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/*
* ObjectManager . cpp , part of VCMI engine
*
* Authors : listed in file AUTHORS in main folder
*
* License : GNU General Public License v2 .0 or later
* Full text of license available in license . txt file , in main folder
*
*/
# include "StdInc.h"
# include "ObjectManager.h"
# include "CMapGenerator.h"
# include "TileInfo.h"
# include "RmgMap.h"
# include "RoadPlacer.h"
# include "RiverPlacer.h"
# include "WaterAdopter.h"
# include "../CCreatureHandler.h"
# include "../mapObjects/CommonConstructors.h"
# include "../mapObjects/MapObjects.h" //needed to resolve templates for CommonConstructors.h
# include "../mapping/CMap.h"
# include "../mapping/CMapEditManager.h"
# include "Functions.h"
# include "RmgObject.h"
void ObjectManager : : process ( )
{
zone . fractalize ( ) ;
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createRequiredObjects ( ) ;
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}
void ObjectManager : : init ( )
{
DEPENDENCY ( WaterAdopter ) ;
POSTFUNCTION ( RoadPlacer ) ;
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createDistancesPriorityQueue ( ) ;
}
void ObjectManager : : createDistancesPriorityQueue ( )
{
tilesByDistance . clear ( ) ;
for ( auto & tile : zone . areaPossible ( ) . getTilesVector ( ) )
{
tilesByDistance . push ( std : : make_pair ( tile , map . getNearestObjectDistance ( tile ) ) ) ;
}
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}
void ObjectManager : : addRequiredObject ( CGObjectInstance * obj , si32 strength )
{
requiredObjects . push_back ( std : : make_pair ( obj , strength ) ) ;
}
void ObjectManager : : addCloseObject ( CGObjectInstance * obj , si32 strength )
{
closeObjects . push_back ( std : : make_pair ( obj , strength ) ) ;
}
void ObjectManager : : addNearbyObject ( CGObjectInstance * obj , CGObjectInstance * nearbyTarget )
{
nearbyObjects . push_back ( std : : make_pair ( obj , nearbyTarget ) ) ;
}
void ObjectManager : : updateDistances ( const rmg : : Object & obj )
{
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tilesByDistance . clear ( ) ;
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for ( auto tile : zone . areaPossible ( ) . getTiles ( ) ) //don't need to mark distance for not possible tiles
{
ui32 d = obj . getArea ( ) . distanceSqr ( tile ) ; //optimization, only relative distance is interesting
map . setNearestObjectDistance ( tile , std : : min ( ( float ) d , map . getNearestObjectDistance ( tile ) ) ) ;
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tilesByDistance . push ( std : : make_pair ( tile , map . getNearestObjectDistance ( tile ) ) ) ;
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}
}
const rmg : : Area & ObjectManager : : getVisitableArea ( ) const
{
return objectsVisitableArea ;
}
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std : : vector < CGObjectInstance * > ObjectManager : : getMines ( ) const
{
std : : vector < CGObjectInstance * > mines ;
for ( auto object : objects )
{
if ( object - > ID = = Obj : : MINE )
{
mines . push_back ( object ) ;
}
}
return mines ;
}
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int3 ObjectManager : : findPlaceForObject ( const rmg : : Area & searchArea , rmg : : Object & obj , std : : function < float ( const int3 ) > weightFunction , OptimizeType optimizer ) const
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{
float bestWeight = 0.f ;
int3 result ( - 1 , - 1 , - 1 ) ;
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if ( optimizer & OptimizeType : : DISTANCE )
