#include "StdInc.h" #include "VCAI.h" #include "Goals.h" #include "Fuzzy.h" #include "../../lib/UnlockGuard.h" #include "../../lib/mapObjects/MapObjects.h" #include "../../lib/CConfigHandler.h" #include "../../lib/CHeroHandler.h" #include "../../lib/CModHandler.h" /* * CCreatureHandler.h, 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 * */ extern FuzzyHelper *fh; class CGVisitableOPW; const double SAFE_ATTACK_CONSTANT = 1.5; const int GOLD_RESERVE = 10000; //when buying creatures we want to keep at least this much gold (10000 so at least we'll be able to reach capitol) using namespace vstd; //one thread may be turn of AI and another will be handling a side effect for AI2 boost::thread_specific_ptr cb; boost::thread_specific_ptr ai; //std::map > HeroView::infosCount; //helper RAII to manage global ai/cb ptrs struct SetGlobalState { SetGlobalState(VCAI * AI) { assert(!ai.get()); assert(!cb.get()); ai.reset(AI); cb.reset(AI->myCb.get()); } ~SetGlobalState() { ai.release(); cb.release(); } }; #define SET_GLOBAL_STATE(ai) SetGlobalState _hlpSetState(ai); #define NET_EVENT_HANDLER SET_GLOBAL_STATE(this) #define MAKING_TURN SET_GLOBAL_STATE(this) unsigned char &retreiveTileN(std::vector< std::vector< std::vector > > &vectors, const int3 &pos) { return vectors[pos.x][pos.y][pos.z]; } const unsigned char &retreiveTileN(const std::vector< std::vector< std::vector > > &vectors, const int3 &pos) { return vectors[pos.x][pos.y][pos.z]; } void foreach_tile(std::vector< std::vector< std::vector > > &vectors, std::function foo) { for(auto & vector : vectors) for(auto j = vector.begin(); j != vector.end(); j++) for(auto & elem : *j) foo(elem); } struct ObjInfo { int3 pos; std::string name; ObjInfo(){} ObjInfo(const CGObjectInstance *obj): pos(obj->pos), name(obj->getObjectName()) { } }; std::map helperObjInfo; VCAI::VCAI(void) { LOG_TRACE(logAi); makingTurn = nullptr; destinationTeleport = ObjectInstanceID(); } VCAI::~VCAI(void) { LOG_TRACE(logAi); } void VCAI::availableCreaturesChanged(const CGDwelling *town) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::heroMoved(const TryMoveHero & details) { LOG_TRACE(logAi); NET_EVENT_HANDLER; validateObject(details.id); //enemy hero may have left visible area cachedSectorMaps.clear(); if(details.result == TryMoveHero::TELEPORTATION) { const int3 from = CGHeroInstance::convertPosition(details.start, false), to = CGHeroInstance::convertPosition(details.end, false); const CGObjectInstance *o1 = frontOrNull(cb->getVisitableObjs(from)), *o2 = frontOrNull(cb->getVisitableObjs(to)); 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->debugStream() << boost::format("Found a pair of subterranean gates between %s and %s!") % from % to; } } } } } void VCAI::stackChagedCount(const StackLocation &location, const TQuantity &change, bool isAbsolute) { LOG_TRACE_PARAMS(logAi, "isAbsolute '%i'", isAbsolute); NET_EVENT_HANDLER; } 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 *townOrTavern) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } 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); NET_EVENT_HANDLER; logAi->debugStream() << boost::format("Player %d: I heard that player %d %s.") % playerID % player.getNum() % (victoryLossCheckResult.victory() ? "won" : "lost"); if(player == playerID) { if(victoryLossCheckResult.victory()) { logAi->debugStream() << "VCAI: I won! Incredible!"; logAi->debugStream() << "Turn nr " << myCb->getDate(); } else { logAi->debugStream() << "VCAI: Player " << player << " lost. It's me. What a disappointment! :("; } 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::stacksErased(const StackLocation &location) { 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) { markObjectVisited (visitedObj); unreserveObject(visitor, visitedObj); completeGoal (sptr(Goals::GetObj(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..) } status.heroVisit(visitedObj, start); } void VCAI::availableArtifactsChanged(const CGBlackMarket *bm /*= nullptr*/) { 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(); } 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 and %s") % firstHero->name % secondHero->name)); requestActionASAP([=]() { float goalpriority1 = 0, 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); }; if (goalpriority1 > goalpriority2) transferFrom2to1 (firstHero, secondHero); else if (goalpriority1 < goalpriority2) transferFrom2to1 (secondHero, firstHero); else //regular criteria { if (firstHero->getFightingStrength() > secondHero->getFightingStrength() && canGetArmy(firstHero, secondHero)) transferFrom2to1 (firstHero, secondHero); else if (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, int which, si64 val) { LOG_TRACE_PARAMS(logAi, "which '%i', val '%i'", which % val); NET_EVENT_HANDLER; } void VCAI::showRecruitmentDialog(const CGDwelling *dwelling, const CArmedInstance *dst, int level) { LOG_TRACE_PARAMS(logAi, "level '%i'", level); NET_EVENT_HANDLER; } void VCAI::heroMovePointsChanged(const CGHeroInstance * hero) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::stackChangedType(const StackLocation &location, const CCreature &newType) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::stacksRebalanced(const StackLocation &src, const StackLocation &dst, TQuantity count) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::newObject(const CGObjectInstance * obj) { LOG_TRACE(logAi); NET_EVENT_HANDLER; if(obj->isVisitable()) addVisitableObj(obj); cachedSectorMaps.clear(); } void VCAI::objectRemoved(const CGObjectInstance *obj) { LOG_TRACE(logAi); NET_EVENT_HANDLER; erase_if_present(visitableObjs, obj); erase_if_present(alreadyVisited, obj); for (auto h : cb->getHeroesInfo()) unreserveObject(h, obj); cachedSectorMaps.clear(); //invalidate all paths //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::newStackInserted(const StackLocation &location, const CStackInstance &stack) { LOG_TRACE(logAi); 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, int spellID) { LOG_TRACE_PARAMS(logAi, "spellID '%i", spellID); NET_EVENT_HANDLER; } void VCAI::showInfoDialog(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 == typeList.getTypeID()) if(pa->result) status.madeTurn(); } if(pa->packType == typeList.getTypeID()) { status.receivedAnswerConfirmation(pa->requestID, pa->result); } } void VCAI::receivedResource(int type, int val) { LOG_TRACE_PARAMS(logAi, "type '%i', val '%i'", type % val); NET_EVENT_HANDLER; } void VCAI::stacksSwapped(const StackLocation &loc1, const StackLocation &loc2) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::showUniversityWindow(const IMarket *market, const CGHeroInstance *visitor) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } 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::objectPropertyChanged(const SetObjectProperty * sop) { LOG_TRACE(logAi); NET_EVENT_HANDLER; if(sop->what == ObjProperty::OWNER) { //we don't want to visit know object twice (do we really?) if(sop->val == playerID.getNum()) erase_if_present(visitableObjs, myCb->getObj(sop->id)); else if (myCb->getPlayerRelations(playerID, (PlayerColor)sop->val) == PlayerRelations::ENEMIES) { //we want to visit objects owned by oppponents auto obj = myCb->getObj(sop->id, false); if (obj) { addVisitableObj(obj); 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; } 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) { LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::showWorldViewEx(const std::vector & objectPositions) { //TODO: AI support for ViewXXX spell LOG_TRACE(logAi); NET_EVENT_HANDLER; } void VCAI::init(shared_ptr CB) { LOG_TRACE(logAi); myCb = CB; cbc = CB; NET_EVENT_HANDLER; playerID = *myCb->getMyColor(); myCb->waitTillRealize = true; myCb->unlockGsWhenWaiting = true; if(!fh) fh = new FuzzyHelper(); retreiveVisitableObjs(); } void VCAI::yourTurn() { LOG_TRACE(logAi); NET_EVENT_HANDLER; status.startedTurn(); makingTurn = make_unique(&VCAI::makeTurn, this); } void VCAI::heroGotLevel(const CGHeroInstance *hero, PrimarySkill::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->name % 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 = components.size(); if(!selection && cancel) //yes&no -> always answer yes, we are a brave AI :) sel = 1; requestActionASAP([=]() { answerQuery(askID, sel); }); } void VCAI::showTeleportDialog(TeleportChannelID channel, std::vector 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())); ObjectInstanceID choosenExit; if(impassable) knownTeleportChannels[channel]->passability = TeleportChannel::IMPASSABLE; else { if(destinationTeleport != ObjectInstanceID() && vstd::contains(exits, destinationTeleport)) choosenExit = destinationTeleport; if(!status.channelProbing()) { vstd::copy_if(exits, vstd::set_inserter(teleportChannelProbingList), [&](ObjectInstanceID id) -> bool { return !