/* * VCAI.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 "VCAI.h" #include "FuzzyHelper.h" #include "ResourceManager.h" #include "BuildingManager.h" #include "Goals/Goals.h" #include "../../lib/ArtifactUtils.h" #include "../../lib/UnlockGuard.h" #include "../../lib/mapObjects/MapObjects.h" #include "../../lib/mapObjects/ObjectTemplate.h" #include "../../lib/CConfigHandler.h" #include "../../lib/CHeroHandler.h" #include "../../lib/GameSettings.h" #include "../../lib/gameState/CGameState.h" #include "../../lib/bonuses/Limiters.h" #include "../../lib/bonuses/Updaters.h" #include "../../lib/bonuses/Propagators.h" #include "../../lib/networkPacks/PacksForClient.h" #include "../../lib/networkPacks/PacksForClientBattle.h" #include "../../lib/networkPacks/PacksForServer.h" #include "../../lib/serializer/CTypeList.h" #include "../../lib/serializer/BinarySerializer.h" #include "../../lib/serializer/BinaryDeserializer.h" #include "AIhelper.h" extern FuzzyHelper * fh; const double SAFE_ATTACK_CONSTANT = 1.5; //one thread may be turn of AI and another will be handling a side effect for AI2 thread_local CCallback * cb = nullptr; thread_local VCAI * ai = nullptr; //std::map > HeroView::infosCount; //helper RAII to manage global ai/cb ptrs struct SetGlobalState { SetGlobalState(VCAI * AI) { assert(!ai); assert(!cb); ai = AI; cb = AI->myCb.get(); } ~SetGlobalState() { //TODO: how to handle rm? shouldn't be called after ai is destroyed, hopefully //TODO: to ensure that, make rm unique_ptr ai = nullptr; cb = nullptr; } }; #define SET_GLOBAL_STATE(ai) SetGlobalState _hlpSetState(ai) #define NET_EVENT_HANDLER SET_GLOBAL_STATE(this) #define MAKING_TURN SET_GLOBAL_STATE(this) VCAI::VCAI() { LOG_TRACE(logAi); makingTurn = nullptr; destinationTeleport = ObjectInstanceID(); destinationTeleportPos = int3(-1); ah = new AIhelper(); ah->setAI(this); } VCAI::~VCAI() { delete ah; LOG_TRACE(logAi); finish(); } void VCAI::availableCreaturesChanged(const CGDwelling * town) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::heroMoved(const TryMoveHero & details, bool verbose) { LOG_TRACE(logAi); NET_EVENT_HANDLER; //enemy hero may have left visible area validateObject(details.id); auto hero = cb->getHero(details.id); const int3 from = hero ? hero->convertToVisitablePos(details.start) : (details.start - int3(0,1,0)); const int3 to = hero ? hero->convertToVisitablePos(details.end) : (details.end - int3(0,1,0)); const CGObjectInstance * o1 = vstd::frontOrNull(cb->getVisitableObjs(from, verbose)); const CGObjectInstance * o2 = vstd::frontOrNull(cb->getVisitableObjs(to, verbose)); if(details.result == TryMoveHero::TELEPORTATION) { auto t1 = dynamic_cast(o1); auto t2 = dynamic_cast(o2); if(t1 && t2) { if(cb->isTeleportChannelBidirectional(t1->channel)) { if(o1->ID == Obj::SUBTERRANEAN_GATE && o1->ID == o2->ID) // We need to only add subterranean gates in knownSubterraneanGates. Used for features not yet ported to use teleport channels { knownSubterraneanGates[o1] = o2; knownSubterraneanGates[o2] = o1; logAi->debug("Found a pair of subterranean gates between %s and %s!", from.toString(), to.toString()); } } } //FIXME: teleports are not correctly visited unreserveObject(hero, t1); unreserveObject(hero, t2); } else if(details.result == TryMoveHero::EMBARK && hero) { //make sure AI not attempt to visit used boat validateObject(hero->boat); } else if(details.result == TryMoveHero::DISEMBARK && o1) { auto boat = dynamic_cast(o1); if(boat) addVisitableObj(boat); } } void VCAI::heroInGarrisonChange(const CGTownInstance * town) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::centerView(int3 pos, int focusTime) { LOG_TRACE_PARAMS(logAi, "focusTime '%i'", focusTime); NET_EVENT_HANDLER; } void VCAI::artifactMoved(const ArtifactLocation & src, const ArtifactLocation & dst) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::artifactAssembled(const ArtifactLocation & al) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::showTavernWindow(const CGObjectInstance * object, const CGHeroInstance * visitor, QueryID queryID) { LOG_TRACE(logAi); NET_EVENT_HANDLER; status.addQuery(queryID, "TavernWindow"); requestActionASAP([=](){ answerQuery(queryID, 0); }); } void VCAI::showThievesGuildWindow(const CGObjectInstance * obj) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::playerBlocked(int reason, bool start) { LOG_TRACE_PARAMS(logAi, "reason '%i', start '%i'", reason % start); NET_EVENT_HANDLER; if(start && reason == PlayerBlocked::UPCOMING_BATTLE) status.setBattle(UPCOMING_BATTLE); if(reason == PlayerBlocked::ONGOING_MOVEMENT) status.setMove(start); } void VCAI::showPuzzleMap() { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::showShipyardDialog(const IShipyard * obj) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::gameOver(PlayerColor player, const EVictoryLossCheckResult & victoryLossCheckResult) { LOG_TRACE_PARAMS(logAi, "victoryLossCheckResult '%s'", victoryLossCheckResult.messageToSelf.toString()); NET_EVENT_HANDLER; logAi->debug("Player %d (%s): I heard that player %d (%s) %s.", playerID, playerID.toString(), player, player.toString(), (victoryLossCheckResult.victory() ? "won" : "lost")); if(player == playerID) { if(victoryLossCheckResult.victory()) { logAi->debug("VCAI: I won! Incredible!"); logAi->debug("Turn nr %d", myCb->getDate()); } else { logAi->debug("VCAI: Player %d (%s) lost. It's me. What a disappointment! :(", player, player.toString()); } finish(); } } void VCAI::artifactPut(const ArtifactLocation & al) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::artifactRemoved(const ArtifactLocation & al) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::artifactDisassembled(const ArtifactLocation & al) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::heroVisit(const CGHeroInstance * visitor, const CGObjectInstance * visitedObj, bool start) { LOG_TRACE_PARAMS(logAi, "start '%i'; obj '%s'", start % (visitedObj ? visitedObj->getObjectName() : std::string("n/a"))); NET_EVENT_HANDLER; if(start && visitedObj) //we can end visit with null object, anyway { markObjectVisited(visitedObj); unreserveObject(visitor, visitedObj); completeGoal(sptr(Goals::VisitObj(visitedObj->id.getNum()).sethero(visitor))); //we don't need to visit it anymore //TODO: what if we visited one-time visitable object that was reserved by another hero (shouldn't, but..) if (visitedObj->ID == Obj::HERO) { visitedHeroes[visitor].insert(HeroPtr(dynamic_cast(visitedObj))); } } status.heroVisit(visitedObj, start); } void VCAI::availableArtifactsChanged(const CGBlackMarket * bm) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::heroVisitsTown(const CGHeroInstance * hero, const CGTownInstance * town) { LOG_TRACE(logAi); NET_EVENT_HANDLER; //buildArmyIn(town); //moveCreaturesToHero(town); } void VCAI::tileHidden(const std::unordered_set & pos) { LOG_TRACE(logAi); NET_EVENT_HANDLER; validateVisitableObjs(); clearPathsInfo(); } void VCAI::tileRevealed(const std::unordered_set & pos) { LOG_TRACE(logAi); NET_EVENT_HANDLER; for(int3 tile : pos) { for(const CGObjectInstance * obj : myCb->getVisitableObjs(tile)) addVisitableObj(obj); } clearPathsInfo(); } void VCAI::heroExchangeStarted(ObjectInstanceID hero1, ObjectInstanceID hero2, QueryID query) { LOG_TRACE(logAi); NET_EVENT_HANDLER; auto firstHero = cb->getHero(hero1); auto secondHero = cb->getHero(hero2); status.addQuery(query, boost::str(boost::format("Exchange between heroes %s (%d) and %s (%d)") % firstHero->getNameTranslated() % firstHero->tempOwner % secondHero->getNameTranslated() % secondHero->tempOwner)); requestActionASAP([=]() { float goalpriority1 = 0; float goalpriority2 = 0; auto firstGoal = getGoal(firstHero); if(firstGoal->goalType == Goals::GATHER_ARMY) goalpriority1 = firstGoal->priority; auto secondGoal = getGoal(secondHero); if(secondGoal->goalType == Goals::GATHER_ARMY) goalpriority2 = secondGoal->priority; auto transferFrom2to1 = [this](const CGHeroInstance * h1, const CGHeroInstance * h2) -> void { this->pickBestCreatures(h1, h2); this->pickBestArtifacts(h1, h2); }; //Do not attempt army or artifacts exchange if we visited ally player //Visits can still be useful if hero have skills like Scholar if(firstHero->tempOwner != secondHero->tempOwner) { logAi->debug("Heroes owned by different players. Do not exchange army or artifacts."); } else if(goalpriority1 > goalpriority2) { transferFrom2to1(firstHero, secondHero); } else if(goalpriority1 < goalpriority2) { transferFrom2to1(secondHero, firstHero); } else //regular criteria { if(firstHero->getFightingStrength() > secondHero->getFightingStrength() && ah->canGetArmy(firstHero, secondHero)) transferFrom2to1(firstHero, secondHero); else if(ah->canGetArmy(secondHero, firstHero)) transferFrom2to1(secondHero, firstHero); } completeGoal(sptr(Goals::VisitHero(firstHero->id.getNum()))); //TODO: what if we were visited by other hero in the meantime? completeGoal(sptr(Goals::VisitHero(secondHero->id.getNum()))); answerQuery(query, 0); }); } void VCAI::heroPrimarySkillChanged(const CGHeroInstance * hero, PrimarySkill which, si64 val) { LOG_TRACE_PARAMS(logAi, "which '%i', val '%i'", static_cast(which) % val); NET_EVENT_HANDLER; } void VCAI::showRecruitmentDialog(const CGDwelling * dwelling, const CArmedInstance * dst, int level, QueryID queryID) { LOG_TRACE_PARAMS(logAi, "level '%i'", level); NET_EVENT_HANDLER; status.addQuery(queryID, "RecruitmentDialog"); requestActionASAP([=](){ recruitCreatures(dwelling, dst); checkHeroArmy(dynamic_cast(dst)); answerQuery(queryID, 0); }); } void VCAI::heroMovePointsChanged(const CGHeroInstance * hero) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::garrisonsChanged(ObjectInstanceID id1, ObjectInstanceID id2) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::newObject(const CGObjectInstance * obj) { LOG_TRACE(logAi); NET_EVENT_HANDLER; if(obj->isVisitable()) addVisitableObj(obj); } //to prevent AI from accessing objects that got deleted while they became invisible (Cover of Darkness, enemy hero moved etc.) below code allows AI to know deletion of objects out of sight //see: RemoveObject::applyFirstCl, to keep AI "not cheating" do not use advantage of this and use this function just to prevent crashes void VCAI::objectRemoved(const CGObjectInstance * obj, const PlayerColor & initiator) { LOG_TRACE(logAi); NET_EVENT_HANDLER; vstd::erase_if_present(visitableObjs, obj); vstd::erase_if_present(alreadyVisited, obj); for(auto h : cb->getHeroesInfo()) unreserveObject(h, obj); std::function checkRemovalValidity = [&](const Goals::TSubgoal & x) -> bool { if((x->goalType == Goals::VISIT_OBJ) && (x->objid == obj->id.getNum())) return true; else if(x->parent && checkRemovalValidity(x->parent)) //repeat this lambda check recursively on parent goal return true; else return false; }; //clear VCAI / main loop caches vstd::erase_if(lockedHeroes, [&](const std::pair & x) -> bool { return checkRemovalValidity(x.second); }); vstd::erase_if(ultimateGoalsFromBasic, [&](const std::pair & x) -> bool { return checkRemovalValidity(x.first); }); vstd::erase_if(basicGoals, checkRemovalValidity); vstd::erase_if(goalsToAdd, checkRemovalValidity); vstd::erase_if(goalsToRemove, checkRemovalValidity); for(auto goal : ultimateGoalsFromBasic) vstd::erase_if(goal.second, checkRemovalValidity); //clear resource manager goal cache ah->removeOutdatedObjectives(checkRemovalValidity); //TODO: Find better way to handle hero boat removal if(auto hero = dynamic_cast(obj)) { if(hero->boat) { vstd::erase_if_present(visitableObjs, hero->boat); vstd::erase_if_present(alreadyVisited, hero->boat); for(auto h : cb->getHeroesInfo()) unreserveObject(h, hero->boat); } } //TODO //there are other places where CGObjectinstance ptrs are stored... // if(obj->ID == Obj::HERO && obj->tempOwner == playerID) { lostHero(cb->getHero(obj->id)); //we can promote, since objectRemoved is called just before actual deletion } } void VCAI::showHillFortWindow(const CGObjectInstance * object, const CGHeroInstance * visitor) { LOG_TRACE(logAi); NET_EVENT_HANDLER; requestActionASAP([=]() { makePossibleUpgrades(visitor); }); } void VCAI::playerBonusChanged(const Bonus & bonus, bool gain) { LOG_TRACE_PARAMS(logAi, "gain '%i'", gain); NET_EVENT_HANDLER; } void VCAI::heroCreated(const CGHeroInstance * h) { LOG_TRACE(logAi); if(h->visitedTown) townVisitsThisWeek[HeroPtr(h)].insert(h->visitedTown); NET_EVENT_HANDLER; } void VCAI::advmapSpellCast(const CGHeroInstance * caster, SpellID spellID) { LOG_TRACE_PARAMS(logAi, "spellID '%i", spellID); NET_EVENT_HANDLER; } void VCAI::showInfoDialog(EInfoWindowMode type, const std::string & text, const std::vector & components, int soundID) { LOG_TRACE_PARAMS(logAi, "soundID '%i'", soundID); NET_EVENT_HANDLER; } void VCAI::requestRealized(PackageApplied * pa) { LOG_TRACE(logAi); NET_EVENT_HANDLER; if(status.haveTurn()) { if(pa->packType == CTypeList::getInstance().getTypeID(nullptr)) { if(pa->result) status.madeTurn(); } } if(pa->packType == CTypeList::getInstance().getTypeID(nullptr)) { status.receivedAnswerConfirmation(pa->requestID, pa->result); } } void VCAI::receivedResource() { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::showUniversityWindow(const IMarket * market, const CGHeroInstance * visitor, QueryID queryID) { LOG_TRACE(logAi); NET_EVENT_HANDLER; status.addQuery(queryID, "UniversityWindow"); requestActionASAP([=](){ answerQuery(queryID, 0); }); } void VCAI::heroManaPointsChanged(const CGHeroInstance * hero) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::heroSecondarySkillChanged(const CGHeroInstance * hero, int which, int val) { LOG_TRACE_PARAMS(logAi, "which '%d', val '%d'", which % val); NET_EVENT_HANDLER; } void VCAI::battleResultsApplied() { LOG_TRACE(logAi); NET_EVENT_HANDLER; assert(status.getBattle() == ENDING_BATTLE); status.setBattle(NO_BATTLE); } void VCAI::beforeObjectPropertyChanged(const SetObjectProperty * sop) { } void VCAI::objectPropertyChanged(const SetObjectProperty * sop) { LOG_TRACE(logAi); NET_EVENT_HANDLER; if(sop->what == ObjProperty::OWNER) { if(myCb->getPlayerRelations(playerID, sop->identifier.as()) == PlayerRelations::ENEMIES) { //we want to visit objects owned by oppponents auto obj = myCb->getObj(sop->id, false); if(obj) { addVisitableObj(obj); // TODO: Remove once save compatability broken. In past owned objects were removed from this set vstd::erase_if_present(alreadyVisited, obj); } } } } void VCAI::buildChanged(const CGTownInstance * town, BuildingID buildingID, int what) { LOG_TRACE_PARAMS(logAi, "what '%i'", what); NET_EVENT_HANDLER; if(town->getOwner() == playerID && what == 1) //built completeGoal(sptr(Goals::BuildThis(buildingID, town))); } void VCAI::heroBonusChanged(const CGHeroInstance * hero, const Bonus & bonus, bool gain) { LOG_TRACE_PARAMS(logAi, "gain '%i'", gain); NET_EVENT_HANDLER; } void VCAI::showMarketWindow(const IMarket * market, const CGHeroInstance * visitor, QueryID queryID) { LOG_TRACE(logAi); NET_EVENT_HANDLER; status.addQuery(queryID, "MarketWindow"); requestActionASAP([=](){ answerQuery(queryID, 0); }); } void VCAI::showWorldViewEx(const std::vector & objectPositions, bool showTerrain) { //TODO: AI support for ViewXXX spell LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::initGameInterface(std::shared_ptr ENV, std::shared_ptr CB) { LOG_TRACE(logAi); env = ENV; myCb = CB; cbc = CB; ah->init(CB.get()); NET_EVENT_HANDLER; //sets ah->rm->cb playerID = *myCb->getPlayerID(); myCb->waitTillRealize = true; myCb->unlockGsWhenWaiting = true; if(!fh) fh = new FuzzyHelper(); retrieveVisitableObjs(); } void VCAI::yourTurn(QueryID queryID) { LOG_TRACE_PARAMS(logAi, "queryID '%i'", queryID); NET_EVENT_HANDLER; status.addQuery(queryID, "YourTurn"); requestActionASAP([=](){ answerQuery(queryID, 0); }); status.startedTurn(); makingTurn = std::make_unique(&VCAI::makeTurn, this); } void VCAI::heroGotLevel(const CGHeroInstance * hero, PrimarySkill pskill, std::vector & skills, QueryID queryID) { LOG_TRACE_PARAMS(logAi, "queryID '%i'", queryID); NET_EVENT_HANDLER; status.addQuery(queryID, boost::str(boost::format("Hero %s got level %d") % hero->getNameTranslated() % hero->level)); requestActionASAP([=](){ answerQuery(queryID, 0); }); } void VCAI::commanderGotLevel(const CCommanderInstance * commander, std::vector skills, QueryID queryID) { LOG_TRACE_PARAMS(logAi, "queryID '%i'", queryID); NET_EVENT_HANDLER; status.addQuery(queryID, boost::str(boost::format("Commander %s of %s got level %d") % commander->name % commander->armyObj->nodeName() % (int)commander->level)); requestActionASAP([=](){ answerQuery(queryID, 0); }); } void VCAI::showBlockingDialog(const std::string & text, const std::vector & components, QueryID askID, const int soundID, bool selection, bool cancel) { LOG_TRACE_PARAMS(logAi, "text '%s', askID '%i', soundID '%i', selection '%i', cancel '%i'", text % askID % soundID % selection % cancel); NET_EVENT_HANDLER; int sel = 0; status.addQuery(askID, boost::str(boost::format("Blocking dialog query with %d components - %s") % components.size() % text)); if(selection) //select from multiple components -> take the last one (they're indexed [1-size]) sel = static_cast(components.size()); if(!selection && cancel) //yes&no -> always answer yes, we are a brave AI :) sel = 1; requestActionASAP([=]() { answerQuery(askID, sel); }); } void VCAI::showTeleportDialog(const CGHeroInstance * hero, TeleportChannelID channel, TTeleportExitsList exits, bool impassable, QueryID askID) { // LOG_TRACE_PARAMS(logAi, "askID '%i', exits '%s'", askID % exits); NET_EVENT_HANDLER; status.addQuery(askID, boost::str(boost::format("Teleport dialog query with %d exits") % exits.size())); int choosenExit = -1; if(impassable) { knownTeleportChannels[channel]->passability = TeleportChannel::IMPASSABLE; } else if(destinationTeleport != ObjectInstanceID() && destinationTeleportPos.valid()) { auto neededExit = std::make_pair(destinationTeleport, destinationTeleportPos); if(destinationTeleport != ObjectInstanceID() && vstd::contains(exits, neededExit)) choosenExit = vstd::find_pos(exits, neededExit); } for(auto exit : exits) { if(status.channelProbing() && exit.first == destinationTeleport) { choosenExit = vstd::find_pos(exits, exit); break; } else { // TODO: Implement checking if visiting that teleport will uncovert any FoW // So far this is the best option to handle decision about probing auto obj = cb->getObj(exit.first, false); if(obj == nullptr && !vstd::contains(teleportChannelProbingList, exit.first)) { if(exit.first != destinationTeleport) teleportChannelProbingList.push_back(exit.first); } } } requestActionASAP([=]() { answerQuery(askID, choosenExit); }); } void VCAI::showGarrisonDialog(const CArmedInstance * up, const CGHeroInstance * down, bool removableUnits, QueryID queryID) { LOG_TRACE_PARAMS(logAi, "removableUnits '%i', queryID '%i'", removableUnits % queryID); NET_EVENT_HANDLER; std::string s1 = up ? up->nodeName() : "NONE"; std::string s2 = down ? down->nodeName() : "NONE"; status.addQuery(queryID, boost::str(boost::format("Garrison dialog with %s and %s") % s1 % s2)); //you can't request action from action-response thread requestActionASAP([=]() { if(removableUnits) pickBestCreatures(down, up); answerQuery(queryID, 0); }); } void