
traceOrg1 = lookaheadPoint + ( 0, 0, TRACE_HEIGHT );
traceOrg2 = lookaheadPoint - ( 0, 0, TRACE_HEIGHT );
lookaheadPoint = physicstrace( traceOrg1, traceOrg2 );
if ( getdvar( "debug_drones" ) == "1" )
{
thread draw_line_for_time( traceOrg1, traceOrg2, 1, 1, 1, loopTime );
thread draw_point( lookaheadPoint, 1, 0, 0, 16, loopTime );
println( lookaheadDistanceFromNode + "/" + nodes[ currentNode_LookAhead ][ "dist" ] + " units forward from node[" + currentNode_LookAhead + "]" );
}
//---------------------------------------------
//Rotate character to face the lookahead point
//--------------------------------------------
assert( isdefined( lookaheadPoint ) );
characterFaceDirection = VectorToAngles( lookaheadPoint - self.origin );
assert( isdefined( characterFaceDirection ) );
assert( isdefined( characterFaceDirection[ 0 ] ) );
assert( isdefined( characterFaceDirection[ 1 ] ) );
assert( isdefined( characterFaceDirection[ 2 ] ) );
self rotateTo( ( 0, characterFaceDirection[ 1 ], 0 ), loopTime );
//--------------------------------------------
//Move the character in the direction of the lookahead point
//----------------------------------------------------------
characterDistanceToMove = ( DRONE_RUN_SPEED * loopTime * self.moveplaybackrate );
moveVec = vectorNormalize( lookaheadPoint - self.origin );
desiredPosition = vector_multiply( moveVec, characterDistanceToMove );
desiredPosition = desiredPosition + self.origin;
if ( getdvar( "debug_drones" ) == "1" )
thread draw_line_for_time( self.origin, desiredPosition, 0, 0, 1, loopTime );
self moveTo( desiredPosition, loopTime );
//----------------------------------------------------------
wait loopTime;
}
self thread drone_idle();
prof_end( "drone_math" );
}
getPathArray( firstTargetName, initialPoint )
{
//#########################################################################################################
// make an array of all the points along the spline starting with the characters current position,
// then starting with the point with the passed in targetname
//
// information stored in array:
//
// origin - origin of the node
// dist - distance to the next node ( will be undefined if there is not a next node )
// vec - vector to the next node ( if there is not a next node, the vector will be the same as the previous node )
// script_noteworthy - script_noteworthy of the node if defined
//
//#########################################################################################################
usingNodes = true;
assert( isdefined( firstTargetName ) );
prof_begin( "drone_math" );
assert( isdefined( initialPoint ) );
nodes = [];
nodes[ 0 ][ "origin" ] = initialPoint;
nodes[ 0 ][ "dist" ] = 0;
nextNodeName = undefined;
nextNodeName = firstTargetName;
get_target_func[ "entity" ] = maps\_spawner::get_target_ents;
get_target_func[ "node" ] = maps\_spawner::get_target_nodes;
get_target_func[ "struct" ] = maps\_spawner::get_target_structs;
goal_type = undefined;
test_ent = [[ get_target_func[ "entity" ] ]]( nextNodeName );
test_nod = [[ get_target_func[ "node" ] ]]( nextNodeName );
test_str = [[ get_target_func[ "struct" ] ]]( nextNodeName );
if( test_ent.size )
goal_type = "entity";
else
if( test_nod.size )
goal_type = "node";
else
if( test_str.size )
goal_type = "struct";
for ( ;; )
{
index = nodes.size;
// get the next node in the chain
nextNodes = [[ get_target_func[ goal_type ] ]]( nextNodeName );
node = random( nextNodes );
/*
// no script_struct was found
if ( !isdefined( node ) )
{
if ( index == 0 )
assertMsg( "Drone was told to walk to a node with a targetname that doesnt match a script_struct targetname" );
break;
}
*/
// add this node information to the chain data array
org = node.origin;
//check for radius on node, since you can make them run to a radius rather than an exact point
if ( isdefined( node.radius ) )
{
assert( node.radius > 0 );
// offset for this drone (-1 to 1)
if ( !isdefined( self.droneRunOffset ) )
self.droneRunOffset = ( 0 - 1 + ( randomfloat( 2 ) ) );
if ( !isdefined( node.angles ) )
node.angles = ( 0, 0, 0 );
prof_begin( "drone_math" );
forwardVec = anglestoforward( node.angles );
rightVec = anglestoright( node.angles );
upVec = anglestoup( node.angles );
relativeOffset = ( 0, ( self.droneRunOffset * node.radius ), 0 );
org += vector_multiply( forwardVec, relativeOffset[ 0 ] );
org += vector_multiply( rightVec, relativeOffset[ 1 ] );
org += vector_multiply( upVec, relativeOffset[ 2 ] );
prof_end( "drone_math" );
}
nodes[ index ][ "origin" ] = org;
if ( isdefined( node.script_noteworthy ) )
nodes[ index ][ "script_noteworthy" ] = node.script_noteworthy;
// find the distance from the previous node to this node, and the vector of of the previous node to this node
// then add the info to the previous nodes data
nodes[ index - 1 ][ "dist" ] = distance( nodes[ index ][ "origin" ], nodes[ index - 1 ][ "origin" ] );
nodes[ index - 1 ][ "vec" ] = vectorNormalize( nodes[ index ][ "origin" ] - nodes[ index - 1 ][ "origin" ] );
//if the node doesn't target another node then it's the last of the chain
if ( !isdefined( node.target ) )
break;
//it targets something
nextNodeName = node.target;
}
nodes[ index ][ "vec" ] = nodes[ index - 1 ][ "vec" ];
node = undefined;
prof_end( "drone_math" );
return nodes;
}
draw_point( org, r, g, b, size, time )
{
point1 = org + ( size, 0, 0 );
point2 = org - ( size, 0, 0 );
thread draw_line_for_time( point1, point2, r, g, b, time );
point1 = org + ( 0, size, 0 );
point2 = org - ( 0, size, 0 );
thread draw_line_for_time( point1, point2, r, g, b, time );
point1 = org + ( 0, 0, size );
point2 = org - ( 0, 0, size );
thread draw_line_for_time( point1, point2, r, g, b, time );
}
check_delete()
{
if ( !isdefined( self ) )
return;
if ( !isdefined( self.script_noteworthy ) )
return;
if ( self.script_noteworthy != "delete_on_goal" )
return;
self delete();
}