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/*
* FuzzyHelper . 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 "FuzzyHelper.h"
# include "../../lib/mapObjects/CommonConstructors.h"
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# include "Goals/Goals.h"
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# include "VCAI.h"
FuzzyHelper * fh ;
extern boost : : thread_specific_ptr < VCAI > ai ;
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extern boost : : thread_specific_ptr < CCallback > cb ;
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Goals : : TSubgoal FuzzyHelper : : chooseSolution ( Goals : : TGoalVec vec )
{
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if ( vec . empty ( ) )
{
logAi - > debug ( " FuzzyHelper found no goals. Returning Goals::Invalid. " ) ;
//no possibilities found
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return sptr ( Goals : : Invalid ( ) ) ;
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}
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//a trick to switch between heroes less often - calculatePaths is costly
auto sortByHeroes = [ ] ( const Goals : : TSubgoal & lhs , const Goals : : TSubgoal & rhs ) - > bool
{
return lhs - > hero . h < rhs - > hero . h ;
} ;
boost : : sort ( vec , sortByHeroes ) ;
for ( auto g : vec )
{
setPriority ( g ) ;
}
auto compareGoals = [ ] ( const Goals : : TSubgoal & lhs , const Goals : : TSubgoal & rhs ) - > bool
{
return lhs - > priority < rhs - > priority ;
} ;
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for ( auto goal : vec )
{
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logAi - > trace ( " FuzzyHelper evaluated goal %s, priority=%.4f " , goal - > name ( ) , goal - > priority ) ;
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}
Goals : : TSubgoal result = * boost : : max_element ( vec , compareGoals ) ;
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logAi - > debug ( " FuzzyHelper returned goal %s, priority=%.4f " , result - > name ( ) , result - > priority ) ;
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return result ;
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}
ui64 FuzzyHelper : : estimateBankDanger ( const CBank * bank )
{
//this one is not fuzzy anymore, just calculate weighted average
auto objectInfo = VLC - > objtypeh - > getHandlerFor ( bank - > ID , bank - > subID ) - > getObjectInfo ( bank - > appearance ) ;
CBankInfo * bankInfo = dynamic_cast < CBankInfo * > ( objectInfo . get ( ) ) ;
ui64 totalStrength = 0 ;
ui8 totalChance = 0 ;
for ( auto config : bankInfo - > getPossibleGuards ( ) )
{
totalStrength + = config . second . totalStrength * config . first ;
totalChance + = config . first ;
}
return totalStrength / std : : max < ui8 > ( totalChance , 1 ) ; //avoid division by zero
}
float FuzzyHelper : : evaluate ( Goals : : VisitTile & g )
{
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if ( g . parent )
{
g . parent - > accept ( this ) ;
}
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return visitTileEngine . evaluate ( g ) ;
}
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float FuzzyHelper : : evaluate ( Goals : : BuildBoat & g )
{
const float buildBoatPenalty = 0.25 ;
if ( ! g . parent )
{
return 0 ;
}
return g . parent - > accept ( this ) - buildBoatPenalty ;
}
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float FuzzyHelper : : evaluate ( Goals : : AdventureSpellCast & g )
{
if ( ! g . parent )
{
return 0 ;
}
const CSpell * spell = g . getSpell ( ) ;
const float spellCastPenalty = ( float ) g . hero - > getSpellCost ( spell ) / g . hero - > mana ;
return g . parent - > accept ( this ) - spellCastPenalty ;
}
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float FuzzyHelper : : evaluate ( Goals : : CompleteQuest & g )
{
// TODO: How to evaluate quest complexity?