(vstd::contains(visitableObjs, cb->getObj(id)) || id == choosenExit); }); } } requestActionASAP([=]() { answerQuery(askID, choosenExit.getNum()); }); } 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([=]() { pickBestCreatures (down, up); answerQuery(queryID, 0); }); } void VCAI::saveGame(COSer & h, const int version) { LOG_TRACE_PARAMS(logAi, "version '%i'", version); NET_EVENT_HANDLER; validateVisitableObjs(); registerGoals(h); CAdventureAI::saveGame(h, version); serializeInternal(h, version); } void VCAI::loadGame(CISer & h, const int version) { LOG_TRACE_PARAMS(logAi, "version '%i'", version); NET_EVENT_HANDLER; registerGoals(h); CAdventureAI::loadGame(h, version); serializeInternal(h, version); } 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->getUpgradeInfo(obj, SlotID(i), ui); if(ui.oldID >= 0 && cb->getResourceAmount().canAfford(ui.cost[0] * s->count)) { cb->upgradeCreature(obj, SlotID(i), ui.newID[0]); } } } } void VCAI::makeTurn() { logGlobal->infoStream() << boost::format("Player %d starting turn") % static_cast(playerID.getNum()); MAKING_TURN; boost::shared_lock gsLock(cb->getGsMutex()); setThreadName("VCAI::makeTurn"); switch(cb->getDate(Date::DAY_OF_WEEK)) { case 1: { townVisitsThisWeek.clear(); std::vector objs; retreiveVisitableObjs(objs, true); for(const CGObjectInstance *obj : objs) { if (isWeeklyRevisitable(obj)) { addVisitableObj(obj); erase_if_present (alreadyVisited, obj); } } } break; } markHeroAbleToExplore (primaryHero()); makeTurnInternal(); makingTurn.reset(); return; } void VCAI::makeTurnInternal() { saving = 0; //it looks messy here, but it's better to have armed heroes before attempting realizing goals for(const CGTownInstance *t : cb->getTownsInfo()) moveCreaturesToHero(t); try { //Pick objects reserved in previous turn - we expect only nerby objects there auto reservedHeroesCopy = reservedHeroesMap; //work on copy => the map may be changed while iterating (eg because hero died when attempting a goal) for (auto hero : reservedHeroesCopy) { if(reservedHeroesMap.count(hero.first)) continue; //hero might have been removed while we were in this loop if(!hero.first.validAndSet()) { logAi->errorStream() << "Hero " << hero.first.name << " present on reserved map. Shouldn't be. "; continue; } std::vector vec(hero.second.begin(), hero.second.end()); boost::sort (vec, CDistanceSorter(hero.first.get())); for (auto obj : vec) { if(!obj || !cb->getObj(obj->id)) { logAi->errorStream() << "Error: there is wrong object on list for hero " << hero.first->name; continue; } striveToGoal (sptr(Goals::VisitTile(obj->visitablePos()).sethero(hero.first))); } } //now try to win striveToGoal(sptr(Goals::Win())); //finally, continue our abstract long-term goals int oldMovement = 0; int newMovement = 0; while (true) { oldMovement = newMovement; //remember old value newMovement = 0; std::vector > safeCopy; for (auto mission : lockedHeroes) { fh->setPriority (mission.second); //re-evaluate if (canAct(mission.first)) { newMovement += mission.first->movement; safeCopy.push_back (mission); } } if (newMovement == oldMovement) //means our heroes didn't move or didn't re-assign their goals { logAi->warnStream() << "Our heroes don't move anymore, exhaustive decomposition failed"; break; } if (safeCopy.empty()) break; //all heroes exhausted their locked goals else { typedef std::pair TItrType; auto lockedHeroesSorter = [](TItrType m1, TItrType m2) -> bool { return m1.second->priority < m2.second->priority; }; boost::sort(safeCopy, lockedHeroesSorter); striveToGoal (safeCopy.back().second); } } auto quests = myCb->getMyQuests(); for (auto quest : quests) { striveToQuest (quest); } striveToGoal(sptr(Goals::Build())); //TODO: smarter building management performTypicalActions(); //for debug purpose for (auto h : cb->getHeroesInfo()) { if (h->movement) logAi->warnStream() << boost::format("hero %s has %d MP left") % h->name % h->movement; } } catch(boost::thread_interrupted &e) { logAi->debugStream() << "Making turn thread has been interrupted. We'll end without calling endTurn."; return; } catch(std::exception &e) { logAi->debugStream() << "Making turn thread has caught an exception: " << e.what(); } endTurn(); } bool VCAI::goVisitObj(const CGObjectInstance * obj, HeroPtr h) { int3 dst = obj->visitablePos(); SectorMap &sm = getCachedSectorMap(h); logAi->debugStream() << boost::format("%s will try to visit %s at (%s)") % h->name % obj->getObjectName() % strFromInt3(dst); int3 pos = sm.firstTileToGet(h, dst); if (!pos.valid()) //rare case when we are already standing on one of potential objects return false; return moveHeroToTile(pos, h); } void VCAI::performObjectInteraction(const CGObjectInstance * obj, HeroPtr h) { LOG_TRACE_PARAMS(logAi, "Hero %s and object %s at %s", h->name % obj->getObjectName() % obj->pos); switch (obj->ID) { case Obj::CREATURE_GENERATOR1: recruitCreatures (dynamic_cast(obj), h.get()); checkHeroArmy (h); break; case Obj::TOWN: moveCreaturesToHero (dynamic_cast(obj)); if (h->visitedTown) //we are inside, not just attacking { townVisitsThisWeek[h].insert(h->visitedTown); if (!h->hasSpellbook() && cb->getResourceAmount(Res::GOLD) >= GameConstants::SPELLBOOK_GOLD_COST + saving[Res::GOLD] && h->visitedTown->hasBuilt (BuildingID::MAGES_GUILD_1)) cb->buyArtifact(h.get(), ArtifactID::SPELLBOOK); } break; } completeGoal (sptr(Goals::GetObj(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); } } bool VCAI::canGetArmy (const CGHeroInstance * army, const CGHeroInstance * source) { //TODO: merge with pickBestCreatures //if (ai->primaryHero().h == source) if(army->tempOwner != source->tempOwner) { logAi->errorStream() << "Why are we even considering exchange between heroes from different players?"; return false; } const CArmedInstance *armies[] = {army, source}; //we calculate total strength for each creature type available in armies std::map creToPower; for(auto armyPtr : armies) for(auto &i : armyPtr->Slots()) { //TODO: allow splitting stacks? creToPower[i.second->type] += i.second->getPower(); } //TODO - consider more than just power (ie morale penalty, hero specialty in certain stacks, etc) int armySize = creToPower.size(); armySize = std::min ((source->needsLastStack() ? armySize - 1 : armySize), GameConstants::ARMY_SIZE); //can't move away last stack std::vector bestArmy; //types that'll be in final dst army for (int i = 0; i < armySize; i++) //pick the creatures from which we can get most power, as many as dest can fit { typedef const std::pair &CrePowerPair; auto creIt = boost::max_element(creToPower, [](CrePowerPair lhs, CrePowerPair rhs) { return lhs.second < rhs.second; }); bestArmy.push_back(creIt->first); creToPower.erase(creIt); if(creToPower.empty()) break; } //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 (int i = 0; i < bestArmy.size(); i++) //i-th strongest creature type will go to i-th slot { for(auto armyPtr : armies) for (int j = 0; j < GameConstants::ARMY_SIZE; j++) { if(armyPtr->getCreature(SlotID(j)) == bestArmy[i] && armyPtr != army) //it's a searched creature not in dst ARMY { //FIXME: line below is useless when simulating exchange between two non-singular armies if (!(armyPtr->needsLastStack() && armyPtr->Slots().size() == 1)) //can't take away last creature return true; //at least one exchange will be performed else return false; //no further exchange possible } } } return false; } void VCAI::pickBestCreatures(const CArmedInstance * army, const CArmedInstance * source) { //TODO - what if source is a hero (the last stack problem) -> it'd good to create a single stack of weakest cre const CArmedInstance *armies[] = {army, source}; //we calculate total strength for each creature type available in armies std::map creToPower; for(auto armyPtr : armies) for(auto &i : armyPtr->Slots()) {//TODO: allow splitting stacks? creToPower[i.second->type] += i.second->getPower(); } //TODO - consider more than just power (ie morale penalty, hero specialty in certain stacks, etc) int armySize = creToPower.size(); armySize = std::min ((source->needsLastStack() ? armySize - 1 : armySize), GameConstants::ARMY_SIZE); //can't move away last stack std::vector bestArmy; //types that'll be in final dst army for (int i = 0; i < armySize; i++) //pick the creatures from which we can get most power, as many as dest can fit { typedef const std::pair &CrePowerPair; auto creIt = boost::max_element(creToPower, [](CrePowerPair lhs, CrePowerPair rhs) { return lhs.second < rhs.second; }); bestArmy.push_back(creIt->first); creToPower.erase(creIt); if(creToPower.empty()) break; } //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 (int i = 0; i < bestArmy.size(); i++) //i-th strongest creature type will go to i-th slot { for(auto armyPtr : armies) for (int j = 0; j < GameConstants::ARMY_SIZE; j++) { if(armyPtr->getCreature(SlotID(j)) == bestArmy[i] && (i != j || armyPtr != army)) //it's a searched creature not in dst SLOT if (!