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{
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auto open = tilesByDistance ;
while ( ! open . empty ( ) )
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{
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auto node = open . top ( ) ;
open . pop ( ) ;
int3 tile = node . first ;
if ( ! searchArea . contains ( tile ) )
continue ;
obj . setPosition ( tile ) ;
if ( ! searchArea . contains ( obj . getArea ( ) ) | | ! searchArea . overlap ( obj . getAccessibleArea ( ) ) )
continue ;
float weight = weightFunction ( tile ) ;
if ( weight > bestWeight )
{
bestWeight = weight ;
result = tile ;
if ( ! ( optimizer & OptimizeType : : WEIGHT ) )
break ;
}
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}
}
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else
{
for ( const auto & tile : searchArea . getTiles ( ) )
{
obj . setPosition ( tile ) ;
if ( ! searchArea . contains ( obj . getArea ( ) ) | | ! searchArea . overlap ( obj . getAccessibleArea ( ) ) )
continue ;
float weight = weightFunction ( tile ) ;
if ( weight > bestWeight )
{
bestWeight = weight ;
result = tile ;
if ( ! ( optimizer & OptimizeType : : WEIGHT ) )
break ;
}
}
}
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if ( result . valid ( ) )
obj . setPosition ( result ) ;
return result ;
}
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int3 ObjectManager : : findPlaceForObject ( const rmg : : Area & searchArea , rmg : : Object & obj , si32 min_dist , OptimizeType optimizer ) const
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{
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return findPlaceForObject ( searchArea , obj , [ this , min_dist , & obj ] ( const int3 & tile )
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{
auto ti = map . getTile ( tile ) ;
float dist = ti . getNearestObjectDistance ( ) ;
if ( dist < min_dist )
return - 1.f ;
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for ( auto & t : obj . getArea ( ) . getTilesVector ( ) )
{
if ( map . getTile ( t ) . getNearestObjectDistance ( ) < min_dist )
return - 1.f ;
}
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return dist ;
} , optimizer ) ;
}
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rmg : : Path ObjectManager : : placeAndConnectObject ( const rmg : : Area & searchArea , rmg : : Object & obj , si32 min_dist , bool isGuarded , bool onlyStraight , OptimizeType optimizer ) const
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{
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return placeAndConnectObject ( searchArea , obj , [ this , min_dist , & obj ] ( const int3 & tile )
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{
auto ti = map . getTile ( tile ) ;
float dist = ti . getNearestObjectDistance ( ) ;
if ( dist < min_dist )
return - 1.f ;
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for ( auto & t : obj . getArea ( ) . getTilesVector ( ) )
{
if ( map . getTile ( t ) . getNearestObjectDistance ( ) < min_dist )
return - 1.f ;
}
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return dist ;
} , isGuarded , onlyStraight , optimizer ) ;
}
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rmg : : Path ObjectManager : : placeAndConnectObject ( const rmg : : Area & searchArea , rmg : : Object & obj , std : : function < float ( const int3 ) > weightFunction , bool isGuarded , bool onlyStraight , OptimizeType optimizer ) const
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{
int3 pos ;
auto possibleArea = searchArea ;
while ( true )
{
pos = findPlaceForObject ( possibleArea , obj , weightFunction , optimizer ) ;