VCAI::showMapObjectSelectDialog(QueryID askID, const Component & icon, const MetaString & title, const MetaString & description, const std::vector & objects) { NET_EVENT_HANDLER; status.addQuery(askID, "Map object select query"); requestActionASAP([=](){ answerQuery(askID, selectedObject.getNum()); }); } void VCAI::saveGame(BinarySerializer & h) { NET_EVENT_HANDLER; validateVisitableObjs(); #if 0 //disabled due to issue 2890 registerGoals(h); #endif // 0 CAdventureAI::saveGame(h); serializeInternal(h); } void VCAI::loadGame(BinaryDeserializer & h) { //NET_EVENT_HANDLER; #if 0 //disabled due to issue 2890 registerGoals(h); #endif // 0 CAdventureAI::loadGame(h); serializeInternal(h); } void makePossibleUpgrades(const CArmedInstance * obj) { if(!obj) return; for(int i = 0; i < GameConstants::ARMY_SIZE; i++) { if(const CStackInstance * s = obj->getStackPtr(SlotID(i))) { UpgradeInfo ui; cb->fillUpgradeInfo(obj, SlotID(i), ui); if(ui.oldID != CreatureID::NONE && cb->getResourceAmount().canAfford(ui.cost[0] * s->count)) { cb->upgradeCreature(obj, SlotID(i), ui.newID[0]); } } } } void VCAI::makeTurn() { MAKING_TURN; auto day = cb->getDate(Date::DAY); logAi->info("Player %d (%s) starting turn, day %d", playerID, playerID.toString(), day); boost::shared_lock gsLock(CGameState::mutex); setThreadName("VCAI::makeTurn"); switch(cb->getDate(Date::DAY_OF_WEEK)) { case 1: { townVisitsThisWeek.clear(); std::vector objs; retrieveVisitableObjs(objs, true); for(const CGObjectInstance * obj : objs) { if(isWeeklyRevisitable(obj)) { addVisitableObj(obj); vstd::erase_if_present(alreadyVisited, obj); } } break; } } markHeroAbleToExplore(primaryHero()); visitedHeroes.clear(); try { //it looks messy here, but it's better to have armed heroes before attempting realizing goals for (const CGTownInstance * t : cb->getTownsInfo()) moveCreaturesToHero(t); mainLoop(); /*Below function is also responsible for hero movement via internal wander function. By design it is separate logic for heroes that have nothing to do. Heroes that were not picked by striveToGoal(sptr(Goals::Win())); recently (so they do not have new goals and cannot continue/reevaluate previously locked goals) will do logic in wander().*/ performTypicalActions(); //for debug purpose for (auto h : cb->getHeroesInfo()) { if (h->movementPointsRemaining()) logAi->info("Hero %s has %d MP left", h->getNameTranslated(), h->movementPointsRemaining()); } } catch (boost::thread_interrupted & e) { (void)e; logAi->debug("Making turn thread has been interrupted. We'll end without calling endTurn."); return; } catch (std::exception & e) { logAi->debug("Making turn thread has caught an exception: %s", e.what()); } endTurn(); } std::vector VCAI::getMyHeroes() const { std::vector ret; for(auto h : cb->getHeroesInfo()) { ret.push_back(h); } return ret; } void VCAI::mainLoop() { std::vector elementarGoals; //no duplicates allowed (operator ==) basicGoals.clear(); validateVisitableObjs(); //get all potential and saved goals //TODO: not lose basicGoals.push_back(sptr(Goals::Win())); for (auto goalPair : lockedHeroes) { fh->setPriority(goalPair.second); //re-evaluate, as heroes moved in the meantime basicGoals.push_back(goalPair.second); } if (ah->hasTasksLeft()) basicGoals.push_back(ah->whatToDo()); for (auto quest : myCb->getMyQuests()) { basicGoals.push_back(sptr(Goals::CompleteQuest(quest))); } basicGoals.push_back(sptr(Goals::Build())); invalidPathHeroes.clear(); for (int pass = 0; pass< 30 && basicGoals.size(); pass++) { vstd::removeDuplicates(basicGoals); //TODO: container which does this automagically without has would be nice goalsToAdd.clear(); goalsToRemove.clear(); elementarGoals.clear(); ultimateGoalsFromBasic.clear(); ah->updatePaths(getMyHeroes()); logAi->debug("Main loop: decomposing %i basic goals", basicGoals.size()); for (auto basicGoal : basicGoals) { logAi->debug("Main loop: decomposing basic goal %s", basicGoal->name()); auto goalToDecompose = basicGoal; Goals::TSubgoal elementarGoal = sptr(Goals::Invalid()); int maxAbstractGoals = 10; while (!elementarGoal->isElementar && maxAbstractGoals) { try { elementarGoal = decomposeGoal(goalToDecompose); } catch (goalFulfilledException & e) { //it is impossible to continue some goals (like exploration, for example) //complete abstract goal for now, but maybe main goal finds another path logAi->debug("Goal %s decomposition failed: goal was completed as much as possible", e.goal->name()); completeGoal(e.goal); //put in goalsToRemove break; } catch(cannotFulfillGoalException & e) { //it is impossible to continue some goals (like exploration, for example) //complete abstract goal for now, but maybe main goal finds another path goalsToRemove.push_back(basicGoal); logAi->debug("Goal %s decomposition failed: %s", goalToDecompose->name(), e.what()); break; } catch (std::exception & e) //decomposition failed, which means we can't decompose entire tree { goalsToRemove.push_back(basicGoal); logAi->debug("Goal %s decomposition failed: %s", basicGoal->name(), e.what()); break; } if (elementarGoal->isAbstract) //we can decompose it further { goalsToAdd.push_back(elementarGoal); //decompose further now - this is necesssary if we can't add over 10 goals in the pool goalToDecompose = elementarGoal; //there is a risk of infinite abstract goal loop, though it indicates failed logic maxAbstractGoals--; } else if (elementarGoal->isElementar) //should be { logAi->debug("Found elementar goal %s", elementarGoal->name()); elementarGoals.push_back(elementarGoal); ultimateGoalsFromBasic[elementarGoal].push_back(goalToDecompose); //TODO: how about indirect basicGoal? break; } else //should never be here throw cannotFulfillGoalException("Goal %s is neither abstract nor elementar!" + basicGoal->name()); } } logAi->trace("Main loop: selecting best elementar goal"); //now choose one elementar goal to realize Goals::TGoalVec possibleGoals(elementarGoals.begin(), elementarGoals.end()); //copy to vector Goals::TSubgoal goalToRealize = sptr(Goals::Invalid()); while (possibleGoals.size()) { //allow assign goals to heroes with 0 movement, but don't realize them //maybe there are beter ones left auto bestGoal = fh->chooseSolution(possibleGoals); if (bestGoal->hero) //lock this hero to fulfill goal { setGoal(bestGoal->hero, bestGoal); if (!bestGoal->hero->movementPointsRemaining() || vstd::contains(invalidPathHeroes, bestGoal->hero)) { if (!vstd::erase_if_present(possibleGoals, bestGoal)) { logAi->error("erase_if_preset failed? Something very wrong!"); break; } continue; //chose next from the list } } goalToRealize = bestGoal; //we found our goal to execute break; } //realize best goal if (!goalToRealize->invalid()) { logAi->debug("Trying to realize %s (value %2.3f)", goalToRealize->name(), goalToRealize->priority); try { boost::this_thread::interruption_point(); goalToRealize->accept(this); //visitor pattern boost::this_thread::interruption_point(); } catch (boost::thread_interrupted & e) { (void)e; logAi->debug("Player %d: Making turn thread received an interruption!", playerID); throw; //rethrow, we want to truly end this thread } catch (goalFulfilledException & e) { //the sub-goal was completed successfully completeGoal(e.goal); //local goal was also completed? completeGoal(goalToRealize); // remove abstract visit tile if we completed the elementar one vstd::erase_if_present(goalsToAdd, goalToRealize); } catch (std::exception & e) { logAi->debug("Failed to realize subgoal of type %s, I will stop.", goalToRealize->name()); logAi->debug("The error message was: %s", e.what()); //erase base goal if we failed to execute decomposed goal for (auto basicGoal : ultimateGoalsFromBasic[goalToRealize]) goalsToRemove.push_back(basicGoal); // sometimes resource manager contains an elementar goal which is not able to execute anymore and just fails each turn. ai->ah->notifyGoalCompleted(goalToRealize); //we failed to realize best goal, but maybe others are still possible? } //remove goals we couldn't decompose for (auto goal : goalsToRemove) vstd::erase_if_present(basicGoals, goal); //add abstract goals boost::sort(goalsToAdd, [](const Goals::TSubgoal & lhs, const Goals::TSubgoal & rhs) -> bool { return lhs->priority > rhs->priority; //highest priority at the beginning }); //max number of goals = 10 int i = 0; while (basicGoals.size() < 10 && goalsToAdd.size() > i) { if (!vstd::contains(basicGoals, goalsToAdd[i])) //don't add duplicates basicGoals.push_back(goalsToAdd[i]); i++; } } else //no elementar goals possible { logAi->debug("Goal decomposition exhausted"); break; } } } void VCAI::performObjectInteraction(const CGObjectInstance * obj, HeroPtr h) { LOG_TRACE_PARAMS(logAi, "Hero %s and object %s at %s", h->getNameTranslated() % obj->getObjectName() % obj->pos.toString()); switch(obj->ID) { case Obj::TOWN: moveCreaturesToHero(dynamic_cast(obj)); if(h->visitedTown) //we are inside, not just attacking { townVisitsThisWeek[h].insert(h->visitedTown); if(!h->hasSpellbook() && ah->freeGold() >= GameConstants::SPELLBOOK_GOLD_COST) { if(h->visitedTown->hasBuilt(BuildingID::MAGES_GUILD_1)) cb->buyArtifact(h.get(), ArtifactID::SPELLBOOK); } } break; } completeGoal(sptr(Goals::VisitObj(obj->id.getNum()).sethero(h))); } void VCAI::moveCreaturesToHero(const CGTownInstance * t) { if(t->visitingHero && t->armedGarrison() && t->visitingHero->tempOwner == t->tempOwner) { pickBestCreatures(t->visitingHero, t); } } void VCAI::pickBestCreatures(const CArmedInstance * destinationArmy, const CArmedInstance * source) { const CArmedInstance * armies[] = {destinationArmy, source}; auto bestArmy = ah->getSortedSlots(destinationArmy, source); //foreach