(armyPtr->needsLastStack() && armyPtr->Slots().size() == 1)) //can't take away last creature cb->mergeOrSwapStacks(armyPtr, army, SlotID(j), SlotID(i)); } } //TODO - having now strongest possible army, we may want to think about arranging stacks auto hero = dynamic_cast(army); 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, p.first)); } } for (auto slot : h->artifactsInBackpack) allArtifacts.push_back(ArtifactLocation(h, h->getArtPos(slot.artifact))); if (otherh) { for (auto p : otherh->artifactsWorn) { if (p.second.artifact) allArtifacts.push_back(ArtifactLocation(otherh, p.first)); } for (auto slot : otherh->artifactsInBackpack) allArtifacts.push_back(ArtifactLocation(otherh, otherh->getArtPos(slot.artifact))); } //we give stuff to one hero or another, depending on giveStuffToFirstHero const CGHeroInstance * target = nullptr; if (giveStuffToFirstHero) target = h; else target = otherh; for (auto location : allArtifacts) { if (location.relatedObj() == target && location.slot < ArtifactPosition::AFTER_LAST) continue; //don't reequip artifact we already wear auto s = location.getSlot(); 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->possibleSlots.at(target->bearerType())) { ArtifactLocation destLocation(target, slot); if (target->isPositionFree(slot) && artifact->canBePutAt(destLocation, true)) //combined artifacts are not always allowed to move { 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->possibleSlots.at(target->bearerType())) { auto otherSlot = target->getSlot(slot); if (otherSlot && otherSlot->artifact) //we need to exchange artifact for better one { ArtifactLocation destLocation(target, slot); //if that artifact is better than what we have, pick it if (compareArtifacts(artifact, otherSlot->artifact) && artifact->canBePutAt(destLocation, true)) //combined artifacts are not always allowed to move { cb->swapArtifacts(location, ArtifactLocation(target, target->getArtPos(otherSlot->artifact))); break; changeMade = true; } } } } 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) { 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(); // const CCreature *c = VLC->creh->creatures[creID]; // if(containsSavedRes(c->cost)) // continue; amin(count, freeResources() / VLC->creh->creatures[creID]->cost); if(count > 0) cb->recruitCreatures(d, recruiter, creID, count, i); } } bool VCAI::tryBuildStructure(const CGTownInstance * t, BuildingID building, unsigned int maxDays) { if (maxDays == 0) { logAi->warnStream() << "Request to build building " << building << " in 0 days!"; return false; } if (!vstd::contains(t->town->buildings, building)) return false; // no such building in town if (t->hasBuilt(building)) //Already built? Shouldn't happen in general return true; const CBuilding * buildPtr = t->town->buildings.at(building); auto toBuild = buildPtr->requirements.getFulfillmentCandidates([&](const BuildingID & buildID) { return t->hasBuilt(buildID); }); toBuild.push_back(building); for(BuildingID buildID : toBuild) { EBuildingState::EBuildingState canBuild = cb->canBuildStructure(t, buildID); if (canBuild == EBuildingState::HAVE_CAPITAL || canBuild == EBuildingState::FORBIDDEN || canBuild == EBuildingState::NO_WATER) return false; //we won't be able to build this } if (maxDays && toBuild.size() > maxDays) return false; TResources currentRes = cb->getResourceAmount(); //TODO: calculate if we have enough resources to build it in maxDays for(const auto & buildID : toBuild) { const CBuilding *b = t->town->buildings.at(buildID); EBuildingState::EBuildingState canBuild = cb->canBuildStructure(t, buildID); if(canBuild == EBuildingState::ALLOWED) { if(!containsSavedRes(b->resources)) { logAi->debugStream() << boost::format("Player %d will build %s in town of %s at %s") % playerID % b->Name() % t->name % t->pos; cb->buildBuilding(t, buildID); return true; } continue; } else if(canBuild == EBuildingState::NO_RESOURCES) { //TResources income = estimateIncome(); TResources cost = t->town->buildings.at(buildID)->resources; for (int i = 0; i < GameConstants::RESOURCE_QUANTITY; i++) { //int diff = currentRes[i] - cost[i] + income[i]; int diff = currentRes[i] - cost[i]; if(diff < 0) saving[i] = 1; } continue; } else if (canBuild == EBuildingState::PREREQUIRES) { // can happen when dependencies have their own missing dependencies if (tryBuildStructure(t, buildID, maxDays - 1)) return true; } else if (canBuild == EBuildingState::MISSING_BASE) { if (tryBuildStructure(t, b->upgrade, maxDays - 1)) return true; } } return false; } //bool VCAI::canBuildStructure(const CGTownInstance * t, BuildingID building, unsigned int maxDays=7) //{ // if (maxDays == 0) // { // logAi->warnStream() << "Request to build building " << building << " in 0 days!"; // return false; // } // // if (!vstd::contains(t->town->buildings, building)) // return false; // no such building in town // // if (t->hasBuilt(building)) //Already built? Shouldn't happen in general // return true; // // const CBuilding * buildPtr = t->town->buildings.at(building); // // auto toBuild = buildPtr->requirements.getFulfillmentCandidates([&](const BuildingID & buildID) // { // return t->hasBuilt(buildID); // }); // toBuild.push_back(building); // // for(BuildingID buildID : toBuild) // { // EBuildingState::EBuildingState canBuild = cb->canBuildStructure(t, buildID); // if (canBuild == EBuildingState::HAVE_CAPITAL // || canBuild == EBuildingState::FORBIDDEN // || canBuild == EBuildingState::NO_WATER) // return false; //we won't be able to build this // } // // if (maxDays && toBuild.size() > maxDays) // return false; // // TResources currentRes = cb->getResourceAmount(); // TResources income = estimateIncome(); // //TODO: calculate if we have enough resources to build it in maxDays // // for(const auto & buildID : toBuild) // { // const CBuilding *b = t->town->buildings.at(buildID); // // EBuildingState::EBuildingState canBuild = cb->canBuildStructure(t, buildID); // if(canBuild == EBuildingState::ALLOWED) // { // if(!containsSavedRes(b->resources)) // { // logAi->debugStream() << boost::format("Player %d will build %s in town of %s at %s") % playerID % b->Name() % t->name % t->pos; // return true; // } // continue; // } // else if(canBuild == EBuildingState::NO_RESOURCES) // { // TResources cost = t->town->buildings.at(buildID)->resources; // for (int i = 0; i < GameConstants::RESOURCE_QUANTITY; i++) // { // int diff = currentRes[i] - cost[i] + income[i]; // if(diff < 0) // saving[i] = 1; // } // continue; // } // else if (canBuild == EBuildingState::PREREQUIRES) // { // // can happen when dependencies have their own missing dependencies // if (canBuildStructure(t, buildID, maxDays - 1)) // return true; // } // else if (canBuild == EBuildingState::MISSING_BASE) // { // if (canBuildStructure(t, b->upgrade, maxDays - 1)) // return true; // } // } // return false; //} bool VCAI::tryBuildAnyStructure(const CGTownInstance * t, std::vector buildList, unsigned int maxDays) { for(const auto & building : buildList) { if(t->hasBuilt(building)) continue; if (tryBuildStructure(t, building, maxDays)) return true; } return false; //Can't build anything } BuildingID VCAI::canBuildAnyStructure(const CGTownInstance * t, std::vector buildList, unsigned int maxDays) { for(const auto & building : buildList) { if(t->hasBuilt(building)) continue; if (cb->canBuildStructure(t, building)) return building; } return BuildingID::NONE; //Can't build anything } bool VCAI::tryBuildNextStructure(const CGTownInstance * t, std::vector buildList, unsigned int maxDays) { for(const auto & building : buildList) { if(t->hasBuilt(building)) continue; return tryBuildStructure(t, building, maxDays); } return false;//Nothing to build } void VCAI::buildStructure(const