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const float questPenalty = 0.2f ;
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if ( ! g . parent )
{
return 0 ;
}
return g . parent - > accept ( this ) * questPenalty ;
}
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float FuzzyHelper : : evaluate ( Goals : : VisitObj & g )
{
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if ( g . parent )
{
g . parent - > accept ( this ) ;
}
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return visitObjEngine . evaluate ( g ) ;
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}
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float FuzzyHelper : : evaluate ( Goals : : VisitHero & g )
{
auto obj = ai - > myCb - > getObj ( ObjectInstanceID ( g . objid ) ) ; //we assume for now that these goals are similar
if ( ! obj )
return - 100 ; //hero died in the meantime
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else
{
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g . setpriority ( Goals : : VisitTile ( obj - > visitablePos ( ) ) . sethero ( g . hero ) . accept ( this ) ) ;
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}
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return g . priority ;
}
float FuzzyHelper : : evaluate ( Goals : : GatherArmy & g )
{
//the more army we need, the more important goal
//the more army we lack, the less important goal
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float army = static_cast < float > ( g . hero - > getArmyStrength ( ) ) ;
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float ratio = g . value / std : : max ( g . value - army , 2000.0f ) ; //2000 is about the value of hero recruited from tavern
return 5 * ( ratio / ( ratio + 2 ) ) ; //so 50% army gives 2.5, asymptotic 5
}
float FuzzyHelper : : evaluate ( Goals : : ClearWayTo & g )
{
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if ( ! g . hero . h )
return 0 ; //lowest priority
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return g . whatToDoToAchieve ( ) - > accept ( this ) ;
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}
float FuzzyHelper : : evaluate ( Goals : : BuildThis & g )
{
return g . priority ; //TODO
}
float FuzzyHelper : : evaluate ( Goals : : DigAtTile & g )
{
return 0 ;
}
float FuzzyHelper : : evaluate ( Goals : : CollectRes & g )
{
return g . priority ; //handled by ResourceManager
}
float FuzzyHelper : : evaluate ( Goals : : Build & g )
{
return 0 ;
}
float FuzzyHelper : : evaluate ( Goals : : BuyArmy & g )
{
return g . priority ;
}
float FuzzyHelper : : evaluate ( Goals : : Explore & g )
{
return 1 ;
}
float FuzzyHelper : : evaluate ( Goals : : RecruitHero & g )
{
return 1 ;
}
float FuzzyHelper : : evaluate ( Goals : : Invalid & g )
{
return - 1e10 ;
}
float FuzzyHelper : : evaluate ( Goals : : AbstractGoal & g )
{
logAi - > warn ( " Cannot evaluate goal %s " , g . name ( ) ) ;
return g . priority ;
}
void FuzzyHelper : : setPriority ( Goals : : TSubgoal & g ) //calls evaluate - Visitor pattern
{
g - > setpriority ( g - > accept ( this ) ) ; //this enforces returned value is set
}
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ui64 FuzzyHelper : : evaluateDanger ( crint3 tile , const CGHeroInstance * visitor )
{
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return evaluateDanger ( tile , visitor , ai . get ( ) ) ;
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}
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ui64 FuzzyHelper : : evaluateDanger ( crint3 tile , const CGHeroInstance * visitor , const VCAI * ai )
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{
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auto cb = ai - > myCb ;
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const TerrainTile * t = cb - > getTile ( tile , false ) ;
if ( ! t ) //we can know about guard but can't check its tile (the edge of fow)
return 190000000 ; //MUCH
ui64 objectDanger = 0 ;
ui64 guardDanger = 0 ;
auto visitableObjects = cb - > getVisitableObjs ( tile ) ;
// in some scenarios hero happens to be "under" the object (eg town). Then we consider ONLY the hero.
if ( vstd : : contains_if ( visitableObjects , objWithID < Obj : : HERO > ) )
{
vstd : : erase_if ( visitableObjects , [ ] ( const CGObjectInstance * obj )
{
return ! objWithID < Obj : : HERO > ( obj ) ;
} ) ;
}
if ( const CGObjectInstance * dangerousObject = vstd : : backOrNull ( visitableObjects ) )
{
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objectDanger = evaluateDanger ( dangerousObject , ai ) ; //unguarded objects can also be dangerous or unhandled
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if ( objectDanger )
{
//TODO: don't downcast objects AI shouldn't know about!
auto armedObj = dynamic_cast < const CArmedInstance * > ( dangerousObject ) ;
if ( armedObj )
{
float tacticalAdvantage = tacticalAdvantageEngine . getTacticalAdvantage ( visitor , armedObj ) ;
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objectDanger = static_cast < ui64 > ( objectDanger * tacticalAdvantage ) ; //this line tends to go infinite for allied towns (?)