best type -> iterate over slots in both armies and if it's the appropriate type, send it to the slot where it belongs for(SlotID i = SlotID(0); i.getNum() < bestArmy.size() && i.validSlot(); i.advance(1)) //i-th strongest creature type will go to i-th slot { const CCreature * targetCreature = bestArmy[i.getNum()].creature; for(auto armyPtr : armies) { for(SlotID j = SlotID(0); j.validSlot(); j.advance(1)) { if(armyPtr->getCreature(j) == targetCreature && (i != j || armyPtr != destinationArmy)) //it's a searched creature not in dst SLOT { //can't take away last creature without split. generate a new stack with 1 creature which is weak but fast if(armyPtr == source && source->needsLastStack() && source->stacksCount() == 1 && (!destinationArmy->hasStackAtSlot(i) || destinationArmy->getCreature(i) == targetCreature)) { auto weakest = ah->getWeakestCreature(bestArmy); if(weakest->creature == targetCreature) { if(1 == source->getStackCount(j)) break; // move all except 1 of weakest creature from source to destination cb->splitStack( source, destinationArmy, j, destinationArmy->getSlotFor(targetCreature), destinationArmy->getStackCount(i) + source->getStackCount(j) - 1); break; } else { // Source last stack is not weakest. Move 1 of weakest creature from destination to source cb->splitStack( destinationArmy, source, destinationArmy->getSlotFor(weakest->creature), source->getFreeSlot(), 1); } } cb->mergeOrSwapStacks(armyPtr, destinationArmy, j, i); } } } } //TODO - having now strongest possible army, we may want to think about arranging stacks auto hero = dynamic_cast(destinationArmy); if(hero) checkHeroArmy(hero); } void VCAI::pickBestArtifacts(const CGHeroInstance * h, const CGHeroInstance * other) { auto equipBest = [](const CGHeroInstance * h, const CGHeroInstance * otherh, bool giveStuffToFirstHero) -> void { bool changeMade = false; do { changeMade = false; //we collect gear always in same order std::vector allArtifacts; if(giveStuffToFirstHero) { for(auto p : h->artifactsWorn) { if(p.second.artifact) allArtifacts.push_back(ArtifactLocation(h->id, p.first)); } } for(auto slot : h->artifactsInBackpack) allArtifacts.push_back(ArtifactLocation(h->id, h->getArtPos(slot.artifact))); if(otherh) { for(auto p : otherh->artifactsWorn) { if(p.second.artifact) allArtifacts.push_back(ArtifactLocation(otherh->id, p.first)); } for(auto slot : otherh->artifactsInBackpack) allArtifacts.push_back(ArtifactLocation(otherh->id, otherh->getArtPos(slot.artifact))); } //we give stuff to one hero or another, depending on giveStuffToFirstHero const CGHeroInstance * target = nullptr; if(giveStuffToFirstHero || !otherh) target = h; else target = otherh; for(auto location : allArtifacts) { if(location.slot == ArtifactPosition::MACH4 || location.slot == ArtifactPosition::SPELLBOOK) continue; // don't attempt to move catapult and spellbook if(location.artHolder == target->id && ArtifactUtils::isSlotEquipment(location.slot)) continue; //don't reequip artifact we already wear auto s = cb->getHero(location.artHolder)->getSlot(location.slot); if(!s || s->locked) //we can't move locks continue; auto artifact = s->artifact; if(!artifact) continue; //FIXME: why are the above possible to be null? bool emptySlotFound = false; for(auto slot : artifact->artType->getPossibleSlots().at(target->bearerType())) { if(target->isPositionFree(slot) && artifact->canBePutAt(target, slot, true)) //combined artifacts are not always allowed to move { ArtifactLocation destLocation(target->id, slot); cb->swapArtifacts(location, destLocation); //just put into empty slot emptySlotFound = true; changeMade = true; break; } } if(!emptySlotFound) //try to put that atifact in already occupied slot { for(auto slot : artifact->artType->getPossibleSlots().at(target->bearerType())) { auto otherSlot = target->getSlot(slot); if(otherSlot && otherSlot->artifact) //we need to exchange artifact for better one { //if that artifact is better than what we have, pick it if(compareArtifacts(artifact, otherSlot->artifact) && artifact->canBePutAt(target, slot, true)) //combined artifacts are not always allowed to move { ArtifactLocation destLocation(target->id, slot); cb->swapArtifacts(location, ArtifactLocation(target->id, target->getArtPos(otherSlot->artifact))); changeMade = true; break; } } } } if(changeMade) break; //start evaluating artifacts from scratch } } while(changeMade); }; equipBest(h, other, true); if(other) equipBest(h, other, false); } void VCAI::recruitCreatures(const CGDwelling * d, const CArmedInstance * recruiter) { //now used only for visited dwellings / towns, not BuyArmy goal for(int i = 0; i < d->creatures.size(); i++) { if(!d->creatures[i].second.size()) continue; int count = d->creatures[i].first; CreatureID creID = d->creatures[i].second.back(); vstd::amin(count, ah->freeResources() / VLC->creatures()->getById(creID)->getFullRecruitCost()); if(count > 0) cb->recruitCreatures(d, recruiter, creID, count, i); } } bool VCAI::isGoodForVisit(const CGObjectInstance * obj, HeroPtr h, std::optional movementCostLimit) { int3 op = obj->visitablePos(); auto paths = ah->getPathsToTile(h, op); for(const auto & path : paths) { if(movementCostLimit && movementCostLimit.value() < path.movementCost()) return false; if(isGoodForVisit(obj, h, path)) return true; } return false; } bool VCAI::isGoodForVisit(const CGObjectInstance * obj, HeroPtr h, const AIPath & path) const { const int3 pos = obj->visitablePos(); const int3 targetPos = path.firstTileToGet(); if (!targetPos.valid()) return false; if (!isTileNotReserved(h.get(), targetPos)) return false; if (obj->wasVisited(playerID)) return false; if (cb->getPlayerRelations(playerID, obj->tempOwner) != PlayerRelations::ENEMIES && !isWeeklyRevisitable(obj)) return false; // Otherwise we flag or get weekly resources / creatures if (!isSafeToVisit(h, pos)) return false; if (!shouldVisit(h, obj)) return false; if (vstd::contains(alreadyVisited, obj)) return false; if (vstd::contains(reservedObjs, obj)) return false; // TODO: looks extra if we already have AIPath //if (!isAccessibleForHero(targetPos, h)) // return false; const CGObjectInstance * topObj = cb->getVisitableObjs(obj->visitablePos()).back(); //it may be hero visiting this obj //we don't try visiting object on which allied or owned hero stands // -> it will just trigger exchange windows and AI will be confused that obj behind doesn't get visited return !(topObj->ID == Obj::HERO && cb->getPlayerRelations(h->tempOwner, topObj->tempOwner) != PlayerRelations::ENEMIES); //all of the following is met } bool VCAI::isTileNotReserved(const CGHeroInstance * h, int3 t) const { if(t.valid()) { auto obj = cb->getTopObj(t); if(obj && vstd::contains(ai->reservedObjs, obj) && vstd::contains(reservedHeroesMap, h) && !vstd::contains(reservedHeroesMap.at(h), obj)) return false; //do not capture object reserved by another hero else return true; } else { return false; } } bool VCAI::canRecruitAnyHero(const CGTownInstance * t) const { //TODO: make gathering gold, building tavern or conquering town (?) possible subgoals if(!t) t = findTownWithTavern(); if(!t) return false; if(cb->getResourceAmount(EGameResID::GOLD) < GameConstants::HERO_GOLD_COST) //TODO: use ResourceManager return false; if(cb->getHeroesInfo().size() >= ALLOWED_ROAMING_HEROES) return false; if(cb->getHeroesInfo().size() >= VLC->settings()->getInteger(EGameSettings::HEROES_PER_PLAYER_ON_MAP_CAP)) return false; if(!cb->getAvailableHeroes(t).size()) return false; return true; } void VCAI::wander(HeroPtr h) { auto visitTownIfAny = [this](HeroPtr h) -> bool { if (h->visitedTown) { townVisitsThisWeek[h].insert(h->visitedTown); buildArmyIn(h->visitedTown); return true; } return false; }; //unclaim objects that are now dangerous for us auto reservedObjsSetCopy = reservedHeroesMap[h]; for(auto obj : reservedObjsSetCopy) { if(!isSafeToVisit(h, obj->visitablePos())) unreserveObject(h, obj); } TimeCheck tc("looking for wander destination"); for(int k = 0; k < 10 && h->movementPointsRemaining(); k++) { validateVisitableObjs(); ah->updatePaths(getMyHeroes()); std::vector dests; //also visit our reserved objects - but they are not prioritized to avoid running back and forth vstd::copy_if(reservedHeroesMap[h], std::back_inserter(dests), [&](ObjectIdRef obj) -> bool { return ah->isTileAccessible(h, obj->visitablePos()); }); int pass = 0; std::vector> distanceLimits = {1.0, 2.0, std::nullopt}; while(!dests.size() && pass < distanceLimits.size()) { auto & distanceLimit = distanceLimits[pass]; logAi->debug("Looking for wander destination pass=%i, cost limit=%f", pass, distanceLimit.value_or(-1.0)); vstd::copy_if(visitableObjs, std::back_inserter(dests), [&](ObjectIdRef obj) -> bool { return isGoodForVisit(obj, h, distanceLimit); }); pass++; } if(!dests.size()) { logAi->debug("Looking for town destination"); if(cb->getVisitableObjs(h->visitablePos()).size() > 1) moveHeroToTile(h->visitablePos(), h); //just in case we're standing on blocked subterranean gate auto compareReinforcements = [&](const CGTownInstance * lhs, const CGTownInstance * rhs) -> bool { const CGHeroInstance * hptr = h.get(); auto r1 = ah->howManyReinforcementsCanGet(hptr, lhs); auto r2 = ah->howManyReinforcementsCanGet(hptr, rhs); if (r1 != r2) return r1 < r2; else return ah->howManyReinforcementsCanBuy(hptr, lhs) < ah->howManyReinforcementsCanBuy(hptr, rhs); }; std::vector townsReachable; std::vector townsNotReachable; for(const CGTownInstance * t : cb->getTownsInfo()) { if(!t->visitingHero && !vstd::contains(townVisitsThisWeek[h], t)) { if(isAccessibleForHero(t->visitablePos(), h)) townsReachable.push_back(t); else