if ( ! pos . valid ( ) )
{
return rmg : : Path : : invalid ( ) ;
}
possibleArea . erase ( pos ) ; //do not place again at this point
auto accessibleArea = obj . getAccessibleArea ( isGuarded ) * ( zone . areaPossible ( ) + zone . freePaths ( ) ) ;
//we should exclude tiles which will be covered
if ( isGuarded )
{
auto & guardedArea = obj . instances ( ) . back ( ) - > getAccessibleArea ( ) ;
accessibleArea . intersect ( guardedArea ) ;
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accessibleArea . add ( obj . instances ( ) . back ( ) - > getPosition ( true ) ) ;
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}
auto path = zone . searchPath ( accessibleArea , onlyStraight , [ & obj , isGuarded ] ( const int3 & t )
{
if ( isGuarded )
{
auto & guardedArea = obj . instances ( ) . back ( ) - > getAccessibleArea ( ) ;
auto & unguardedArea = obj . getAccessibleArea ( isGuarded ) ;
if ( unguardedArea . contains ( t ) & & ! guardedArea . contains ( t ) )
return false ;
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//guard position is always target
if ( obj . instances ( ) . back ( ) - > getPosition ( true ) = = t )
return true ;
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}
return ! obj . getArea ( ) . contains ( t ) ;
} ) ;
if ( path . valid ( ) )
{
return path ;
}
}
}
bool ObjectManager : : createRequiredObjects ( )
{
logGlobal - > trace ( " Creating required objects " ) ;
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RandomGeneratorUtil : : randomShuffle ( requiredObjects , generator . rand ) ;
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for ( const auto & object : requiredObjects )
{
auto * obj = object . first ;
int3 pos ;
rmg : : Object rmgObject ( * obj ) ;
rmgObject . setTemplate ( zone . getTerrainType ( ) ) ;
bool guarded = addGuard ( rmgObject , object . second , ( obj - > ID = = Obj : : MONOLITH_TWO_WAY ) ) ;
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auto path = placeAndConnectObject ( zone . areaPossible ( ) , rmgObject , 3 , guarded , false , OptimizeType : : DISTANCE ) ;
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if ( ! path . valid ( ) )
{
logGlobal - > error ( " Failed to fill zone %d due to lack of space " , zone . getId ( ) ) ;
return false ;
}
zone . connectPath ( path ) ;
placeObject ( rmgObject , guarded , true ) ;
for ( const auto & nearby : nearbyObjects )
{
if ( nearby . second ! = obj )
continue ;
rmg : : Object rmgNearObject ( * nearby . first ) ;
rmg : : Area possibleArea ( rmgObject . instances ( ) . front ( ) - > getBlockedArea ( ) . getBorderOutside ( ) ) ;
possibleArea . intersect ( zone . areaPossible ( ) ) ;
if ( possibleArea . empty ( ) )
{
rmgNearObject . clear ( ) ;
continue ;
}
rmgNearObject . setPosition ( * RandomGeneratorUtil : : nextItem ( possibleArea . getTiles ( ) , generator . rand ) ) ;
placeObject ( rmgNearObject , false , false ) ;
}
}
for ( const auto & object : closeObjects )
{
auto * obj = object . first ;
int3 pos ;
auto possibleArea = zone . areaPossible ( ) ;
rmg : : Object rmgObject ( * obj ) ;
rmgObject . setTemplate ( zone . getTerrainType ( ) ) ;
bool guarded = addGuard ( rmgObject , object . second , ( obj - > ID = = Obj : : MONOLITH_TWO_WAY ) ) ;
auto path = placeAndConnectObject ( zone . areaPossible ( ) , rmgObject ,
[ this , & rmgObject ] ( const int3 & tile )
{
float dist = rmgObject . getArea ( ) . distanceSqr ( zone . getPos ( ) ) ;
dist * = ( dist > 12.f * 12.f ) ? 10.f : 1.f ; //tiles closer 12 are preferrable
dist = 1000000.f - dist ; //some big number
