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vcmi/AI/Nullkiller/Pathfinding/Actors.cpp

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/*
* AINodeStorage.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 "Actors.h"
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#include "../AIGateway.h"
#include "../Engine/Nullkiller.h"
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#include "../../../CCallback.h"
#include "../../../lib/mapping/CMap.h"
#include "../../../lib/mapObjects/MapObjects.h"
#include "Actions/BuyArmyAction.h"
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CCreatureSet emptyArmy;
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bool HeroExchangeArmy::needsLastStack() const
{
return true;
}
std::shared_ptr<SpecialAction> HeroExchangeArmy::getActorAction() const
{
std::shared_ptr<SpecialAction> result;
if(requireBuyArmy)
{
result.reset(new AIPathfinding::BuyArmyAction());
}
return result;
}
ChainActor::ChainActor(const CGHeroInstance * hero, HeroRole heroRole, uint64_t chainMask)
:hero(hero), heroRole(heroRole), isMovable(true), chainMask(chainMask), creatureSet(hero),
baseActor(this), carrierParent(nullptr), otherParent(nullptr), actorExchangeCount(1), armyCost(), actorAction()
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{
initialPosition = hero->visitablePos();
layer = hero->boat ? EPathfindingLayer::SAIL : EPathfindingLayer::LAND;
initialMovement = hero->movement;
initialTurn = 0;
armyValue = hero->getArmyStrength();
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heroFightingStrength = hero->getFightingStrength();
tiCache.reset(new TurnInfo(hero));
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}
ChainActor::ChainActor(const ChainActor * carrier, const ChainActor * other, const CCreatureSet * heroArmy)
:hero(carrier->hero), tiCache(carrier->tiCache), heroRole(carrier->heroRole), isMovable(true), creatureSet(heroArmy), chainMask(carrier->chainMask | other->chainMask),
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baseActor(this), carrierParent(carrier), otherParent(other), heroFightingStrength(carrier->heroFightingStrength),
actorExchangeCount(carrier->actorExchangeCount + other->actorExchangeCount), armyCost(carrier->armyCost + other->armyCost), actorAction()
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{
armyValue = heroArmy->getArmyStrength();
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}
ChainActor::ChainActor(const CGObjectInstance * obj, const CCreatureSet * creatureSet, uint64_t chainMask, int initialTurn)
:hero(nullptr), heroRole(HeroRole::MAIN), isMovable(false), creatureSet(creatureSet), chainMask(chainMask),
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baseActor(this), carrierParent(nullptr), otherParent(nullptr), initialTurn(initialTurn), initialMovement(0),
heroFightingStrength(0), actorExchangeCount(1), armyCost(), actorAction()
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{
initialPosition = obj->visitablePos();
layer = EPathfindingLayer::LAND;
armyValue = creatureSet->getArmyStrength();
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}
int ChainActor::maxMovePoints(CGPathNode::ELayer layer)
{
#if AI_TRACE_LEVEL > 0
if(!hero)
throw std::logic_error("Asking movement points for static actor");
#endif
return hero->maxMovePointsCached(layer, tiCache.get());
}
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std::string ChainActor::toString() const
{
return hero->name;
}
ObjectActor::ObjectActor(const CGObjectInstance * obj, const CCreatureSet * army, uint64_t chainMask, int initialTurn)
:ChainActor(obj, army, chainMask, initialTurn), object(obj)
{
}
const CGObjectInstance * ObjectActor::getActorObject() const
{
return object;
}
std::string ObjectActor::toString() const
{
return object->getObjectName() + " at " + object->visitablePos().toString();
}
HeroActor::HeroActor(const CGHeroInstance * hero, HeroRole heroRole, uint64_t chainMask, const Nullkiller * ai)
:ChainActor(hero, heroRole, chainMask)
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{
exchangeMap.reset(new HeroExchangeMap(this, ai));
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setupSpecialActors();
}
HeroActor::HeroActor(
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const ChainActor * carrier,
const ChainActor * other,
const HeroExchangeArmy * army,
const Nullkiller * ai)
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:ChainActor(carrier, other, army)
{
exchangeMap.reset(new HeroExchangeMap(this, ai));
armyCost += army->armyCost;
actorAction = army->getActorAction();
setupSpecialActors();
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}
void ChainActor::setBaseActor(HeroActor * base)
{
baseActor = base;
hero = base->hero;
heroRole = base->heroRole;
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layer = base->layer;
initialMovement = base->initialMovement;
initialTurn = base->initialTurn;
armyValue = base->armyValue;
chainMask = base->chainMask;
creatureSet = base->creatureSet;
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isMovable = base->isMovable;