townsNotReachable.push_back(t); } } if(townsReachable.size()) //travel to town with largest garrison, or empty - better than nothing { dests.push_back(*boost::max_element(townsReachable, compareReinforcements)); } else if(townsNotReachable.size()) { //TODO pick the truly best const CGTownInstance * t = *boost::max_element(townsNotReachable, compareReinforcements); logAi->debug("%s can't reach any town, we'll try to make our way to %s at %s", h->getNameTranslated(), t->getNameTranslated(), t->visitablePos().toString()); int3 pos1 = h->pos; striveToGoal(sptr(Goals::ClearWayTo(t->visitablePos()).sethero(h))); //TODO: drop "strive", add to mainLoop //if out hero is stuck, we may need to request another hero to clear the way we see if(pos1 == h->pos && h == primaryHero()) //hero can't move { if(canRecruitAnyHero(t)) recruitHero(t); } break; } else if(cb->getResourceAmount(EGameResID::GOLD) >= GameConstants::HERO_GOLD_COST) { std::vector towns = cb->getTownsInfo(); vstd::erase_if(towns, [&](const CGTownInstance * t) -> bool { for(const CGHeroInstance * h : cb->getHeroesInfo()) { if(!t->getArmyStrength() || ah->howManyReinforcementsCanGet(h, t)) return true; } return false; }); if (towns.size()) { recruitHero(*boost::max_element(towns, compareArmyStrength)); } break; } else { logAi->debug("Nowhere more to go..."); break; } } //end of objs empty if(dests.size()) //performance improvement { Goals::TGoalVec targetObjectGoals; for(auto destination : dests) { vstd::concatenate(targetObjectGoals, ah->howToVisitObj(h, destination, false)); } if(targetObjectGoals.size()) { auto bestObjectGoal = fh->chooseSolution(targetObjectGoals); //wander should not cause heroes to be reserved - they are always considered free if(bestObjectGoal->goalType == Goals::VISIT_OBJ) { auto chosenObject = cb->getObjInstance(ObjectInstanceID(bestObjectGoal->objid)); if(chosenObject != nullptr) logAi->debug("Of all %d destinations, object %s at pos=%s seems nice", dests.size(), chosenObject->getObjectName(), chosenObject->pos.toString()); } else logAi->debug("Trying to realize goal of type %s as part of wandering.", bestObjectGoal->name()); try { decomposeGoal(bestObjectGoal)->accept(this); } catch(const goalFulfilledException & e) { if(e.goal->goalType == Goals::EGoals::VISIT_TILE || e.goal->goalType == Goals::EGoals::VISIT_OBJ) continue; throw; } } else { logAi->debug("Nowhere more to go..."); break; } visitTownIfAny(h); } } visitTownIfAny(h); //in case hero is just sitting in town } void VCAI::setGoal(HeroPtr h, Goals::TSubgoal goal) { if(goal->invalid()) { vstd::erase_if_present(lockedHeroes, h); } else { lockedHeroes[h] = goal; goal->setisElementar(false); //Force always evaluate goals before realizing } } void VCAI::evaluateGoal(HeroPtr h) { if(vstd::contains(lockedHeroes, h)) fh->setPriority(lockedHeroes[h]); } void VCAI::completeGoal(Goals::TSubgoal goal) { if (goal->goalType == Goals::WIN) //we can never complete this goal - unless we already won return; logAi->debug("Completing goal: %s", goal->name()); //notify Managers ah->notifyGoalCompleted(goal); //notify mainLoop() goalsToRemove.push_back(goal); //will be removed from mainLoop() goals for (auto basicGoal : basicGoals) //we could luckily fulfill any of our goals { if (basicGoal->fulfillsMe(goal)) goalsToRemove.push_back(basicGoal); } //unreserve heroes if(const CGHeroInstance * h = goal->hero.get(true)) { auto it = lockedHeroes.find(h); if(it != lockedHeroes.end()) { if(it->second == goal || it->second->fulfillsMe(goal)) //FIXME this is overspecified, fulfillsMe shoudl be complete { logAi->debug(goal->completeMessage()); lockedHeroes.erase(it); //goal fulfilled, free hero } } } else //complete goal for all heroes maybe? { vstd::erase_if(lockedHeroes, [goal](std::pair p) { if(p.second == goal || p.second->fulfillsMe(goal)) //we could have fulfilled goals of other heroes by chance { logAi->debug(p.second->completeMessage()); return true; } return false; }); } } void VCAI::battleStart(const BattleID & battleID, const CCreatureSet * army1, const CCreatureSet * army2, int3 tile, const CGHeroInstance * hero1, const CGHeroInstance * hero2, bool side, bool replayAllowed) { NET_EVENT_HANDLER; assert(!playerID.isValidPlayer() || status.getBattle() == UPCOMING_BATTLE); status.setBattle(ONGOING_BATTLE); const CGObjectInstance * presumedEnemy = vstd::backOrNull(cb->getVisitableObjs(tile)); //may be nullptr in some very are cases -> eg. visited monolith and fighting with an enemy at the FoW covered exit battlename = boost::str(boost::format("Starting battle of %s attacking %s at %s") % (hero1 ? hero1->getNameTranslated() : "a army") % (presumedEnemy ? presumedEnemy->getObjectName() : "unknown enemy") % tile.toString()); CAdventureAI::battleStart(battleID, army1, army2, tile, hero1, hero2, side, replayAllowed); } void VCAI::battleEnd(const BattleID & battleID, const BattleResult * br, QueryID queryID) { NET_EVENT_HANDLER; assert(status.getBattle() == ONGOING_BATTLE); status.setBattle(ENDING_BATTLE); bool won = br->winner == myCb->getBattle(battleID)->battleGetMySide(); logAi->debug("Player %d (%s): I %s the %s!", playerID, playerID.toString(), (won ? "won" : "lost"), battlename); battlename.clear(); CAdventureAI::battleEnd(battleID, br, queryID); } void VCAI::waitTillFree() { auto unlock = vstd::makeUnlockSharedGuard(CGameState::mutex); status.waitTillFree(); } void VCAI::markObjectVisited(const CGObjectInstance * obj) { if(!obj) return; if(const auto * rewardable = dynamic_cast(obj)) //we may want to visit it with another hero { if (rewardable->configuration.getVisitMode() == Rewardable::VISIT_HERO) //we may want to visit it with another hero return; if (rewardable->configuration.getVisitMode() == Rewardable::VISIT_BONUS) //or another time return; } if(obj->ID == Obj::MONSTER) return; alreadyVisited.insert(obj); } void VCAI::reserveObject(HeroPtr h, const CGObjectInstance * obj) { reservedObjs.insert(obj); reservedHeroesMap[h].insert(obj); logAi->debug("reserved object id=%d; address=%p; name=%s", obj->id, obj, obj->getObjectName()); } void VCAI::unreserveObject(HeroPtr h, const CGObjectInstance * obj) { vstd::erase_if_present(reservedObjs, obj); //unreserve objects vstd::erase_if_present(reservedHeroesMap[h], obj); } void VCAI::markHeroUnableToExplore(HeroPtr h) { heroesUnableToExplore.insert(h); } void VCAI::markHeroAbleToExplore(HeroPtr h) { vstd::erase_if_present(heroesUnableToExplore, h); } bool VCAI::isAbleToExplore(HeroPtr h) { return !vstd::contains(heroesUnableToExplore, h); } void VCAI::clearPathsInfo() { heroesUnableToExplore.clear(); } void VCAI::validateVisitableObjs() { std::string errorMsg; auto shouldBeErased = [&](const CGObjectInstance * obj) -> bool { if(obj) return !cb->getObj(obj->id, false); // no verbose output needed as we check object visibility else return true; }; //errorMsg is captured by ref so lambda will take the new text errorMsg = " shouldn't be on the visitable objects list!"; vstd::erase_if(visitableObjs, shouldBeErased); //FIXME: how comes our own heroes become inaccessible? vstd::erase_if(reservedHeroesMap, [](std::pair> hp) -> bool { return !hp.first.get(true); }); for(auto & p : reservedHeroesMap) { errorMsg = " shouldn't be on list for hero " + p.first->getNameTranslated() + "!"; vstd::erase_if(p.second, shouldBeErased); } errorMsg = " shouldn't be on the reserved objs list!"; vstd::erase_if(reservedObjs, shouldBeErased); //TODO overkill, hidden object should not be removed. However, we can't know if hidden object is erased from game. errorMsg = " shouldn't be on the already visited objs list!"; vstd::erase_if(alreadyVisited, shouldBeErased); } void VCAI::retrieveVisitableObjs(std::vector & out, bool includeOwned) const { foreach_tile_pos([&](const int3 & pos) { for(const CGObjectInstance * obj : myCb->getVisitableObjs(pos, false)) { if(includeOwned || obj->tempOwner != playerID) out.push_back(obj); } }); } void VCAI::retrieveVisitableObjs() { foreach_tile_pos([&](const int3 & pos) { for(const CGObjectInstance * obj : myCb->getVisitableObjs(pos, false)) { if(obj->tempOwner != playerID) addVisitableObj(obj); } }); } std::vector VCAI::getFlaggedObjects() const { std::vector ret; for(const CGObjectInstance * obj : visitableObjs) { if(obj->tempOwner == playerID) ret.push_back(obj); } return ret; } void VCAI::addVisitableObj(const CGObjectInstance * obj) { if(obj->ID == Obj::EVENT) return; visitableObjs.insert(obj); // All teleport objects seen automatically assigned to appropriate channels auto teleportObj = dynamic_cast(obj); if(teleportObj) CGTeleport::addToChannel(knownTeleportChannels, teleportObj); } const CGObjectInstance * VCAI::lookForArt(ArtifactID aid) const { for(const CGObjectInstance * obj : ai->visitableObjs) { if(obj->ID == Obj::ARTIFACT && dynamic_cast(obj)->getArtifact() == aid) return obj; } return nullptr; //TODO what if more than one artifact is available? return them all or some slection criteria } bool VCAI::isAccessible(const int3 & pos) const { //TODO precalculate for speed for(const CGHeroInstance * h : cb->getHeroesInfo()) { if(isAccessibleForHero(pos, h)) return true; } return false; } HeroPtr VCAI::getHeroWithGrail() const { for(const CGHeroInstance * h : cb->getHeroesInfo()) { if(h->hasArt(ArtifactID::GRAIL)) return h; } return nullptr; } const CGObjectInstance * VCAI::getUnvisitedObj(const std::function & predicate) { //TODO smarter definition of unvisited for(const CGObjectInstance * obj : visitableObjs) { if(predicate(obj) && !vstd::contains(alreadyVisited, obj)) return obj; } return nullptr; } bool VCAI::isAccessibleForHero(const int3 & pos, HeroPtr h, bool