return dist + map . getNearestObjectDistance ( tile ) ;
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} , guarded , false , OptimizeType : : WEIGHT ) ;
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if ( ! path . valid ( ) )
{
logGlobal - > error ( " Failed to fill zone %d due to lack of space " , zone . getId ( ) ) ;
return false ;
}
zone . connectPath ( path ) ;
placeObject ( rmgObject , guarded , true ) ;
for ( const auto & nearby : nearbyObjects )
{
if ( nearby . second ! = obj )
continue ;
rmg : : Object rmgNearObject ( * nearby . first ) ;
rmg : : Area possibleArea ( rmgObject . instances ( ) . front ( ) - > getBlockedArea ( ) . getBorderOutside ( ) ) ;
possibleArea . intersect ( zone . areaPossible ( ) ) ;
if ( possibleArea . empty ( ) )
{
rmgNearObject . clear ( ) ;
continue ;
}
rmgNearObject . setPosition ( * RandomGeneratorUtil : : nextItem ( possibleArea . getTiles ( ) , generator . rand ) ) ;
placeObject ( rmgNearObject , false , false ) ;
}
}
//create object on specific positions
//TODO: implement guards
for ( const auto & obj : instantObjects )
{
rmg : : Object rmgObject ( * obj . first ) ;
rmgObject . setPosition ( obj . second ) ;
placeObject ( rmgObject , false , false ) ;
}
requiredObjects . clear ( ) ;
closeObjects . clear ( ) ;
nearbyObjects . clear ( ) ;
instantObjects . clear ( ) ;
return true ;
}
void ObjectManager : : placeObject ( rmg : : Object & object , bool guarded , bool updateDistance )
{
object . finalize ( map ) ;
zone . areaPossible ( ) . subtract ( object . getArea ( ) ) ;
bool keepVisitable = zone . freePaths ( ) . contains ( object . getVisitablePosition ( ) ) ;
zone . freePaths ( ) . subtract ( object . getArea ( ) ) ; //just to avoid areas overlapping
if ( keepVisitable )
zone . freePaths ( ) . add ( object . getVisitablePosition ( ) ) ;
zone . areaUsed ( ) . unite ( object . getArea ( ) ) ;
zone . areaUsed ( ) . erase ( object . getVisitablePosition ( ) ) ;
if ( guarded )
{
auto guardedArea = object . instances ( ) . back ( ) - > getAccessibleArea ( ) ;
guardedArea . add ( object . instances ( ) . back ( ) - > getVisitablePosition ( ) ) ;
auto areaToBlock = object . getAccessibleArea ( true ) ;
areaToBlock . subtract ( guardedArea ) ;
zone . areaPossible ( ) . subtract ( areaToBlock ) ;
for ( auto & i : areaToBlock . getTilesVector ( ) )
if ( map . isOnMap ( i ) & & map . isPossible ( i ) )
map . setOccupied ( i , ETileType : : BLOCKED ) ;
}
if ( updateDistance )
updateDistances ( object ) ;
for ( auto * instance : object . instances ( ) )
{
objectsVisitableArea . add ( instance - > getVisitablePosition ( ) ) ;
objects . push_back ( & instance - > object ( ) ) ;
if ( auto * m = zone . getModificator < RoadPlacer > ( ) )
{
if ( instance - > object ( ) . appearance . isVisitableFromTop ( ) )
m - > areaForRoads ( ) . add ( instance - > getVisitablePosition ( ) ) ;
else
{
m - > areaIsolated ( ) . add ( instance - > getVisitablePosition ( ) + int3 ( 0 , - 1 , 0 ) ) ;
}
}
}
switch ( object . instances ( ) . front ( ) - > object ( ) . ID )
{
case Obj : : TOWN :
case Obj : : RANDOM_TOWN :
case Obj : : MONOLITH_TWO_WAY :
case Obj : : MONOLITH_ONE_WAY_ENTRANCE :
case Obj : : MONOLITH_ONE_WAY_EXIT :
case Obj : : SUBTERRANEAN_GATE :
case Obj : : SHIPYARD :
if ( auto * m = zone . getModificator < RoadPlacer > ( ) )
m - > addRoadNode ( object . instances ( ) . front ( ) - > getVisitablePosition ( ) ) ;
break ;
case Obj : : WATER_WHEEL :
if ( auto * m = zone . getModificator < RiverPlacer > ( ) )
m - > addRiverNode ( object . instances ( ) . front ( ) - > getVisitablePosition ( ) ) ;
break ;
default :
break ;
}