CGTownInstance * t) { //TODO make *real* town development system //TODO: faction-specific development: use special buildings, build dwellings in better order, etc //TODO: build resource silo, defences when needed //Possible - allow "locking" on specific building (build prerequisites and then building itself) TResources currentRes = cb->getResourceAmount(); TResources currentIncome = t->dailyIncome(); int townIncome = currentIncome[Res::GOLD]; if (tryBuildAnyStructure(t, std::vector(essential, essential + ARRAY_COUNT(essential)))) return; //we're running out of gold - try to build something gold-producing. Multiplier can be tweaked, 6 is minimum due to buildings costs if (currentRes[Res::GOLD] < townIncome * 6) if (tryBuildNextStructure(t, std::vector(goldSource, goldSource + ARRAY_COUNT(goldSource)))) return; if (cb->getDate(Date::DAY_OF_WEEK) > 6)// last 2 days of week - try to focus on growth { if (tryBuildNextStructure(t, std::vector(unitGrowth, unitGrowth + ARRAY_COUNT(unitGrowth)), 2)) return; } // first in-game week or second half of any week: try build dwellings if (cb->getDate(Date::DAY) < 7 || cb->getDate(Date::DAY_OF_WEEK) > 3) if (tryBuildAnyStructure(t, std::vector(unitsSource, unitsSource + ARRAY_COUNT(unitsSource)), 8 - cb->getDate(Date::DAY_OF_WEEK))) return; //try to upgrade dwelling for(int i = 0; i < ARRAY_COUNT(unitsUpgrade); i++) { if (t->hasBuilt(unitsSource[i]) && !t->hasBuilt(unitsUpgrade[i])) { if (tryBuildStructure(t, unitsUpgrade[i])) return; } } //remaining tasks if (tryBuildNextStructure(t, std::vector(goldSource, goldSource + ARRAY_COUNT(goldSource)))) return; if (tryBuildNextStructure(t, std::vector(spells, spells + ARRAY_COUNT(spells)))) return; if (tryBuildAnyStructure(t, std::vector(extra, extra + ARRAY_COUNT(extra)))) return; } bool VCAI::isGoodForVisit(const CGObjectInstance *obj, HeroPtr h, SectorMap &sm) { const int3 pos = obj->visitablePos(); const int3 targetPos = sm.firstTileToGet(h, pos); if (!targetPos.valid()) return false; if (isTileNotReserved(h.get(), targetPos) && !obj->wasVisited(playerID) && (cb->getPlayerRelations(ai->playerID, obj->tempOwner) == PlayerRelations::ENEMIES || isWeeklyRevisitable(obj)) && //flag or get weekly resources / creatures isSafeToVisit(h, pos) && shouldVisit(h, obj) && !vstd::contains(alreadyVisited, obj) && !vstd::contains(reservedObjs, obj) && isAccessibleForHero(targetPos, h)) { 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 if (topObj->ID == Obj::HERO && cb->getPlayerRelations(h->tempOwner, topObj->tempOwner) != PlayerRelations::ENEMIES) return false; else return true; //all of the following is met } return false; } std::vector VCAI::getPossibleDestinations(HeroPtr h) { validateVisitableObjs(); std::vector possibleDestinations; SectorMap &sm = getCachedSectorMap(h); for(const CGObjectInstance *obj : visitableObjs) { if (isGoodForVisit(obj, h, sm)) { possibleDestinations.push_back(obj); } } boost::sort(possibleDestinations, CDistanceSorter(h.get())); return possibleDestinations; } bool VCAI::isTileNotReserved(const CGHeroInstance * h, int3 t) { if (t.valid()) { auto obj = cb->getTopObj(t); if (obj && vstd::contains(ai->reservedObjs, obj) && !vstd::contains(reservedHeroesMap[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 cb->getResourceAmount(Res::GOLD) >= HERO_GOLD_COST && cb->getHeroesInfo().size() < ALLOWED_ROAMING_HEROES && cb->getAvailableHeroes(t).size(); else return false; } void VCAI::wander(HeroPtr h) { //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"); while (h->movement) { validateVisitableObjs(); std::vector dests, tmp; SectorMap &sm = getCachedSectorMap(h); range::copy(reservedHeroesMap[h], std::back_inserter(tmp)); //also visit our reserved objects - but they are not prioritized to avoid running back and forth for (auto obj : tmp) { int3 pos = sm.firstTileToGet(h, obj->visitablePos()); if (pos.valid()) if (isAccessibleForHero (pos, h)) //even nearby objects could be blocked by other heroes :( dests.push_back(obj); //can't use lambda for member function :( } range::copy(getPossibleDestinations(h), std::back_inserter(dests)); erase_if(dests, [&](ObjectIdRef obj) -> bool { return !isSafeToVisit(h, sm.firstTileToGet(h, obj->visitablePos())); }); if(!dests.size()) { if (cb->getVisitableObjs(h->visitablePos()).size() > 1) moveHeroToTile(h->visitablePos(), h); //just in case we're standing on blocked subterranean gate auto compareReinforcements = [h](const CGTownInstance *lhs, const CGTownInstance *rhs) -> bool { return howManyReinforcementsCanGet(h, lhs) < howManyReinforcementsCanGet(h, rhs); }; std::vector townsReachable; std::vector townsNotReachable; for(const CGTownInstance *t : cb->getTownsInfo()) { if(!t->visitingHero && howManyReinforcementsCanGet(h,t) && !vstd::contains(townVisitsThisWeek[h], t)) { if (isAccessibleForHero (t->visitablePos(), h)) townsReachable.push_back(t); else townsNotReachable.push_back(t); } } if(townsReachable.size()) { boost::sort(townsReachable, compareReinforcements); dests.push_back(townsReachable.back()); } else if(townsNotReachable.size()) { boost::sort(townsNotReachable, compareReinforcements); //TODO pick the truly best const CGTownInstance *t = townsNotReachable.back(); logAi->debugStream() << boost::format("%s can't reach any town, we'll try to make our way to %s at %s") % h->name % t->name % t->visitablePos(); int3 pos1 = h->pos; striveToGoal(sptr(Goals::ClearWayTo(t->visitablePos()).sethero(h))); //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(Res::GOLD) >= HERO_GOLD_COST) { std::vector towns = cb->getTownsInfo(); erase_if(towns, [](const CGTownInstance *t) -> bool { for(const CGHeroInstance *h : cb->getHeroesInfo()) if(!t->getArmyStrength() || howManyReinforcementsCanGet(h, t)) return true; return false; }); boost::sort(towns, compareArmyStrength); if(towns.size()) recruitHero(towns.back()); break; } else { logAi->debugStream() << "Nowhere more to go..."; break; } } //end of objs empty if (dests.size()) //performance improvement { boost::sort(dests, CDistanceSorter(h.get())); //find next closest one //wander should not cause heroes to be reserved - they are always considered free const ObjectIdRef&dest = dests.front(); logAi->debugStream() << boost::format("Of all %d destinations, object oid=%d seems nice") % dests.size() % dest.id.getNum(); if(!goVisitObj(dest, h)) { if(!dest) { logAi->debugStream() << boost::format("Visit attempt made the object (id=%d) gone...") % dest.id.getNum(); } else { logAi->debugStream() << boost::format("Hero %s apparently used all MPs (%d left)") % h->name % h->movement; return; } } } if (h->visitedTown) { townVisitsThisWeek[h].insert(h->visitedTown); buildArmyIn(h->visitedTown); } } } void VCAI::setGoal(HeroPtr h, Goals::TSubgoal goal) { //TODO: check for presence? if (goal->invalid()) erase_if_present(lockedHeroes, h); else { lockedHeroes[h] = goal; goal->setisElementar(false); //always evaluate goals before realizing } } void VCAI::completeGoal (Goals::TSubgoal goal) { logAi->traceStream() << boost::format("Completing goal: %s") % goal->name(); if (const CGHeroInstance * h = goal->hero.get(true)) { auto it = lockedHeroes.find(h); if (it != lockedHeroes.end()) if (it->second == goal) { logAi->debugStream() << boost::format("%s") % 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->debugStream() << boost::format("%s") % p.second->completeMessage(); return true; } return false; }); } } void VCAI::battleStart(const CCreatureSet *army1, const CCreatureSet *army2, int3 tile, const CGHeroInstance *hero1, const CGHeroInstance *hero2, bool side) { NET_EVENT_HANDLER; assert(playerID > PlayerColor::PLAYER_LIMIT || status.getBattle() == UPCOMING_BATTLE); status.setBattle(ONGOING_BATTLE); const CGObjectInstance *presumedEnemy = 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->name : "a army") % (presumedEnemy ? presumedEnemy->getObjectName() : "unknown enemy") % tile); CAdventureAI::battleStart(army1, army2, tile, hero1, hero2, side); } void VCAI::battleEnd(const BattleResult *br) { NET_EVENT_HANDLER; assert(status.getBattle() == ONGOING_BATTLE); status.setBattle(ENDING_BATTLE); bool won = br->winner == myCb->battleGetMySide(); logAi->debugStream() << boost::format("Player %d: I %s the %s!") % playerID % (won ? "won" : "lost") % battlename; battlename.clear(); CAdventureAI::battleEnd(br); } void VCAI::waitTillFree() { auto unlock = vstd::makeUnlockSharedGuard(cb->getGsMutex()); status.waitTillFree(); } void