includeAllies) const { // Don't visit tile occupied by allied hero if(!includeAllies) { for(auto obj : cb->getVisitableObjs(pos)) { if(obj->ID == Obj::HERO && cb->getPlayerRelations(ai->playerID, obj->tempOwner) != PlayerRelations::ENEMIES) { if(obj != h.get()) return false; } } } return cb->getPathsInfo(h.get())->getPathInfo(pos)->reachable(); } bool VCAI::moveHeroToTile(int3 dst, HeroPtr h) { //TODO: consider if blockVisit objects change something in our checks: AIUtility::isBlockVisitObj() auto afterMovementCheck = [&]() -> void { waitTillFree(); //movement may cause battle or blocking dialog if(!h) { lostHero(h); teleportChannelProbingList.clear(); if(status.channelProbing()) // if hero lost during channel probing we need to switch this mode off status.setChannelProbing(false); throw cannotFulfillGoalException("Hero was lost!"); } }; logAi->debug("Moving hero %s to tile %s", h->getNameTranslated(), dst.toString()); int3 startHpos = h->visitablePos(); bool ret = false; if(startHpos == dst) { //FIXME: this assertion fails also if AI moves onto defeated guarded object assert(cb->getVisitableObjs(dst).size() > 1); //there's no point in revisiting tile where there is no visitable object cb->moveHero(*h, h->convertFromVisitablePos(dst)); afterMovementCheck(); // TODO: is it feasible to hero get killed there if game work properly? // If revisiting, teleport probing is never done, and so the entries into the list would remain unused and uncleared teleportChannelProbingList.clear(); // not sure if AI can currently reconsider to attack bank while staying on it. Check issue 2084 on mantis for more information. ret = true; } else { CGPath path; cb->getPathsInfo(h.get())->getPath(path, dst); if(path.nodes.empty()) { logAi->error("Hero %s cannot reach %s.", h->getNameTranslated(), dst.toString()); throw goalFulfilledException(sptr(Goals::VisitTile(dst).sethero(h))); } int i = (int)path.nodes.size() - 1; auto getObj = [&](int3 coord, bool ignoreHero) { auto tile = cb->getTile(coord, false); assert(tile); return tile->topVisitableObj(ignoreHero); //return cb->getTile(coord,false)->topVisitableObj(ignoreHero); }; auto isTeleportAction = [&](EPathNodeAction action) -> bool { if(action != EPathNodeAction::TELEPORT_NORMAL && action != EPathNodeAction::TELEPORT_BLOCKING_VISIT) { if(action != EPathNodeAction::TELEPORT_BATTLE) { return false; } } return true; }; auto getDestTeleportObj = [&](const CGObjectInstance * currentObject, const CGObjectInstance * nextObjectTop, const CGObjectInstance * nextObject) -> const CGObjectInstance * { if(CGTeleport::isConnected(currentObject, nextObjectTop)) return nextObjectTop; if(nextObjectTop && nextObjectTop->ID == Obj::HERO) { if(CGTeleport::isConnected(currentObject, nextObject)) return nextObject; } return nullptr; }; auto doMovement = [&](int3 dst, bool transit) { cb->moveHero(*h, h->convertFromVisitablePos(dst), transit); }; auto doTeleportMovement = [&](ObjectInstanceID exitId, int3 exitPos) { destinationTeleport = exitId; if(exitPos.valid()) destinationTeleportPos = h->convertFromVisitablePos(exitPos); cb->moveHero(*h, h->pos); destinationTeleport = ObjectInstanceID(); destinationTeleportPos = int3(-1); afterMovementCheck(); }; auto doChannelProbing = [&]() -> void { auto currentPos = h->visitablePos(); auto currentExit = getObj(currentPos, true)->id; status.setChannelProbing(true); for(auto exit : teleportChannelProbingList) doTeleportMovement(exit, int3(-1)); teleportChannelProbingList.clear(); status.setChannelProbing(false); doTeleportMovement(currentExit, currentPos); }; for(; i > 0; i--) { int3 currentCoord = path.nodes[i].coord; int3 nextCoord = path.nodes[i - 1].coord; auto currentObject = getObj(currentCoord, currentCoord == h->visitablePos()); auto nextObjectTop = getObj(nextCoord, false); auto nextObject = getObj(nextCoord, true); auto destTeleportObj = getDestTeleportObj(currentObject, nextObjectTop, nextObject); if(isTeleportAction(path.nodes[i - 1].action) && destTeleportObj != nullptr) { //we use special login if hero standing on teleporter it's mean we need doTeleportMovement(destTeleportObj->id, nextCoord); if(teleportChannelProbingList.size()) doChannelProbing(); markObjectVisited(destTeleportObj); //FIXME: Monoliths are not correctly visited continue; } //stop sending move requests if the next node can't be reached at the current turn (hero exhausted his move points) if(path.nodes[i - 1].turns) { //blockedHeroes.insert(h); //to avoid attempts of moving heroes with very little MPs break; } int3 endpos = path.nodes[i - 1].coord; if(endpos == h->visitablePos()) continue; bool isConnected = false; bool isNextObjectTeleport = false; // Check there is node after next one; otherwise transit is pointless if(i - 2 >= 0) { isConnected = CGTeleport::isConnected(nextObjectTop, getObj(path.nodes[i - 2].coord, false)); isNextObjectTeleport = CGTeleport::isTeleport(nextObjectTop); } if(isConnected || isNextObjectTeleport) { // Hero should be able to go through object if it's allow transit doMovement(endpos, true); } else if(path.nodes[i - 1].layer == EPathfindingLayer::AIR) { doMovement(endpos, true); } else { doMovement(endpos, false); } afterMovementCheck(); if(teleportChannelProbingList.size()) doChannelProbing(); } if(path.nodes[0].action == EPathNodeAction::BLOCKING_VISIT) { ret = h && i == 0; // when we take resource we do not reach its position. We even might not move } } if(h) { if(auto visitedObject = vstd::frontOrNull(cb->getVisitableObjs(h->visitablePos()))) //we stand on something interesting { if(visitedObject != *h) performObjectInteraction(visitedObject, h); } } if(h) //we could have lost hero after last move { completeGoal(sptr(Goals::VisitTile(dst).sethero(h))); //we stepped on some tile, anyway completeGoal(sptr(Goals::ClearWayTo(dst).sethero(h))); ret = ret || (dst == h->visitablePos()); if(!ret) //reserve object we are heading towards { auto obj = vstd::frontOrNull(cb->getVisitableObjs(dst)); if(obj && obj != *h) reserveObject(h, obj); } if(startHpos == h->visitablePos() && !ret) //we didn't move and didn't reach the target { vstd::erase_if_present(lockedHeroes, h); //hero seemingly is confused or has only 95mp which is not enough to move invalidPathHeroes.insert(h); throw cannotFulfillGoalException("Invalid path found!"); } evaluateGoal(h); //new hero position means new game situation logAi->debug("Hero %s moved from %s to %s. Returning %d.", h->getNameTranslated(), startHpos.toString(), h->visitablePos().toString(), ret); } return ret; } void VCAI::buildStructure(const CGTownInstance * t, BuildingID building) { auto name = t->town->buildings.at(building)->getNameTranslated(); logAi->debug("Player %d will build %s in town of %s at %s", ai->playerID, name, t->getNameTranslated(), t->pos.toString()); cb->buildBuilding(t, building); //just do this; } void VCAI::tryRealize(Goals::Explore & g) { throw cannotFulfillGoalException("EXPLORE is not an elementar goal!"); } void VCAI::tryRealize(Goals::RecruitHero & g) { if(cb->getResourceAmount(EGameResID::GOLD) < GameConstants::HERO_GOLD_COST) throw cannotFulfillGoalException("Not enough gold to recruit hero!"); if(const CGTownInstance * t = findTownWithTavern()) { recruitHero(t, true); //TODO try to free way to blocked town //TODO: adventure map tavern or prison? } else { throw cannotFulfillGoalException("No town to recruit hero!"); } } void VCAI::tryRealize(Goals::VisitTile & g) { if(!g.hero->movementPointsRemaining()) throw cannotFulfillGoalException("Cannot visit tile: hero is out of MPs!"); if(g.tile == g.hero->visitablePos() && cb->getVisitableObjs(g.hero->visitablePos()).size() < 2) { logAi->warn("Why do I want to move hero %s to tile %s? Already standing on that tile! ", g.hero->getNameTranslated(), g.tile.toString()); throw goalFulfilledException(sptr(g)); } if(ai->moveHeroToTile(g.tile, g.hero.get())) { throw goalFulfilledException(sptr(g)); } } void VCAI::tryRealize(Goals::VisitObj & g) { auto position = g.tile; if(!g.hero->movementPointsRemaining()) throw cannotFulfillGoalException("Cannot visit object: hero is out of MPs!"); if(position == g.hero->visitablePos() && cb->getVisitableObjs(g.hero->visitablePos()).size() < 2) { logAi->warn("Why do I want to move hero %s to tile %s? Already standing on that tile! ", g.hero->getNameTranslated(), g.tile.toString()); throw goalFulfilledException(sptr(g)); } if(ai->moveHeroToTile(position, g.hero.get())) { throw goalFulfilledException(sptr(g)); } } void VCAI::tryRealize(Goals::VisitHero & g) { if(!g.hero->movementPointsRemaining()) throw cannotFulfillGoalException("Cannot visit target hero: hero is out of MPs!"); const CGObjectInstance * obj = cb->getObj(ObjectInstanceID(g.objid)); if(obj) { if(ai->moveHeroToTile(obj->visitablePos(), g.hero.get())) { throw goalFulfilledException(sptr(g)); } } else { throw cannotFulfillGoalException("Cannot visit hero: object not found!"); } } void VCAI::tryRealize(Goals::BuildThis & g) { auto b = BuildingID(g.bid); auto t = g.town; if (t) { if (cb->canBuildStructure(t, b) == EBuildingState::ALLOWED) { logAi->debug("Player %d will build %s in town of %s at %s", playerID, t->town->buildings.at(b)->getNameTranslated(), t->getNameTranslated(), t->pos.toString()); cb->buildBuilding(t, b); throw goalFulfilledException(sptr(g)); } } throw cannotFulfillGoalException("Cannot build a given structure!"); } void VCAI::tryRealize(Goals::DigAtTile & g) { assert(g.hero->visitablePos() == g.tile); //surely we want to crash here? if(g.hero->diggingStatus() == EDiggingStatus::CAN_DIG) { cb->dig(g.hero.get()); completeGoal(sptr(g)); // finished digging } else { ai->lockedHeroes[g.hero] = sptr(g); //hero who tries to dig shouldn't do anything else throw cannotFulfillGoalException("A hero can't dig!