#include "StdInc.h" #include "CArtHandler.h" #include "Filesystem/CResourceLoader.h" #include "CGeneralTextHandler.h" #include #include "VCMI_Lib.h" #include "CModHandler.h" #include "CSpellHandler.h" #include "CObjectHandler.h" #include "NetPacks.h" #include "GameConstants.h" using namespace boost::assign; /* * CArtHandler.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 * */ extern boost::rand48 ran; const std::map artifactClassMap = boost::assign::map_list_of ("TREASURE", CArtifact::ART_TREASURE) ("MINOR", CArtifact::ART_MINOR) ("MAJOR", CArtifact::ART_MAJOR) ("RELIC", CArtifact::ART_RELIC) ("SPECIAL", CArtifact::ART_SPECIAL); #define ART_BEARER(x) ( #x, ArtBearer::x ) const std::map artifactBearerMap = boost::assign::map_list_of ART_BEARER_LIST; #undef ART_BEARER #define ART_POS(x) ( #x, ArtifactPosition::x ) const std::map artifactPositionMap = boost::assign::map_list_of ART_POS(HEAD) ART_POS(SHOULDERS) ART_POS(NECK) ART_POS(RIGHT_HAND) ART_POS(LEFT_HAND) ART_POS(TORSO) ART_POS(RIGHT_RING) ART_POS(LEFT_RING) ART_POS(FEET) ART_POS(MISC1) ART_POS(MISC2) ART_POS(MISC3) ART_POS(MISC4) ART_POS(MISC5) ART_POS(MACH1) ART_POS(MACH2) ART_POS(MACH3) ART_POS(MACH4) ART_POS(SPELLBOOK); //no need to specify commander / stack position? const std::string & CArtifact::Name() const { return name; } const std::string & CArtifact::Description() const { return description; } const std::string & CArtifact::EventText() const { return eventText; } bool CArtifact::isBig () const { return VLC->arth->isBigArtifact(id); } // /** // * Checks whether the artifact fits at a given slot. // * @param artifWorn A hero's set of worn artifacts. // */ // bool CArtifact::fitsAt (const std::map &artifWorn, ui16 slotID) const // { // if (!vstd::contains(possibleSlots, slotID)) // return false; // // // Can't put an artifact in a locked slot. // std::map::const_iterator it = artifWorn.find(slotID); // if (it != artifWorn.end() && it->second->id == 145) // return false; // // // Check if a combination artifact fits. // // TODO: Might want a more general algorithm? // // Assumes that misc & rings fits only in their slots, and others in only one slot and no duplicates. // if (constituents != NULL) // { // std::map tempArtifWorn = artifWorn; // const ui16 ringSlots[] = {6, 7}; // const ui16 miscSlots[] = {9, 10, 11, 12, 18}; // int rings = 0; // int misc = 0; // // VLC->arth->unequipArtifact(tempArtifWorn, slotID); // // BOOST_FOREACH(ui32 constituentID, *constituents) // { // const CArtifact& constituent = *VLC->arth->artifacts[constituentID]; // const int slot = constituent.possibleSlots[0]; // // if (slot == 6 || slot == 7) // rings++; // else if ((slot >= 9 && slot <= 12) || slot == 18) // misc++; // else if (tempArtifWorn.find(slot) != tempArtifWorn.end()) // return false; // } // // // Ensure enough ring slots are free // for (int i = 0; i < sizeof(ringSlots)/sizeof(*ringSlots); i++) // { // if (tempArtifWorn.find(ringSlots[i]) == tempArtifWorn.end() || ringSlots[i] == slotID) // rings--; // } // if (rings > 0) // return false; // // // Ensure enough misc slots are free. // for (int i = 0; i < sizeof(miscSlots)/sizeof(*miscSlots); i++) // { // if (tempArtifWorn.find(miscSlots[i]) == tempArtifWorn.end() || miscSlots[i] == slotID) // misc--; // } // if (misc > 0) // return false; // } // // return true; // } // bool CArtifact::canBeAssembledTo (const std::map &artifWorn, ui32 artifactID) const // { // if (constituentOf == NULL || !vstd::contains(*constituentOf, artifactID)) // return false; // // const CArtifact &artifact = *VLC->arth->artifacts[artifactID]; // assert(artifact.constituents); // // BOOST_FOREACH(ui32 constituentID, *artifact.constituents) // { // bool found = false; // for (std::map::const_iterator it = artifWorn.begin(); it != artifWorn.end(); ++it) // { // if (it->second->id == constituentID) // { // found = true; // break; // } // } // if (!found) // return false; // } // // return true; // } CArtifact::CArtifact() { setNodeType(ARTIFACT); possibleSlots[ArtBearer::HERO]; //we