VCAI::markObjectVisited (const CGObjectInstance *obj) { if(dynamic_cast(obj) || //we may want to wisit it with another hero dynamic_cast(obj) || //or another time (obj->ID == Obj::MONSTER)) return; alreadyVisited.insert(obj); } void VCAI::reserveObject(HeroPtr h, const CGObjectInstance *obj) { reservedObjs.insert(obj); reservedHeroesMap[h].insert(obj); logAi->debugStream() << "reserved object id=" << obj->id << "; address=" << (intptr_t)obj << "; name=" << obj->getObjectName(); } void VCAI::unreserveObject(HeroPtr h, const CGObjectInstance *obj) { erase_if_present(reservedObjs, obj); //unreserve objects erase_if_present(reservedHeroesMap[h], obj); } void VCAI::markHeroUnableToExplore (HeroPtr h) { heroesUnableToExplore.insert(h); } void VCAI::markHeroAbleToExplore (HeroPtr h) { erase_if_present(heroesUnableToExplore, h); } bool VCAI::isAbleToExplore (HeroPtr h) { return !vstd::contains (heroesUnableToExplore, h); } void VCAI::clearPathsInfo() { heroesUnableToExplore.clear(); cachedSectorMaps.clear(); } void VCAI::validateVisitableObjs() { std::vector hlp; retreiveVisitableObjs(hlp, true); std::string errorMsg; auto shouldBeErased = [&](const CGObjectInstance *obj) -> bool { if (obj) return !cb->getObj(obj->id); else return true; //why would we have our local logic for object checks? use cb! //if(!vstd::contains(hlp, obj)) //{ // logAi->errorStream() << helperObjInfo[obj].name << " at " << helperObjInfo[obj].pos << errorMsg; // return true; //} //return false; }; //errorMsg is captured by ref so lambda will take the new text errorMsg = " shouldn't be on the visitable objects list!"; erase_if(visitableObjs, shouldBeErased); //FIXME: how comes our own heroes become inaccessible? 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->name + "!"; erase_if(p.second, shouldBeErased); } errorMsg = " shouldn't be on the reserved objs list!"; 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!"; erase_if(alreadyVisited, shouldBeErased); } void VCAI::retreiveVisitableObjs(std::vector &out, bool includeOwned /*= false*/) 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::retreiveVisitableObjs() { 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; retreiveVisitableObjs(ret, true); erase_if(ret, [](const CGObjectInstance *obj) { return obj->tempOwner != ai->playerID; }); return ret; } void VCAI::addVisitableObj(const CGObjectInstance *obj) { visitableObjs.insert(obj); helperObjInfo[obj] = ObjInfo(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(int aid) const { for(const CGObjectInstance *obj : ai->visitableObjs) { if(obj->ID == 5 && obj->subID == 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) { //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(2)) //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 /*= false*/) const { if (!includeAllies) { //don't visit tile occupied by allied hero for (auto obj : cb->getVisitableObjs(pos)) { if (obj->ID == Obj::HERO && cb->getPlayerRelations(ai->playerID, obj->tempOwner) != PlayerRelations::ENEMIES && obj != h.get()) return false; } } return cb->getPathsInfo(h.get())->getPathInfo(pos)->reachable(); } bool VCAI::moveHeroToTile(int3 dst, HeroPtr h) { 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->debugStream() << boost::format("Moving hero %s to tile %s") % h->name % dst; 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, CGHeroInstance::convertPosition(dst, true)); afterMovementCheck();// TODO: is it feasible to hero get killed there if game work properly? // 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->errorStream() << "Hero " << h->name << " cannot reach " << dst; throw goalFulfilledException (sptr(Goals::VisitTile(dst).sethero(h))); } 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 doMovement = [&](int3 dst, bool transit) { cb->moveHero(*h, CGHeroInstance::convertPosition(dst, true), transit); }; auto doTeleportMovement = [&](int3 dst, ObjectInstanceID exitId) { destinationTeleport = exitId; cb->moveHero(*h, CGHeroInstance::convertPosition(dst, true)); destinationTeleport = ObjectInstanceID(); afterMovementCheck(); }; auto doChannelProbing = [&]() -> void { auto currentExit = getObj(CGHeroInstance::convertPosition(h->pos,false), false); assert(currentExit); status.setChannelProbing(true); for(auto exit : teleportChannelProbingList) doTeleportMovement(CGHeroInstance::convertPosition(h->pos,false), exit); teleportChannelProbingList.clear(); doTeleportMovement(CGHeroInstance::convertPosition(h->pos,false), currentExit->id); status.setChannelProbing(false); }; int i=path.nodes.size()-1; for(; i>0; i--) { int3 currentCoord = path.nodes[i].coord; int3 nextCoord = path.nodes[i-1].coord; auto currentObject = getObj(currentCoord, currentCoord == CGHeroInstance::convertPosition(h->pos,false)); auto nextObject = getObj(nextCoord, false); if(CGTeleport::isConnected(currentObject, nextObject)) { //we use special login if hero standing on teleporter it's mean we need doTeleportMovement(currentCoord, nextObject->id); if(teleportChannelProbingList.size()) doChannelProbing(); 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; if((i-2 >= 0) // Check there is node after next one; otherwise transit is pointless && (CGTeleport::isConnected(nextObject, getObj(path.nodes[i-2].coord, false)) || CGTeleport::isTeleport(nextObject))) { // 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(); } ret = !i; } if (h) { if (auto visitedObject = 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))); if (!ret) //reserve object we are heading towards { auto obj = 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 { erase_if_present (lockedHeroes, h); //hero seemingly is confused throw cannotFulfillGoalException("Invalid path found!"); //FIXME: should never happen } logAi->debugStream() << boost::format("Hero %s moved from %s to %s. Returning %d.") % h->name % startHpos % h->visitablePos() % ret; } return ret; } void VCAI::tryRealize(Goals::Explore & g) { throw cannotFulfillGoalException("EXPLORE is not a elementar goal!"); } void VCAI::tryRealize(Goals::RecruitHero & g) { if(const CGTownInstance *t = findTownWithTavern()) { recruitHero(t, true); //TODO try to free way to blocked town //TODO: adventure map tavern or prison? } } void VCAI::tryRealize(Goals::VisitTile & g) { if(!g.hero->movement) throw cannotFulfillGoalException("Cannot visit tile: hero is out of MPs!"); if(g.tile == g.hero->visitablePos() && cb->getVisitableObjs(g.hero->visitablePos()).size() < 2) { logAi->warnStream() << boost::format("Why do I want to move hero %s to tile %s? Already standing on that tile! ") % g.hero->name % g.tile; throw goalFulfilledException (sptr(g)); } if (ai->moveHeroToTile(g.tile, g.hero.get())) { throw goalFulfilledException (sptr(g)); } } void VCAI::tryRealize(Goals::VisitHero & g) { if(!g.hero->movement) 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) { const CGTownInstance *t = g.town; if(!t && g.hero) t = g.hero->visitedTown; if(!t) { for(const CGTownInstance *t : cb->getTownsInfo()) { switch(cb->canBuildStructure(t, BuildingID(g.bid))) { case EBuildingState::ALLOWED: cb->buildBuilding(t, BuildingID(g.bid)); return; default: break; } } } else if(cb->canBuildStructure(t, BuildingID(g.bid)) == EBuildingState::ALLOWED) { cb->buildBuilding(t, BuildingID(g.bid)); return; } 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::CollectRes & g) { if(cb->getResourceAmount(static_cast(g.resID)) >= g.value) throw cannotFulfillGoalException("Goal is already fulfilled!"); if(const CGObjectInstance *obj = cb->getObj(ObjectInstanceID(g.objid), false)) { if(const IMarket *m = IMarket::castFrom(obj, false)) { for (Res::ERes i = Res::WOOD; i <= Res::GOLD; vstd::advance(i, 1)) { if(i == g.resID) continue; int toGive, toGet; m->getOffer(i, g.resID, toGive, toGet, EMarketMode::RESOURCE_RESOURCE); toGive = toGive * (cb->getResourceAmount(i) / toGive); //TODO trade only as much as needed cb->trade(obj, EMarketMode::RESOURCE_RESOURCE, i, g.resID, toGive); if(cb->getResourceAmount(static_cast(g.resID)) >= g.value) return; } 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 { saving[g.resID] = 1; throw cannotFulfillGoalException("No object that could be used to raise resources!"); } } void VCAI::tryRealize(Goals::Build & g) { for(const CGTownInstance *t : cb->getTownsInfo()) { logAi->debugStream() << boost::format("Looking into %s") % t->name; buildStructure(t); buildArmyIn(t); if(!ai->primaryHero() || (t->getArmyStrength() > ai->primaryHero()->getArmyStrength() * 2 && !isAccessibleForHero(t->visitablePos(), ai->primaryHero()))) { recruitHero(t); buildArmyIn(t); } } throw cannotFulfillGoalException("BUILD has been realized as much as possible."); } void VCAI::tryRealize(Goals::Invalid & g) { throw cannotFulfillGoalException("I don't know how to fulfill this!"); } void VCAI::tryRealize(Goals::AbstractGoal & g) { logAi->debugStream() << boost::format("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->movement; } HeroPtr VCAI::primaryHero() const { auto hs = cb->getHeroesInfo(); boost::sort(hs, compareHeroStrength); if(hs.empty()) return nullptr; return hs.back(); } void VCAI::endTurn() { logAi->infoStream() << "Player " << static_cast(playerID.getNum()) << " ends turn"; if(!status.haveTurn()) { logAi->errorStream() << "Not having turn at the end of turn???"; } logAi->debugStream() << "Resources at the end of turn: " << cb->getResourceAmount(); 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->infoStream() << "Player " << static_cast(playerID.getNum()) << " ended turn"; } void VCAI::striveToGoal(Goals::TSubgoal ultimateGoal) { if (ultimateGoal->invalid()) return; //we are looking for abstract goals auto abstractGoal = striveToGoalInternal (ultimateGoal, false); if (abstractGoal->invalid()) return; //we received abstract goal, need to find concrete goals striveToGoalInternal (abstractGoal, true); //TODO: save abstract goals not related to hero } Goals::TSubgoal VCAI::striveToGoalInternal(Goals::TSubgoal ultimateGoal, bool onlyAbstract) { const int searchDepth = 30; const int searchDepth2 = searchDepth-2; Goals::TSubgoal abstractGoal = sptr(Goals::Invalid()); while(1) { Goals::TSubgoal goal = ultimateGoal; logAi->debugStream() << boost::format("Striving to goal of type %s") % ultimateGoal->name(); int maxGoals = searchDepth; //preventing deadlock for mutually dependent goals while(!goal->isElementar && maxGoals && (onlyAbstract || !goal->isAbstract)) { logAi->debugStream() << boost::format("Considering goal %s") % goal->name(); try { boost::this_thread::interruption_point(); goal = goal->whatToDoToAchieve(); --maxGoals; if (*goal == *ultimateGoal) //compare objects by value throw cannotFulfillGoalException("Goal dependency loop detected!"); } catch(goalFulfilledException &e) { //it is impossible to continue some goals (like exploration, for example) completeGoal (goal); logAi->debugStream() << boost::format("Goal %s decomposition failed: goal was completed as much as possible") % goal->name(); return sptr(Goals::Invalid()); } catch(std::exception &e) { logAi->debugStream() << boost::format("Goal %s decomposition failed: %s") % goal->name() % e.what(); return sptr(Goals::Invalid()); } } try { boost::this_thread::interruption_point(); if (!maxGoals) { std::runtime_error e("Too many subgoals, don't know what to do"); throw (e); } if (goal->hero) //lock this hero to fulfill ultimate goal { if (maxGoals) { setGoal(goal->hero, goal); } else { erase_if_present (lockedHeroes, goal->hero); // we seemingly don't know what to do with hero } } if (goal->isAbstract) { abstractGoal = goal; //allow only one abstract goal per call logAi->debugStream() << boost::format("Choosing abstract goal %s") % goal->name(); break; } else { logAi->debugStream() << boost::format("Trying to realize %s (value %2.3f)") % goal->name() % goal->priority; goal->accept(this); } boost::this_thread::interruption_point(); } catch(boost::thread_interrupted &e) { logAi->debugStream() << boost::format("Player %d: Making turn thread received an interruption!") % playerID; throw; //rethrow, we want to truly end this thread } catch(goalFulfilledException &e) { //the goal was completed successfully completeGoal (goal); //completed goal was main goal //TODO: find better condition if (ultimateGoal->fulfillsMe(goal) || maxGoals > searchDepth2) return sptr(Goals::Invalid()); } catch(std::exception &e) { logAi->debugStream() << boost::format("Failed to realize subgoal of type %s (greater goal type was %s), I will stop.") % goal->name() % ultimateGoal->name(); logAi->debugStream() << boost::format("The error message was: %s") % e.what(); break; } } return abstractGoal; } void VCAI::striveToQuest (const QuestInfo &q) { if (q.quest->missionType && q.quest->progress != CQuest::COMPLETE) { MetaString ms; q.quest->getRolloverText(ms, false); logAi->debugStream() << boost::format("Trying to realize quest: %s") % ms.toString(); auto heroes = cb->getHeroesInfo(); switch (q.quest->missionType) { case CQuest::MISSION_ART: { for (auto hero : heroes) //TODO: remove duplicated code? { if (q.quest->checkQuest(hero)) { striveToGoal (sptr(Goals::GetObj(q.obj->id.getNum()).sethero(hero))); return; } } for (auto art : q.quest->m5arts) { striveToGoal (sptr(Goals::GetArtOfType(art))); //TODO: transport? } break; } case CQuest::MISSION_HERO: { //striveToGoal (CGoal(RECRUIT_HERO)); for (auto hero : heroes) { if (q.quest->checkQuest(hero)) { striveToGoal (sptr(Goals::GetObj(q.obj->id.getNum()).sethero(hero))); return; } } striveToGoal (sptr(Goals::FindObj(Obj::PRISON))); //rule of a thumb - quest heroes usually are locked in prisons //BNLOG ("Don't know how to recruit hero with id %d\n", q.quest->m13489val); break; } case CQuest::MISSION_ARMY: { for (auto hero : heroes) { if (q.quest->checkQuest(hero)) //very bad info - stacks can be split between multiple heroes :( { striveToGoal (sptr(Goals::GetObj(q.obj->id.getNum()).sethero(hero))); return; } } for (auto creature : q.quest->m6creatures) { striveToGoal (sptr(Goals::GatherTroops(creature.type->idNumber, creature.count))); } //TODO: exchange armies... oh my //BNLOG ("Don't know how to recruit %d of %s\n", (int)(creature.count) % creature.type->namePl); break; } case CQuest::MISSION_RESOURCES: { if (heroes.size()) { if (q.quest->checkQuest(heroes.front())) //it doesn't matter which hero it is { striveToGoal (sptr(Goals::GetObj(q.obj->id.getNum()))); } else { for (int i = 0; i < q.quest->m7resources.size(); ++i) { if (q.quest->m7resources[i]) striveToGoal (sptr(Goals::CollectRes(i, q.quest->m7resources[i]))); } } } else striveToGoal (sptr(Goals::RecruitHero())); //FIXME: checkQuest requires any hero belonging to player :( break; } case CQuest::MISSION_KILL_HERO: case CQuest::MISSION_KILL_CREATURE: { auto obj = cb->getObjByQuestIdentifier(q.quest->m13489val); if (obj) striveToGoal (sptr(Goals::GetObj(obj->id.getNum()))); else striveToGoal (sptr(Goals::GetObj(q.obj->id.getNum()))); //visit seer hut break; } case CQuest::MISSION_PRIMARY_STAT: { auto heroes = cb->getHeroesInfo(); for (auto hero : heroes) { if (q.quest->checkQuest(hero)) { striveToGoal (sptr(Goals::GetObj(q.obj->id.getNum()).sethero(hero))); return; } } for (int i = 0; i < q.quest->m2stats.size(); ++i) { logAi->debugStream() << boost::format("Don't know how to increase primary stat %d") % i; } break; } case CQuest::MISSION_LEVEL: { auto heroes = cb->getHeroesInfo(); for (auto hero : heroes) { if (q.quest->checkQuest(hero)) { striveToGoal (sptr(Goals::GetObj(q.obj->id.getNum()).sethero(hero))); //TODO: causes infinite loop :/ return; } } logAi->debugStream() << boost::format("Don't know how to reach hero level %d") % q.quest->m13489val; break; } case CQuest::MISSION_PLAYER: { if (playerID.getNum() != q.quest->m13489val) logAi->debugStream() << boost::format("Can't be player of color %d") % q.quest->m13489val; break; } case CQuest::MISSION_KEYMASTER: { striveToGoal (sptr(Goals::FindObj(Obj::KEYMASTER, q.obj->subID))); break; } } } } void VCAI::performTypicalActions() { for(auto h : getUnblockedHeroes()) { logAi->debugStream() << boost::format("Looking into %s, MP=%d") % h->name.c_str() % h->movement; makePossibleUpgrades(*h); pickBestArtifacts(*h); try { wander(h); } catch(std::exception &e) { logAi->debugStream() << boost::format("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); } int3 VCAI::explorationBestNeighbour(int3 hpos, int radius, HeroPtr h) { int3 ourPos = h->convertPosition(h->pos, false); std::map dstToRevealedTiles; for(crint3 dir : dirs) if(cb->isInTheMap(hpos+dir)) if (ourPos != dir) //don't stand in place if (isSafeToVisit(h, hpos + dir) && isAccessibleForHero (hpos + dir, h)) dstToRevealedTiles[hpos + dir] = howManyTilesWillBeDiscovered(radius, hpos, dir); if (dstToRevealedTiles.empty()) //yes, it DID happen! throw cannotFulfillGoalException("No neighbour will bring new discoveries!"); auto best = dstToRevealedTiles.begin(); for (auto i = dstToRevealedTiles.begin(); i != dstToRevealedTiles.end(); i++) { const