}
CGCreature * ObjectManager : : chooseGuard ( si32 strength , bool zoneGuard )
{
//precalculate actual (randomized) monster strength based on this post
//http://forum.vcmi.eu/viewtopic.php?p=12426#12426
int mapMonsterStrength = map . getMapGenOptions ( ) . getMonsterStrength ( ) ;
int monsterStrength = ( zoneGuard ? 0 : zone . zoneMonsterStrength ) + mapMonsterStrength - 1 ; //array index from 0 to 4
static const std : : array < int , 5 > value1 { 2500 , 1500 , 1000 , 500 , 0 } ;
static const std : : array < int , 5 > value2 { 7500 , 7500 , 7500 , 5000 , 5000 } ;
static const std : : array < float , 5 > multiplier1 { 0.5 , 0.75 , 1.0 , 1.5 , 1.5 } ;
static const std : : array < float , 5 > multiplier2 { 0.5 , 0.75 , 1.0 , 1.0 , 1.5 } ;
int strength1 = static_cast < int > ( std : : max ( 0.f , ( strength - value1 . at ( monsterStrength ) ) * multiplier1 . at ( monsterStrength ) ) ) ;
int strength2 = static_cast < int > ( std : : max ( 0.f , ( strength - value2 . at ( monsterStrength ) ) * multiplier2 . at ( monsterStrength ) ) ) ;
strength = strength1 + strength2 ;
if ( strength < generator . getConfig ( ) . minGuardStrength )
return nullptr ; //no guard at all
CreatureID creId = CreatureID : : NONE ;
int amount = 0 ;
std : : vector < CreatureID > possibleCreatures ;
for ( auto cre : VLC - > creh - > objects )
{
if ( cre - > special )
continue ;
if ( ! cre - > AIValue ) //bug #2681
continue ;
if ( ! vstd : : contains ( zone . getMonsterTypes ( ) , cre - > faction ) )
continue ;
if ( ( ( si32 ) ( cre - > AIValue * ( cre - > ammMin + cre - > ammMax ) / 2 ) < strength ) & & ( strength < ( si32 ) cre - > AIValue * 100 ) ) //at least one full monster. size between average size of given stack and 100
{
possibleCreatures . push_back ( cre - > idNumber ) ;
}
}
if ( possibleCreatures . size ( ) )
{
creId = * RandomGeneratorUtil : : nextItem ( possibleCreatures , generator . rand ) ;
amount = strength / VLC - > creh - > objects [ creId ] - > AIValue ;
if ( amount > = 4 )
amount = static_cast < int > ( amount * generator . rand . nextDouble ( 0.75 , 1.25 ) ) ;
}
else //just pick any available creature
{
creId = CreatureID ( 132 ) ; //Azure Dragon
amount = strength / VLC - > creh - > objects [ creId ] - > AIValue ;
}
auto guardFactory = VLC - > objtypeh - > getHandlerFor ( Obj : : MONSTER , creId ) ;
auto guard = ( CGCreature * ) guardFactory - > create ( ObjectTemplate ( ) ) ;
guard - > character = CGCreature : : HOSTILE ;
auto hlp = new CStackInstance ( creId , amount ) ;
//will be set during initialization
guard - > putStack ( SlotID ( 0 ) , hlp ) ;
return guard ;
}
bool ObjectManager : : addGuard ( rmg : : Object & object , si32 strength , bool zoneGuard )
{
auto * guard = chooseGuard ( strength , zoneGuard ) ;
if ( ! guard )
return false ;
rmg : : Area visitablePos ( { object . getVisitablePosition ( ) } ) ;
visitablePos . unite ( visitablePos . getBorderOutside ( ) ) ;
auto accessibleArea = object . getAccessibleArea ( ) ;
accessibleArea . intersect ( visitablePos ) ;
if ( accessibleArea . empty ( ) )
{
delete guard ;
return false ;
}
auto guardTiles = accessibleArea . getTilesVector ( ) ;
auto guardPos = * std : : min_element ( guardTiles . begin ( ) , guardTiles . end ( ) , [ & object ] ( const int3 & l , const int3 & r )
{
auto p = object . getVisitablePosition ( ) ;
if ( l . y > r . y )
return true ;
if ( l . y = = r . y )
return abs ( l . x - p . x ) < abs ( r . x - p . x ) ;
return false ;
} ) ;
auto & instance = object . addInstance ( * guard ) ;
instance . setPosition ( guardPos - object . getPosition ( ) ) ;
return true ;
}