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}
}
if ( dangerousObject - > ID = = Obj : : SUBTERRANEAN_GATE )
{
//check guard on the other side of the gate
auto it = ai - > knownSubterraneanGates . find ( dangerousObject ) ;
if ( it ! = ai - > knownSubterraneanGates . end ( ) )
{
auto guards = cb - > getGuardingCreatures ( it - > second - > visitablePos ( ) ) ;
for ( auto cre : guards )
{
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float tacticalAdvantage = tacticalAdvantageEngine . getTacticalAdvantage ( visitor , dynamic_cast < const CArmedInstance * > ( cre ) ) ;
vstd : : amax ( guardDanger , evaluateDanger ( cre , ai ) * tacticalAdvantage ) ;
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}
}
}
}
auto guards = cb - > getGuardingCreatures ( tile ) ;
for ( auto cre : guards )
{
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float tacticalAdvantage = tacticalAdvantageEngine . getTacticalAdvantage ( visitor , dynamic_cast < const CArmedInstance * > ( cre ) ) ;
vstd : : amax ( guardDanger , evaluateDanger ( cre , ai ) * tacticalAdvantage ) ; //we are interested in strongest monster around
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}
//TODO mozna odwiedzic blockvis nie ruszajac straznika
return std : : max ( objectDanger , guardDanger ) ;
}
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ui64 FuzzyHelper : : evaluateDanger ( const CGObjectInstance * obj , const VCAI * ai )
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{
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auto cb = ai - > myCb ;
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if ( obj - > tempOwner < PlayerColor : : PLAYER_LIMIT & & cb - > getPlayerRelations ( obj - > tempOwner , ai - > playerID ) ! = PlayerRelations : : ENEMIES ) //owned or allied objects don't pose any threat
return 0 ;
switch ( obj - > ID )
{
case Obj : : HERO :
{
InfoAboutHero iah ;
cb - > getHeroInfo ( obj , iah ) ;
return iah . army . getStrength ( ) ;
}
case Obj : : TOWN :
case Obj : : GARRISON :
case Obj : : GARRISON2 :
{
InfoAboutTown iat ;
cb - > getTownInfo ( obj , iat ) ;
return iat . army . getStrength ( ) ;
}
case Obj : : MONSTER :
{
//TODO!!!!!!!!
const CGCreature * cre = dynamic_cast < const CGCreature * > ( obj ) ;
return cre - > getArmyStrength ( ) ;
}
case Obj : : CREATURE_GENERATOR1 :
case Obj : : CREATURE_GENERATOR4 :
{
const CGDwelling * d = dynamic_cast < const CGDwelling * > ( obj ) ;
return d - > getArmyStrength ( ) ;
}
case Obj : : MINE :
case Obj : : ABANDONED_MINE :
{
const CArmedInstance * a = dynamic_cast < const CArmedInstance * > ( obj ) ;
return a - > getArmyStrength ( ) ;
}
case Obj : : CRYPT : //crypt
case Obj : : CREATURE_BANK : //crebank
case Obj : : DRAGON_UTOPIA :
case Obj : : SHIPWRECK : //shipwreck
case Obj : : DERELICT_SHIP : //derelict ship
// case Obj::PYRAMID:
return estimateBankDanger ( dynamic_cast < const CBank * > ( obj ) ) ;
case Obj : : PYRAMID :
{
if ( obj - > subID = = 0 )
return estimateBankDanger ( dynamic_cast < const CBank * > ( obj ) ) ;
else
return 0 ;
}
default :
return 0 ;
}
}