CGPathNode *pn = cb->getPathsInfo(h.get())->getPathInfo(i->first); //const TerrainTile *t = cb->getTile(i->first); if(best->second < i->second && pn->reachable() && pn->accessible == CGPathNode::ACCESSIBLE) best = i; } if(best->second) return best->first; throw cannotFulfillGoalException("No neighbour will bring new discoveries!"); } int3 VCAI::explorationNewPoint(HeroPtr h) { int radius = h->getSightRadious(); CCallback * cbp = cb.get(); const CGHeroInstance * hero = h.get(); std::vector > tiles; //tiles[distance_to_fow] tiles.resize(radius); foreach_tile_pos([&](const int3 &pos) { if(!cbp->isVisible(pos)) tiles[0].push_back(pos); }); float bestValue = 0; //discovered tile to node distance ratio int3 bestTile(-1,-1,-1); int3 ourPos = h->convertPosition(h->pos, false); for (int i = 1; i < radius; i++) { getVisibleNeighbours(tiles[i-1], tiles[i]); removeDuplicates(tiles[i]); for(const int3 &tile : tiles[i]) { if (tile == ourPos) //shouldn't happen, but it does continue; if (!cb->getPathsInfo(hero)->getPathInfo(tile)->reachable()) //this will remove tiles that are guarded by monsters (or removable objects) continue; CGPath path; cb->getPathsInfo(hero)->getPath(path, tile); float ourValue = (float)howManyTilesWillBeDiscovered(tile, radius, cbp) / (path.nodes.size() + 1); //+1 prevents erratic jumps if (ourValue > bestValue) //avoid costly checks of tiles that don't reveal much { if(isSafeToVisit(h, tile) && !isBlockedBorderGate(tile)) { bestTile = tile; bestValue = ourValue; } } } } return bestTile; } int3 VCAI::explorationDesperate(HeroPtr h) { SectorMap &sm = getCachedSectorMap(h); int radius = h->getSightRadious(); std::vector > tiles; //tiles[distance_to_fow] tiles.resize(radius); CCallback * cbp = cb.get(); foreach_tile_pos([&](const int3 &pos) { if(!cbp->isVisible(pos)) tiles[0].push_back(pos); }); ui64 lowestDanger = -1; int3 bestTile(-1,-1,-1); for (int i = 1; i < radius; i++) { getVisibleNeighbours(tiles[i-1], tiles[i]); removeDuplicates(tiles[i]); for(const int3 &tile : tiles[i]) { if (cbp->getTile(tile)->blocked) //does it shorten the time? continue; if (!howManyTilesWillBeDiscovered(tile, radius, cbp)) //avoid costly checks of tiles that don't reveal much continue; auto t = sm.firstTileToGet(h, tile); if (t.valid()) { ui64 ourDanger = evaluateDanger(t, h.h); if (ourDanger < lowestDanger) { if(!isBlockedBorderGate(t)) { if (!ourDanger) //at least one safe place found return t; bestTile = t; lowestDanger = ourDanger; } } } } } return bestTile; } TResources VCAI::estimateIncome() const { TResources ret; for(const CGTownInstance *t : cb->getTownsInfo()) { ret += t->dailyIncome(); } for(const CGObjectInstance *obj : getFlaggedObjects()) { if(obj->ID == Obj::MINE) { switch(obj->subID) { case Res::WOOD: case Res::ORE: ret[obj->subID] += WOOD_ORE_MINE_PRODUCTION; break; case Res::GOLD: case 7: //abandoned mine -> also gold ret[Res::GOLD] += GOLD_MINE_PRODUCTION; break; default: ret[obj->subID] += RESOURCE_MINE_PRODUCTION; break; } } } return ret; } bool VCAI::containsSavedRes(const TResources &cost) const { for (int i = 0; i < GameConstants::RESOURCE_QUANTITY; i++) { if(saving[i] && cost[i]) return true; } return false; } 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->debugStream() << boost::format("Trying to recruit a hero in %s at %s") % t->name % t->visitablePos(); 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); } else if(throwing) throw cannotFulfillGoalException("No available heroes in tavern in " + t->nodeName()); } void VCAI::finish() { if(makingTurn) makingTurn->interrupt(); } void VCAI::requestActionASAP(std::function whatToDo) { // static boost::mutex m; // boost::unique_lock mylock(m); boost::barrier b(2); boost::thread newThread([&b,this,whatToDo]() { setThreadName("VCAI::requestActionASAP::helper"); SET_GLOBAL_STATE(this); boost::shared_lock gsLock(cb->getGsMutex()); b.wait(); whatToDo(); }); b.wait(); } void VCAI::lostHero(HeroPtr h) { logAi->debugStream() << boost::format("I lost my hero %s. It's best to forget and move on.") % h.name; erase_if_present(lockedHeroes, h); for(auto obj : reservedHeroesMap[h]) { erase_if_present(reservedObjs, obj); //unreserve all objects for that hero } erase_if_present(reservedHeroesMap, h); erase_if_present(cachedSectorMaps, h); } void VCAI::answerQuery(QueryID queryID, int selection) { logAi->debugStream() << boost::format("I'll answer the query %d giving the choice %d") % queryID % selection; if(queryID != QueryID(-1)) { cb->selectionMade(selection, queryID); } else { logAi->debugStream() << boost::format("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"]["neutralAI"].getType() == JsonNode::DATA_STRING) return settings["server"]["neutralAI"].String(); else return "StupidAI"; } 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) { erase_if(visitableObjs, matchesId); for(auto &p : reservedHeroesMap) erase_if(p.second, matchesId); erase_if(reservedObjs, matchesId); } } TResources VCAI::freeResources() const { TResources myRes = cb->getResourceAmount(); myRes[Res::GOLD] -= GOLD_RESERVE; vstd::amax(myRes[Res::GOLD], 0); return myRes; } SectorMap& VCAI::getCachedSectorMap(HeroPtr h) { auto it = cachedSectorMaps.find(h); if (it != cachedSectorMaps.end()) return it->second; else { cachedSectorMaps.insert(std::make_pair(h, SectorMap(h))); return cachedSectorMaps[h]; } } 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->debugStream() << boost::format("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->debugStream() << boost::format("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->debugStream() << boost::format("Removing query %d - %s. Total queries count: %d") % ID % description % remainingQueries.size(); } int AIStatus::getQueriesCount() { boost::unique_lock lock(mx); return 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.timed_wait(lock, boost::posix_time::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->debugStream() << boost::format("Attempted answering query %d - %s. Request id=%d. Waiting for results...") % queryID % description % answerRequestID; requestToQueryID[answerRequestID] = queryID; } void AIStatus::receivedAnswerConfirmation(int answerRequestID, int result) { assert(vstd::contains(requestToQueryID, answerRequestID)); QueryID query = requestToQueryID[answerRequestID]; assert(vstd::contains(remainingQueries, query)); requestToQueryID.erase(answerRequestID); if(result) { removeQuery(query); } else { logAi->errorStream() << "Something went really wrong, failed to answer query " << query << ": " << 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); ongoingHeroMovement = ongoing; cv.notify_all(); } bool AIStatus::channelProbing() { return ongoingChannelProbing; } SectorMap::SectorMap() { update(); } SectorMap::SectorMap(HeroPtr h) { update(); makeParentBFS(h->visitablePos()); } bool SectorMap::markIfBlocked(ui8 &sec, crint3 pos, const TerrainTile *t) { if(t->blocked && !t->visitable) { sec = NOT_AVAILABLE; return true; } return false; } bool SectorMap::markIfBlocked(ui8 &sec, crint3 pos) { return markIfBlocked(sec, pos, getTile(pos)); } void SectorMap::update() { visibleTiles = cb->getAllVisibleTiles(); clear(); int curSector = 3; //0 is invisible, 1 is not explored CCallback * cbp = cb.get(); //optimization foreach_tile_pos([&](crint3 pos) { if(retreiveTile(pos) == NOT_CHECKED) { if(!markIfBlocked(retreiveTile(pos), pos)) exploreNewSector(pos, curSector++, cbp); } }); valid = true; } void SectorMap::clear() { sector = cb->getVisibilityMap(); valid = false; } void SectorMap::exploreNewSector(crint3 pos, int num, CCallback * cbp) { Sector &s = infoOnSectors[num]; s.id = num; s.water = getTile(pos)->isWater(); std::queue toVisit; toVisit.push(pos); while(!toVisit.empty()) { int3 curPos = toVisit.front(); toVisit.pop(); ui8 &sec = retreiveTile(curPos); if(sec == NOT_CHECKED) { const TerrainTile *t = getTile(curPos); if(!markIfBlocked(sec, curPos, t)) { if(t->isWater() == s.water) //sector is only-water or only-land { sec = num; s.tiles.push_back(curPos); foreach_neighbour(cbp, curPos, [&](CCallback * cbp, crint3 neighPos) { if(retreiveTile(neighPos) == NOT_CHECKED) { toVisit.push(neighPos); //parent[neighPos] = curPos; } const TerrainTile *nt = getTile(neighPos); if(nt && nt->isWater() != s.water && canBeEmbarkmentPoint(nt, s.water)) { s.embarkmentPoints.push_back(neighPos); } }); if(t->visitable) { auto obj = t->visitableObjects.front(); if (vstd::contains(ai->knownSubterraneanGates, obj)) { s.subterraneanGates.push_back (obj); } } } } } } removeDuplicates(s.embarkmentPoints); } void SectorMap::write(crstring fname) { std::ofstream out(fname); for(int k = 0; k < cb->getMapSize().z; k++) { for(int j = 0; j < cb->getMapSize().y; j++) { for(int i = 0; i < cb->getMapSize().x; i++) { out << (int)sector[i][j][k] << '\t'; } out << std::endl; } out << std::endl; } } bool isWeeklyRevisitable (const CGObjectInstance * obj) { //TODO: allow polling of remaining creatures in dwelling if (dynamic_cast(obj) || //ensures future compatibility, unlike IDs dynamic_cast(obj) || 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 break; 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 } break; case Obj::BORDERGUARD: //open borderguard if possible 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 } break; 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->upgrades.size()) 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: //TODO: mechanism for handling monoliths return false; case Obj::SCHOOL_OF_MAGIC: case Obj::SCHOOL_OF_WAR: { TResources myRes = ai->myCb->getResourceAmount(); if (myRes[Res::GOLD] - GOLD_RESERVE < 1000) return false; } break; case Obj::LIBRARY_OF_ENLIGHTENMENT: if (h->level < 12) return false; break; case Obj::TREE_OF_KNOWLEDGE: { TResources myRes = ai->myCb->getResourceAmount(); if (myRes[Res::GOLD] - GOLD_RESERVE < 2000 || myRes[Res::GEMS] < 10) return false; } break; case Obj::MAGIC_WELL: return h->mana < h->manaLimit(); case Obj::PRISON: return ai->myCb->getHeroesInfo().size() < VLC->modh->settings.MAX_HEROES_ON_MAP_PER_PLAYER;// GameConstants::MAX_HEROES_PER_PLAYER; case Obj::BOAT: return false; //Boats are handled by pathfinder } if (obj->wasVisited(*h)) //it must pointer to hero instance, heroPtr calls function wasVisited(ui8 player); return false; return true; } int3 SectorMap::firstTileToGet(HeroPtr h, crint3 dst) /* this functions returns one target tile or invalid tile. We will use it to poll possible destinations For ship construction etc, another function (goal?) is needed */ { int3 ret(-1,-1,-1); int sourceSector = retreiveTile(h->visitablePos()), destinationSector = retreiveTile(dst); const Sector *src = &infoOnSectors[sourceSector], *dest = &infoOnSectors[destinationSector]; if(sourceSector != destinationSector) //use ships, shipyards etc.. { if (ai->isAccessibleForHero(dst, h)) //pathfinder can find a way using ships and gates if tile is not blocked by objects return dst; std::map preds; std::queue sectorQueue; sectorQueue.push(src); while(!sectorQueue.empty()) { const Sector *s = sectorQueue.front(); sectorQueue.pop(); for(int3 ep : s->embarkmentPoints) { Sector *neigh = &infoOnSectors[retreiveTile(ep)]; //preds[s].push_back(neigh); if(!preds[neigh]) { preds[neigh] = s; sectorQueue.push(neigh); } } for (auto gate : s->subterraneanGates) { auto gatePair = ai->knownSubterraneanGates.find(gate); if (gatePair != ai->knownSubterraneanGates.end()) { //check the other side of gate Sector *neigh = &infoOnSectors[retreiveTile(gatePair->second->visitablePos())]; if(!preds[neigh]) //if we didn't come into this sector yet { preds[neigh] = s; //it becomes our new target sector sectorQueue.push(neigh); } } } } if(!preds[dest]) { //write("test.txt"); return ret; //throw cannotFulfillGoalException(boost::str(boost::format("Cannot find connection between sectors %d and %d") % src->id % dst->id)); } std::vector toTraverse; toTraverse.push_back(dest); while(toTraverse.back() != src) { toTraverse.push_back(preds[toTraverse.back()]); } if(preds[dest]) { //TODO: would be nice to find sectors in loop const Sector *sectorToReach = toTraverse.at(toTraverse.size() - 2); if(!src->water && sectorToReach->water) //embark { //embark on ship -> look for an EP with a boat auto firstEP = boost::find_if(src->embarkmentPoints, [=](crint3 pos) -> bool { const TerrainTile *t = getTile(pos); return t && t->visitableObjects.size() == 1 && t->topVisitableId() == Obj::BOAT && retreiveTile(pos) == sectorToReach->id; }); if(firstEP != src->embarkmentPoints.end()) { return *firstEP; } else { //we need to find a shipyard with an access to the desired sector's EP //TODO what about Summon Boat spell? std::vector shipyards; for(const CGTownInstance *t : cb->getTownsInfo()) { if(t->hasBuilt(BuildingID::SHIPYARD)) shipyards.push_back(t); } for(const CGObjectInstance *obj : ai->getFlaggedObjects()) { if(obj->ID != Obj::TOWN) //towns were handled in the previous loop if(const IShipyard *shipyard = IShipyard::castFrom(obj)) shipyards.push_back(shipyard); } shipyards.erase(boost::remove_if(shipyards, [=](const IShipyard *shipyard) -> bool { return shipyard->shipyardStatus() != 0 || retreiveTile(shipyard->bestLocation()) != sectorToReach->id; }),shipyards.end()); if(!shipyards.size()) { //TODO consider possibility of building shipyard in a town return ret; //throw cannotFulfillGoalException("There is no known shipyard!"); } //we have only shipyards that possibly can build ships onto the appropriate EP auto ownedGoodShipyard = boost::find_if(shipyards, [](const IShipyard *s) -> bool { return s->o->tempOwner == ai->playerID; }); if(ownedGoodShipyard != shipyards.end()) { const IShipyard *s = *ownedGoodShipyard; TResources shipCost; s->getBoatCost(shipCost); if(cb->getResourceAmount().canAfford(shipCost)) { int3 ret = s->bestLocation(); cb->buildBoat(s); //TODO: move actions elsewhere return ret; } else { //TODO gather res return ret; //throw cannotFulfillGoalException("Not enough resources to build a boat"); } } else { //TODO pick best shipyard to take over return shipyards.front()->o->visitablePos(); } } } else if(src->water && !sectorToReach->water) { //TODO //disembark return ret; } else //use subterranean gates { //auto t = findFirstVisitableTile (h, dst); //if (t.valid()) // return t; //TODO: pop sectors linked by Subterranean Gate in loop auto firstGate = boost::find_if(src->subterraneanGates, [=](const CGObjectInstance * gate) -> bool { //make sure no hero block the way auto pos = ai->knownSubterraneanGates[gate]->visitablePos(); const TerrainTile *t = getTile(pos); return t && t->visitableObjects.size() == 1 && t->topVisitableId() == Obj::SUBTERRANEAN_GATE && retreiveTile(pos) == sectorToReach->id; }); if(firstGate != src->subterraneanGates.end()) { //TODO: pahtfinder can find path through subterranean gates, but this function only reaches closest gate return (*firstGate)->visitablePos(); } //TODO //Monolith? Whirlpool? ... return ret; //throw cannotFulfillGoalException("Land-land and water-water inter-sector transitions are not implemented!"); } } else { return ret; //throw cannotFulfillGoalException("Inter-sector route detection failed: not connected sectors?"); } } else { return findFirstVisitableTile(h, dst); } //FIXME: find out why this line is reached logAi->errorStream() << ("Impossible happened at SectorMap::firstTileToGet"); return ret; } int3 SectorMap::findFirstVisitableTile (HeroPtr h, crint3 dst) { int3 ret(-1,-1,-1); int3 curtile = dst; while(curtile != h->visitablePos()) { auto topObj = cb->getTopObj(curtile); if(topObj && topObj->ID == Obj::HERO && topObj != h.h && cb->getPlayerRelations(h->tempOwner, topObj->tempOwner) != PlayerRelations::ENEMIES) { logAi->warnStream() << ("Another allied hero stands in our way"); return ret; } if(ai->myCb->getPathsInfo(h.get())->getPathInfo(curtile)->reachable()) { return curtile; } else { auto i = parent.find(curtile); if(i != parent.end()) { assert(curtile != i->second); curtile = i->second; } else { return ret; //throw cannotFulfillGoalException("Unreachable tile in sector? Should not happen!"); } } } return ret; } void SectorMap::makeParentBFS(crint3 source) { parent.clear(); int mySector = retreiveTile(source); std::queue toVisit; toVisit.push(source); while(!toVisit.empty()) { int3 curPos = toVisit.front(); toVisit.pop(); ui8 &sec = retreiveTile(curPos); assert(sec == mySector); //consider only tiles from the same sector UNUSED(sec); foreach_neighbour(curPos, [&](crint3 neighPos) { if(retreiveTile(neighPos) == mySector && !vstd::contains(parent, neighPos)) { if (cb->canMoveBetween(curPos, neighPos)) { toVisit.push(neighPos); parent[neighPos] = curPos; } } }); } } unsigned char & SectorMap::retreiveTile(crint3 pos) { return retreiveTileN(sector, pos); } TerrainTile* SectorMap::getTile(crint3 pos) const { //out of bounds access should be handled by boost::multi_array //still we cached this array to avoid any checks return visibleTiles->operator[](pos.x)[pos.y][pos.z]; }