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heroFightingStrength = base->heroFightingStrength;
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armyCost = base->armyCost;
actorAction = base->actorAction;
tiCache = base->tiCache;
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}
void HeroActor::setupSpecialActors()
{
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auto allActors = std::vector<ChainActor *>{this};
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for(ChainActor & specialActor : specialActors)
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{
specialActor.setBaseActor(this);
allActors.push_back(&specialActor);
}
for(int i = 0; i <= SPECIAL_ACTORS_COUNT; i++)
{
ChainActor * actor = allActors[i];
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actor->allowBattle = (i & 1) > 0;
actor->allowSpellCast = (i & 2) > 0;
actor->allowUseResources = (i & 4) > 0;
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actor->battleActor = allActors[i | 1];
actor->castActor = allActors[i | 2];
actor->resourceActor = allActors[i | 4];
}
}
ExchangeResult ChainActor::tryExchangeNoLock(const ChainActor * specialActor, const ChainActor * other) const
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{
if(!isMovable) return ExchangeResult();
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return baseActor->tryExchangeNoLock(specialActor, other);
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}
namespace vstd
{
template <class M, class Key, class F>
typename M::mapped_type & getOrCompute(M &m, Key const& k, F f)
{
typedef typename M::mapped_type V;
std::pair<typename M::iterator, bool> r = m.insert(typename M::value_type(k, V()));
V &v = r.first->second;
if(r.second)
f(v);
return v;
}
}
ExchangeResult HeroActor::tryExchangeNoLock(const ChainActor * specialActor, const ChainActor * other) const
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{
const ChainActor * otherBase = other->baseActor;
ExchangeResult result = exchangeMap->tryExchangeNoLock(otherBase);
if(!result.actor || !result.lockAcquired) return result;
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if(specialActor == this)
return result;
int index = vstd::find_pos_if(specialActors, [specialActor](const ChainActor & actor) -> bool
{
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return &actor == specialActor;
});
result.actor = &(dynamic_cast<HeroActor *>(result.actor)->specialActors[index]);
return result;
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}
HeroExchangeMap::HeroExchangeMap(const HeroActor * actor, const Nullkiller * ai)
:actor(actor), ai(ai), sync()
{
}
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HeroExchangeMap::~HeroExchangeMap()
{
for(auto & exchange : exchangeMap)
{
if(!exchange.second) continue;
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delete exchange.second->creatureSet;
}
for(auto & exchange : exchangeMap)
{
if(!exchange.second) continue;
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delete exchange.second;
}
exchangeMap.clear();
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}
ExchangeResult HeroExchangeMap::tryExchangeNoLock(const ChainActor * other)
{
ExchangeResult result;
{
boost::shared_lock<boost::shared_mutex> lock(sync, boost::try_to_lock);
if(!lock.owns_lock())
{
result.lockAcquired = false;
return result;
}
auto position = exchangeMap.find(other);
if(position != exchangeMap.end())
{
result.actor = position->second;
return result;
}
}
{
boost::unique_lock<boost::shared_mutex> uniqueLock(sync, boost::try_to_lock);
if(!uniqueLock.owns_lock())
{
result.lockAcquired = false;
return result;
}
auto inserted = exchangeMap.insert(std::pair<const ChainActor *, HeroActor *>(other, nullptr));
if(!inserted.second)
{
result.actor = inserted.first->second;
return result; // already inserted
}
auto position = inserted.first;
auto differentMasks = (actor->chainMask & other->chainMask) == 0;
if(!differentMasks) return result;
TResources resources = ai->cb->getResourceAmount();
if(!resources.canAfford(actor->armyCost + other->armyCost))
{
#if PATHFINDER_TRACE_LEVEL >= 2
logAi->trace(
"Can not afford exchange because of total cost %s but we have %s",
(actor->armyCost + other->armyCost).toString(),
resources.toString());
#endif
return result;
}
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if(other->isMovable && other->armyValue <= actor->armyValue / 10 && other->armyValue < MIN_ARMY_STRENGTH_FOR_CHAIN)
return result;
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TResources availableResources = resources - actor->armyCost - other->armyCost;
HeroExchangeArmy * upgradedInitialArmy = tryUpgrade(actor->creatureSet, other->getActorObject(), availableResources);
HeroExchangeArmy * newArmy;
if(other->creatureSet->Slots().size())
{
if(upgradedInitialArmy)
{
newArmy = pickBestCreatures(upgradedInitialArmy, other->creatureSet);
newArmy->armyCost = upgradedInitialArmy->armyCost;
newArmy->requireBuyArmy = upgradedInitialArmy->requireBuyArmy;
delete upgradedInitialArmy;
}
else
{