\n"); } } void VCAI::tryRealize(Goals::Trade & g) //trade { if(ah->freeResources()[g.resID] >= g.value) //goal is already fulfilled. Why we need this check, anyway? throw goalFulfilledException(sptr(g)); int accquiredResources = 0; if(const CGObjectInstance * obj = cb->getObj(ObjectInstanceID(g.objid), false)) { if(const auto * m = dynamic_cast(obj)) { auto freeRes = ah->freeResources(); //trade only resources which are not reserved for(auto it = ResourceSet::nziterator(freeRes); it.valid(); it++) { auto res = it->resType; if(res.getNum() == g.resID) //sell any other resource continue; int toGive; int toGet; m->getOffer(res, g.resID, toGive, toGet, EMarketMode::RESOURCE_RESOURCE); toGive = static_cast(toGive * (it->resVal / toGive)); //round down //TODO trade only as much as needed if (toGive) //don't try to sell 0 resources { cb->trade(m, EMarketMode::RESOURCE_RESOURCE, res, GameResID(g.resID), toGive); accquiredResources = static_cast(toGet * (it->resVal / toGive)); logAi->debug("Traded %d of %s for %d of %s at %s", toGive, res, accquiredResources, g.resID, obj->getObjectName()); } if (ah->freeResources()[g.resID] >= g.value) throw goalFulfilledException(sptr(g)); //we traded all we needed } throw cannotFulfillGoalException("I cannot get needed resources by trade!"); } else { throw cannotFulfillGoalException("I don't know how to use this object to raise resources!"); } } else { throw cannotFulfillGoalException("No object that could be used to raise resources!"); } } void VCAI::tryRealize(Goals::BuyArmy & g) { auto t = g.town; ui64 valueBought = 0; //buy the stacks with largest AI value makePossibleUpgrades(t); while (valueBought < g.value) { auto res = ah->allResources(); std::vector creaturesInDwellings; for (int i = 0; i < t->creatures.size(); i++) { auto ci = infoFromDC(t->creatures[i]); if(!ci.count || ci.creID == CreatureID::NONE || (g.objid != -1 && ci.creID.getNum() != g.objid) || t->getUpperArmy()->getSlotFor(ci.creID) == SlotID()) continue; vstd::amin(ci.count, res / ci.cre->getFullRecruitCost()); //max count we can afford if(!ci.count) continue; ci.level = i; //this is important for Dungeon Summoning Portal creaturesInDwellings.push_back(ci); } if (creaturesInDwellings.empty()) throw cannotFulfillGoalException("Can't buy any more creatures!"); creInfo ci = *boost::max_element(creaturesInDwellings, [](const creInfo & lhs, const creInfo & rhs) { //max value of creatures we can buy with our res int value1 = lhs.cre->getAIValue() * lhs.count; int value2 = rhs.cre->getAIValue() * rhs.count; return value1 < value2; }); cb->recruitCreatures(t, t->getUpperArmy(), ci.creID, ci.count, ci.level); valueBought += ci.count * ci.cre->getAIValue(); } throw goalFulfilledException(sptr(g)); //we bought as many creatures as we wanted } void VCAI::tryRealize(Goals::Invalid & g) { throw cannotFulfillGoalException("I don't know how to fulfill this!"); } void VCAI::tryRealize(Goals::AbstractGoal & g) { logAi->debug("Attempting realizing goal with code %s", g.name()); throw cannotFulfillGoalException("Unknown type of goal !"); } const CGTownInstance * VCAI::findTownWithTavern() const { for(const CGTownInstance * t : cb->getTownsInfo()) if(t->hasBuilt(BuildingID::TAVERN) && !t->visitingHero) return t; return nullptr; } Goals::TSubgoal VCAI::getGoal(HeroPtr h) const { auto it = lockedHeroes.find(h); if(it != lockedHeroes.end()) return it->second; else return sptr(Goals::Invalid()); } std::vector VCAI::getUnblockedHeroes() const { std::vector ret; for(auto h : cb->getHeroesInfo()) { //&& !vstd::contains(lockedHeroes, h) //at this point we assume heroes exhausted their locked goals if(canAct(h)) ret.push_back(h); } return ret; } bool VCAI::canAct(HeroPtr h) const { auto mission = lockedHeroes.find(h); if(mission != lockedHeroes.end()) { //FIXME: I'm afraid there can be other conditions when heroes can act but not move :? if(mission->second->goalType == Goals::DIG_AT_TILE && !mission->second->isElementar) return false; } return h->movementPointsRemaining(); } HeroPtr VCAI::primaryHero() const { auto hs = cb->getHeroesInfo(); if (hs.empty()) return nullptr; else return *boost::max_element(hs, compareHeroStrength); } void VCAI::endTurn() { logAi->info("Player %d (%s) ends turn", playerID, playerID.toString()); if(!status.haveTurn()) { logAi->error("Not having turn at the end of turn???"); } logAi->debug("Resources at the end of turn: %s", cb->getResourceAmount().toString()); do { cb->endTurn(); } while(status.haveTurn()); //for some reasons, our request may fail -> stop requesting end of turn only after we've received a confirmation that it's over logGlobal->info("Player %d (%s) ended turn", playerID, playerID.toString()); } void VCAI::striveToGoal(Goals::TSubgoal basicGoal) { //TODO: this function is deprecated and should be dropped altogether auto goalToDecompose = basicGoal; Goals::TSubgoal elementarGoal = sptr(Goals::Invalid()); int maxAbstractGoals = 10; while (!elementarGoal->isElementar && maxAbstractGoals) { try { elementarGoal = decomposeGoal(goalToDecompose); } catch (goalFulfilledException & e) { //it is impossible to continue some goals (like exploration, for example) completeGoal(e.goal); //put in goalsToRemove logAi->debug("Goal %s decomposition failed: goal was completed as much as possible", e.goal->name()); return; } catch (std::exception & e) { goalsToRemove.push_back(basicGoal); logAi->debug("Goal %s decomposition failed: %s", basicGoal->name(), e.what()); return; } if (elementarGoal->isAbstract) //we can decompose it further { goalsToAdd.push_back(elementarGoal); //decompose further now - this is necesssary if we can't add over 10 goals in the pool goalToDecompose = elementarGoal; //there is a risk of infinite abstract goal loop, though it indicates failed logic maxAbstractGoals--; } else if (elementarGoal->isElementar) //should be { logAi->debug("Found elementar goal %s", elementarGoal->name()); ultimateGoalsFromBasic[elementarGoal].push_back(goalToDecompose); //TODO: how about indirect basicGoal? break; } else //should never be here throw cannotFulfillGoalException("Goal %s is neither abstract nor elementar!" + basicGoal->name()); } //realize best goal if (!elementarGoal->invalid()) { logAi->debug("Trying to realize %s (value %2.3f)", elementarGoal->name(), elementarGoal->priority); try { boost::this_thread::interruption_point(); elementarGoal->accept(this); //visitor pattern boost::this_thread::interruption_point(); } catch (boost::thread_interrupted & e) { (void)e; logAi->debug("Player %d: Making turn thread received an interruption!", playerID); throw; //rethrow, we want to truly end this thread } catch (goalFulfilledException & e) { //the sub-goal was completed successfully completeGoal(e.goal); //local goal was also completed completeGoal(elementarGoal); } catch (std::exception & e) { logAi->debug("Failed to realize subgoal of type %s, I will stop.", elementarGoal->name()); logAi->debug("The error message was: %s", e.what()); //erase base goal if we failed to execute decomposed goal for (auto basicGoalToRemove : ultimateGoalsFromBasic[elementarGoal]) goalsToRemove.push_back(basicGoalToRemove); } } } Goals::TSubgoal VCAI::decomposeGoal(Goals::TSubgoal ultimateGoal) { if(ultimateGoal->isElementar) { logAi->warn("Trying to decompose elementar goal %s", ultimateGoal->name()); return ultimateGoal; } const int searchDepth = 30; Goals::TSubgoal goal = ultimateGoal; logAi->debug("Decomposing goal %s", ultimateGoal->name()); int maxGoals = searchDepth; //preventing deadlock for mutually dependent goals while (maxGoals) { boost::this_thread::interruption_point(); goal = goal->whatToDoToAchieve(); //may throw if decomposition fails --maxGoals; if (goal == ultimateGoal) //compare objects by value if (goal->isElementar == ultimateGoal->isElementar) throw cannotFulfillGoalException((boost::format("Goal dependency loop detected for %s!") % ultimateGoal->name()).str()); if (goal->isAbstract || goal->isElementar) return goal; else logAi->debug("Considering: %s", goal->name()); } throw cannotFulfillGoalException("Too many subgoals, don't know what to do"); } void VCAI::performTypicalActions() { for(auto h : getUnblockedHeroes()) { if(!h) //hero might be lost. getUnblockedHeroes() called once on start of turn continue; logAi->debug("Hero %s started wandering, MP=%d", h->getNameTranslated(), h->movementPointsRemaining()); makePossibleUpgrades(*h); pickBestArtifacts(*h); try { wander(h); } catch(std::exception & e) { logAi->debug("Cannot use this hero anymore, received exception: %s", e.what()); continue; } } } void VCAI::buildArmyIn(const CGTownInstance * t) { makePossibleUpgrades(t->visitingHero); makePossibleUpgrades(t); recruitCreatures(t, t->getUpperArmy()); moveCreaturesToHero(t); } void VCAI::checkHeroArmy(HeroPtr h) { auto it = lockedHeroes.find(h); if(it != lockedHeroes.end()) { if(it->second->goalType == Goals::GATHER_ARMY && it->second->value <= h->getArmyStrength()) completeGoal(sptr(Goals::GatherArmy(it->second->value).sethero(h))); } } void VCAI::recruitHero(const CGTownInstance * t, bool throwing) { logAi->debug("Trying to recruit a hero in %s at %s", t->getNameTranslated(), t->visitablePos().toString()); auto heroes = cb->getAvailableHeroes(t); if(heroes.size()) { auto hero = heroes[0]; if(heroes.size() >= 2) //makes sense to recruit two heroes with starting amries in first week { if(heroes[1]->getTotalStrength() > hero->getTotalStrength()) hero = heroes[1]; } cb->recruitHero(t, hero); throw