want to generate map entry even if it will be empty possibleSlots[ArtBearer::CREATURE]; //we want to generate map entry even if it will be empty possibleSlots[ArtBearer::COMMANDER]; constituents = NULL; //default pointer to zero constituentOf = NULL; } CArtifact::~CArtifact() { } int CArtifact::getArtClassSerial() const { if(id == 1) return 4; switch(aClass) { case ART_TREASURE: return 0; case ART_MINOR: return 1; case ART_MAJOR: return 2; case ART_RELIC: return 3; case ART_SPECIAL: return 5; } return -1; } std::string CArtifact::nodeName() const { return "Artifact: " + Name(); } // void CArtifact::getParents(TCNodes &out, const CBonusSystemNode *root /*= NULL*/) const // { // //combined artifact carries bonuses from its parts // if(constituents) // { // BOOST_FOREACH(ui32 id, *constituents) // out.insert(VLC->arth->artifacts[id]); // } // } // void CScroll::Init() // { // // addNewBonus (Bonus (Bonus::PERMANENT, Bonus::SPELL, Bonus::ARTIFACT, 1, id, spellid, Bonus::INDEPENDENT_MAX)); // // //boost::algorithm::replace_first(description, "[spell name]", VLC->spellh->spells[spellid].name); // } void CArtifact::addNewBonus(Bonus *b) { b->source = Bonus::ARTIFACT; b->duration = Bonus::PERMANENT; b->description = name; CBonusSystemNode::addNewBonus(b); } void CArtifact::setName (std::string desc) { name = desc; } void CArtifact::setDescription (std::string desc) { description = desc; } void CArtifact::setEventText (std::string desc) { eventText = desc; } void CGrowingArtifact::levelUpArtifact (CArtifactInstance * art) { Bonus b; b.type = Bonus::LEVEL_COUNTER; b.val = 1; b.duration = Bonus::COMMANDER_KILLED; art->accumulateBonus (b); BOOST_FOREACH (auto bonus, bonusesPerLevel) { if (art->valOfBonuses(Bonus::LEVEL_COUNTER) % bonus.first == 0) //every n levels { art->accumulateBonus (bonus.second); } } BOOST_FOREACH (auto bonus, thresholdBonuses) { if (art->valOfBonuses(Bonus::LEVEL_COUNTER) == bonus.first) //every n levels { art->addNewBonus (&bonus.second); } } } CArtHandler::CArtHandler() { //VLC->arth = this; // War machines are the default big artifacts. for (ui32 i = 3; i <= 6; i++) bigArtifacts.insert(i); } CArtHandler::~CArtHandler() { for (std::vector< ConstTransitivePtr >::iterator it = artifacts.begin(); it != artifacts.end(); ++it) { delete (*it)->constituents; delete (*it)->constituentOf; } } void CArtHandler::loadArtifacts(bool onlyTxt) { std::vector slots; slots += 17, 16, 15, 14, 13, 18, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0; growingArtifacts += 146, 147, 148, 150, 151, 152, 153; static std::map classes = map_list_of('S',CArtifact::ART_SPECIAL)('T',CArtifact::ART_TREASURE)('N',CArtifact::ART_MINOR)('J',CArtifact::ART_MAJOR)('R',CArtifact::ART_RELIC); CLegacyConfigParser parser("DATA/ARTRAITS.TXT"); CLegacyConfigParser events("DATA/ARTEVENT.TXT"); parser.endLine(); // header parser.endLine(); std::map::iterator itr; for (int i=0; imodh->modules.COMMANDERS) { //TODO: move all artifacts config to separate json file const JsonNode config(ResourceID("config/commanders.json")); BOOST_FOREACH(const JsonNode &artifact, config["artifacts"].Vector()) { auto ga = dynamic_cast (artifacts[artifact["id"].Float()].get()); BOOST_FOREACH (auto b, artifact["bonusesPerLevel"].Vector()) { ga->bonusesPerLevel.push_back (std::pair (b["level"].Float(), *JsonUtils::parseBonus (b["bonus"].Vector()))); } BOOST_FOREACH (auto b, artifact["thresholdBonuses"].Vector()) { ga->thresholdBonuses.push_back (std::pair (b["level"].Float(), *JsonUtils::parseBonus (b["bonus"].Vector()))); } } } sortArts(); if(onlyTxt) return; addBonuses(); // Populate reverse mappings of combinational artifacts. //TODO: do that also for new artifacts read from mods BOOST_FOREACH(CArtifact *artifact, artifacts) { if (artifact->constituents != NULL) { BOOST_FOREACH(ui32 constituentID, *artifact->constituents) { if (artifacts[constituentID]->constituentOf == NULL) artifacts[constituentID]->constituentOf = new std::vector(); artifacts[constituentID]->constituentOf->push_back(artifact->id); } } } } void