newArmy = pickBestCreatures(actor->creatureSet, other->creatureSet);
}
}
else
{
newArmy = upgradedInitialArmy;
}
if(!newArmy) return result;
auto reinforcement = newArmy->getArmyStrength() - actor->creatureSet->getArmyStrength();
#if PATHFINDER_TRACE_LEVEL >= 2
logAi->trace(
"Exchange %s->%s reinforcement: %d, %f%%",
actor->toString(),
other->toString(),
reinforcement,
100.0f * reinforcement / actor->armyValue);
#endif
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if(reinforcement <= actor->armyValue / 10 && reinforcement < MIN_ARMY_STRENGTH_FOR_CHAIN)
{
delete newArmy;
return result;
}
HeroActor * exchanged = new HeroActor(actor, other, newArmy, ai);
exchanged->armyCost += newArmy->armyCost;
result.actor = exchanged;
exchangeMap[other] = exchanged;
return result;
}
}
HeroExchangeArmy * HeroExchangeMap::tryUpgrade(
const CCreatureSet * army,
const CGObjectInstance * upgrader,
TResources resources) const
{
HeroExchangeArmy * target = new HeroExchangeArmy();
auto upgradeInfo = ai->armyManager->calculateCreaturesUpgrade(army, upgrader, resources);
if(upgradeInfo.upgradeValue)
{
for(auto & slotInfo : upgradeInfo.resultingArmy)
{
auto targetSlot = target->getFreeSlot();
target->addToSlot(targetSlot, slotInfo.creature->idNumber, TQuantity(slotInfo.count));
}
resources -= upgradeInfo.upgradeCost;
target->armyCost += upgradeInfo.upgradeCost;
}
else
{
for(auto slot : army->Slots())
{
auto targetSlot = target->getSlotFor(slot.second->getCreatureID());
target->addToSlot(targetSlot, slot.second->getCreatureID(), slot.second->count);
}
}
if(upgrader->ID == Obj::TOWN)
{
auto buyArmy = ai->armyManager->getArmyAvailableToBuy(target, ai->cb->getTown(upgrader->id), resources);
for(auto creatureToBuy : buyArmy)
{
auto targetSlot = target->getSlotFor(creatureToBuy.cre);
target->addToSlot(targetSlot, creatureToBuy.creID, creatureToBuy.count);
target->armyCost += creatureToBuy.cre->cost * creatureToBuy.count;
target->requireBuyArmy = true;
}
}
if(target->getArmyStrength() <= army->getArmyStrength())
{
delete target;
return nullptr;
}
return target;
}
HeroExchangeArmy * HeroExchangeMap::pickBestCreatures(const CCreatureSet * army1, const CCreatureSet * army2) const
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{
HeroExchangeArmy * target = new HeroExchangeArmy();
auto bestArmy = ai->armyManager->getBestArmy(actor->hero, army1, army2);
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for(auto & slotInfo : bestArmy)
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{
auto targetSlot = target->getFreeSlot();
target->addToSlot(targetSlot, slotInfo.creature->idNumber, TQuantity(slotInfo.count));
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}
return target;
}
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HillFortActor::HillFortActor(const CGObjectInstance * hillFort, uint64_t chainMask)
:ObjectActor(hillFort, &emptyArmy, chainMask, 0)
{
}
DwellingActor::DwellingActor(const CGDwelling * dwelling, uint64_t chainMask, bool waitForGrowth, int dayOfWeek)
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: ObjectActor(
dwelling,
getDwellingCreatures(dwelling, waitForGrowth),
chainMask,
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getInitialTurn(waitForGrowth, dayOfWeek)),
dwelling(dwelling)
{
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for(auto & slot : creatureSet->Slots())
{
armyCost += slot.second->getCreatureID().toCreature()->cost * slot.second->count;
}
}
DwellingActor::~DwellingActor()
{
delete creatureSet;
}
int DwellingActor::getInitialTurn(bool waitForGrowth, int dayOfWeek)
{
if(!waitForGrowth)
return 0;
return 8 - dayOfWeek;
}
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std::string DwellingActor::toString() const
{
return dwelling->typeName + dwelling->visitablePos().toString();
}
CCreatureSet * DwellingActor::getDwellingCreatures(const CGDwelling * dwelling, bool waitForGrowth)
{
CCreatureSet * dwellingCreatures = new CCreatureSet();
for(auto & creatureInfo : dwelling->creatures)
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{
if(!creatureInfo.second.size())
continue;
auto creature = creatureInfo.second.back().toCreature();
auto count = creatureInfo.first;
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if(waitForGrowth)
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{
const CGTownInstance * town = dynamic_cast<const CGTownInstance *>(dwelling);
count += town ? town->creatureGrowth(creature->level) : creature->growth;
}
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dwellingCreatures->addToSlot(
dwellingCreatures->getSlotFor(creature),
creature->idNumber,
TQuantity(creatureInfo.first));
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}
return dwellingCreatures;
}
TownGarrisonActor::TownGarrisonActor(const CGTownInstance * town, uint64_t chainMask)
:ObjectActor(town, town->getUpperArmy(), chainMask, 0), town(town)
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{
}
std::string TownGarrisonActor::toString() const
{
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return town->name;
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}