goalFulfilledException(sptr(Goals::RecruitHero().settown(t))); } else if(throwing) { throw cannotFulfillGoalException("No available heroes in tavern in " + t->nodeName()); } } void VCAI::finish() { //we want to lock to avoid multiple threads from calling makingTurn->join() at same time boost::lock_guard multipleCleanupGuard(turnInterruptionMutex); if(makingTurn) { makingTurn->interrupt(); makingTurn->join(); makingTurn.reset(); } } void VCAI::requestActionASAP(std::function whatToDo) { boost::thread newThread([this, whatToDo]() { setThreadName("VCAI::requestActionASAP::whatToDo"); SET_GLOBAL_STATE(this); boost::shared_lock gsLock(CGameState::mutex); whatToDo(); }); newThread.detach(); } void VCAI::lostHero(HeroPtr h) { logAi->debug("I lost my hero %s. It's best to forget and move on.", h.name); vstd::erase_if_present(lockedHeroes, h); for(auto obj : reservedHeroesMap[h]) { vstd::erase_if_present(reservedObjs, obj); //unreserve all objects for that hero } vstd::erase_if_present(reservedHeroesMap, h); vstd::erase_if_present(visitedHeroes, h); for (auto heroVec : visitedHeroes) { vstd::erase_if_present(heroVec.second, h); } //remove goals with removed hero assigned from main loop vstd::erase_if(ultimateGoalsFromBasic, [&](const std::pair & x) -> bool { if(x.first->hero == h) return true; else return false; }); auto removedHeroGoalPredicate = [&](const Goals::TSubgoal & x) ->bool { if(x->hero == h) return true; else return false; }; vstd::erase_if(basicGoals, removedHeroGoalPredicate); vstd::erase_if(goalsToAdd, removedHeroGoalPredicate); vstd::erase_if(goalsToRemove, removedHeroGoalPredicate); for(auto goal : ultimateGoalsFromBasic) vstd::erase_if(goal.second, removedHeroGoalPredicate); } void VCAI::answerQuery(QueryID queryID, int selection) { logAi->debug("I'll answer the query %d giving the choice %d", queryID, selection); if(queryID != QueryID(-1)) { cb->selectionMade(selection, queryID); } else { logAi->debug("Since the query ID is %d, the answer won't be sent. This is not a real query!", queryID); //do nothing } } void VCAI::requestSent(const CPackForServer * pack, int requestID) { //BNLOG("I have sent request of type %s", typeid(*pack).name()); if(auto reply = dynamic_cast(pack)) { status.attemptedAnsweringQuery(reply->qid, requestID); } } std::string VCAI::getBattleAIName() const { if(settings["server"]["enemyAI"].getType() == JsonNode::JsonType::DATA_STRING) return settings["server"]["enemyAI"].String(); else return "BattleAI"; } void VCAI::validateObject(const CGObjectInstance * obj) { validateObject(obj->id); } void VCAI::validateObject(ObjectIdRef obj) { auto matchesId = [&](const CGObjectInstance * hlpObj) -> bool { return hlpObj->id == obj.id; }; if(!obj) { vstd::erase_if(visitableObjs, matchesId); for(auto & p : reservedHeroesMap) vstd::erase_if(p.second, matchesId); vstd::erase_if(reservedObjs, matchesId); } } AIStatus::AIStatus() { battle = NO_BATTLE; havingTurn = false; ongoingHeroMovement = false; ongoingChannelProbing = false; } AIStatus::~AIStatus() { } void AIStatus::setBattle(BattleState BS) { boost::unique_lock lock(mx); LOG_TRACE_PARAMS(logAi, "battle state=%d", (int)BS); battle = BS; cv.notify_all(); } BattleState AIStatus::getBattle() { boost::unique_lock lock(mx); return battle; } void AIStatus::addQuery(QueryID ID, std::string description) { if(ID == QueryID(-1)) { logAi->debug("The \"query\" has an id %d, it'll be ignored as non-query. Description: %s", ID, description); return; } assert(ID.getNum() >= 0); boost::unique_lock lock(mx); assert(!vstd::contains(remainingQueries, ID)); remainingQueries[ID] = description; cv.notify_all(); logAi->debug("Adding query %d - %s. Total queries count: %d", ID, description, remainingQueries.size()); } void AIStatus::removeQuery(QueryID ID) { boost::unique_lock lock(mx); assert(vstd::contains(remainingQueries, ID)); std::string description = remainingQueries[ID]; remainingQueries.erase(ID); cv.notify_all(); logAi->debug("Removing query %d - %s. Total queries count: %d", ID, description, remainingQueries.size()); } int AIStatus::getQueriesCount() { boost::unique_lock lock(mx); return static_cast(remainingQueries.size()); } void AIStatus::startedTurn() { boost::unique_lock lock(mx); havingTurn = true; cv.notify_all(); } void AIStatus::madeTurn() { boost::unique_lock lock(mx); havingTurn = false; cv.notify_all(); } void AIStatus::waitTillFree() { boost::unique_lock lock(mx); while(battle != NO_BATTLE || !remainingQueries.empty() || !objectsBeingVisited.empty() || ongoingHeroMovement) cv.wait_for(lock, boost::chrono::milliseconds(100)); } bool AIStatus::haveTurn() { boost::unique_lock lock(mx); return havingTurn; } void AIStatus::attemptedAnsweringQuery(QueryID queryID, int answerRequestID) { boost::unique_lock lock(mx); assert(vstd::contains(remainingQueries, queryID)); std::string description = remainingQueries[queryID]; logAi->debug("Attempted answering query %d - %s. Request id=%d. Waiting for results...", queryID, description, answerRequestID); requestToQueryID[answerRequestID] = queryID; } void AIStatus::receivedAnswerConfirmation(int answerRequestID, int result) { QueryID query; { boost::unique_lock lock(mx); assert(vstd::contains(requestToQueryID, answerRequestID)); query = requestToQueryID[answerRequestID]; assert(vstd::contains(remainingQueries, query)); requestToQueryID.erase(answerRequestID); } if(result) { removeQuery(query); } else { logAi->error("Something went really wrong, failed to answer query %d : %s", query.getNum(), remainingQueries[query]); //TODO safely retry } } void AIStatus::heroVisit(const CGObjectInstance * obj, bool started) { boost::unique_lock lock(mx); if(started) { objectsBeingVisited.push_back(obj); } else { // There can be more than one object visited at the time (eg. hero visits Subterranean Gate // causing visit to hero on the other side. // However, we are guaranteed that start/end visit notification maintain stack order. assert(!objectsBeingVisited.empty()); objectsBeingVisited.pop_back(); } cv.notify_all(); } void AIStatus::setMove(bool ongoing) { boost::unique_lock lock(mx); ongoingHeroMovement = ongoing; cv.notify_all(); } void AIStatus::setChannelProbing(bool ongoing) { boost::unique_lock lock(mx); ongoingChannelProbing = ongoing; cv.notify_all(); } bool AIStatus::channelProbing() { return ongoingChannelProbing; } bool isWeeklyRevisitable(const CGObjectInstance * obj) { //TODO: allow polling of remaining creatures in dwelling if(const auto * rewardable = dynamic_cast(obj)) return rewardable->configuration.getResetDuration() == 7; if(dynamic_cast(obj)) return true; if(dynamic_cast(obj)) //banks tend to respawn often in mods return true; switch(obj->ID) { case Obj::STABLES: case Obj::MAGIC_WELL: case Obj::HILL_FORT: return true; case Obj::BORDER_GATE: case Obj::BORDERGUARD: return (dynamic_cast(obj))->wasMyColorVisited(ai->playerID); //FIXME: they could be revisited sooner than in a week } return false; } bool shouldVisit(HeroPtr h, const CGObjectInstance * obj) { switch(obj->ID) { case Obj::TOWN: case Obj::HERO: //never visit our heroes at random return obj->tempOwner != h->tempOwner; //do not visit our towns at random case Obj::BORDER_GATE: { for(auto q : ai->myCb->getMyQuests()) { if(q.obj == obj) { return false; // do not visit guards or gates when wandering } } return true; //we don't have this quest yet } case Obj::BORDERGUARD: //open borderguard if possible return (dynamic_cast(obj))->wasMyColorVisited(ai->playerID); case Obj::SEER_HUT: case Obj::QUEST_GUARD: { for(auto q : ai->myCb->getMyQuests()) { if(q.obj == obj) { if(q.quest->checkQuest(h.h)) return true; //we completed the quest else return false; //we can't complete this quest } } return true; //we don't have this quest yet } case Obj::CREATURE_GENERATOR1: { if(obj->tempOwner != h->tempOwner) return true; //flag just in case bool canRecruitCreatures = false; const CGDwelling * d = dynamic_cast(obj); for(auto level : d->creatures) { for(auto c : level.second) { if(h->getSlotFor(CreatureID(c)) != SlotID()) canRecruitCreatures = true; } } return canRecruitCreatures; } case Obj::HILL_FORT: { for(auto slot : h->Slots()) { if(slot.second->type->hasUpgrades()) return true; //TODO: check price? } return false; } case Obj::MONOLITH_ONE_WAY_ENTRANCE: case Obj::MONOLITH_ONE_WAY_EXIT: case Obj::MONOLITH_TWO_WAY: case Obj::WHIRLPOOL: return false; case Obj::SCHOOL_OF_MAGIC: case Obj::SCHOOL_OF_WAR: { if (ai->ah->freeGold() < 1000) return false; break; } case Obj::LIBRARY_OF_ENLIGHTENMENT: if(h->level < 12) return false; break; case Obj::TREE_OF_KNOWLEDGE: { TResources myRes = ai->ah->freeResources(); if(myRes[EGameResID::GOLD] < 2000 || myRes[EGameResID::GEMS] < 10) return false; break; } case Obj::MAGIC_WELL: return h->mana < h->manaLimit(); case Obj::PRISON: return ai->myCb->getHeroesInfo().size() < VLC->settings()->getInteger(EGameSettings::HEROES_PER_PLAYER_ON_MAP_CAP); case Obj::TAVERN: { //TODO: make AI actually recruit heroes //TODO: only on request if(ai->myCb->getHeroesInfo().size() >= VLC->settings()->getInteger(EGameSettings::HEROES_PER_PLAYER_ON_MAP_CAP)) return false; else if(ai->ah->freeGold() < GameConstants::HERO_GOLD_COST) return false; break; } case Obj::BOAT: return false; //Boats are handled by pathfinder case Obj::EYE_OF_MAGI: return false; //this object is useless to visit, but could be visited indefinitely } if(obj->wasVisited(*h)) //it must pointer to hero instance, heroPtr calls function wasVisited(ui8 player); return false; return true; } std::optional VCAI::makeSurrenderRetreatDecision(const BattleID & battleID, const BattleStateInfoForRetreat & battleState) { return std::nullopt; }