CArtHandler::load(const JsonNode & node) { BOOST_FOREACH(auto & entry, node.Struct()) { if (!entry.second.isNull()) // may happens if mod removed creature by setting json entry to null { CArtifact * art = loadArtifact(entry.second); art->id = artifacts.size(); artifacts.push_back(art); tlog5 << "Added artifact: " << entry.first << "\n"; VLC->modh->identifiers.registerObject (std::string("artifact.") + entry.first, art->id); } } } CArtifact * CArtHandler::loadArtifact(const JsonNode & node) { CArtifact * art = new CArtifact; const JsonNode *value; const JsonNode & text = node["text"]; art->setName (text["name"].String()); art->setDescription (text["description"].String()); art->setEventText (text["event"].String()); const JsonNode & graphics = node["graphics"]; art->iconIndex = graphics["iconIndex"].Float(); art->image = graphics["image"].String(); value = &graphics["large"]; if (!value->isNull()) art->large = value->String(); art->advMapDef = graphics["map"].String(); art->price = node["value"].Float(); { auto it = artifactClassMap.find (node["class"].String()); if (it != artifactClassMap.end()) { art->aClass = it->second; } else { tlog2 << "Warning! Artifact rarity " << value->String() << " not recognized!"; art->aClass = CArtifact::ART_SPECIAL; } } int bearerType = -1; bool heroArt = false; { const JsonNode & bearer = node["type"]; BOOST_FOREACH (const JsonNode & b, bearer.Vector()) { auto it = artifactBearerMap.find (b.String()); if (it != artifactBearerMap.end()) { bearerType = it->second; switch (bearerType) { case ArtBearer::HERO: //TODO: allow arts having several possible bearers heroArt = true; break; case ArtBearer::COMMANDER: makeItCommanderArt (art, false); //do not erase already existing slots break; case ArtBearer::CREATURE: makeItCreatureArt (art, false); break; } } else tlog2 << "Warning! Artifact type " << b.String() << " not recognized!"; } } value = &node["slot"]; if (!value->isNull() && heroArt) //we assume non-hero slots are irrelevant? { std::string slotName = value->String(); if (slotName == "MISC") { //unfortunatelly slot ids aare not continuous art->possibleSlots[ArtBearer::HERO] += ArtifactPosition::MISC1, ArtifactPosition::MISC2, ArtifactPosition::MISC3, ArtifactPosition::MISC4, ArtifactPosition::MISC5; } else if (slotName == "RING") { art->possibleSlots[ArtBearer::HERO] += ArtifactPosition::LEFT_RING, ArtifactPosition::RIGHT_RING; } else { auto it = artifactPositionMap.find (slotName); if (it != artifactPositionMap.end()) { auto slot = it->second; art->possibleSlots[ArtBearer::HERO].push_back (slot); } else tlog2 << "Warning! Artifact slot " << value->String() << " not recognized!"; } } readComponents (node, art); BOOST_FOREACH (const JsonNode &bonus, node["bonuses"].Vector()) { auto b = JsonUtils::parseBonus(bonus); //TODO: bonus->sid = art->id; art->addNewBonus(b); } return art; } void CArtifact::addConstituent (ui32 component) { assert (constituents); constituents->push_back (component); } int CArtHandler::convertMachineID(int id, bool creToArt ) { int dif = 142; if(creToArt) { switch (id) { case 147: dif--; break; case 148: dif++; break; } dif = -dif; } else { switch (id) { case 6: dif--; break; case 5: dif++; break; } } return id + dif; } void CArtHandler::sortArts() { //for (int i=0; iaClass) // { // case CArtifact::ART_TREASURE: // treasures.push_back(allowedArtifacts[i]); // break; // case CArtifact::ART_MINOR: // minors.push_back(allowedArtifacts[i]); // break; // case CArtifact::ART_MAJOR: // majors.push_back(allowedArtifacts[i]); // break; // case CArtifact::ART_RELIC: // relics.push_back(allowedArtifacts[i]); // break; // } //} } void CArtHandler::erasePickedArt( TArtifactInstanceID id ) { std::vector* ptr; CArtifact *art = artifacts[id]; switch (art->aClass) { case CArtifact::ART_TREASURE: ptr = &treasures; break; case CArtifact::ART_MINOR: ptr = &minors; break; case CArtifact::ART_MAJOR: ptr = &majors; break; case CArtifact::ART_RELIC: ptr = &relics; break; default: //special artifacts should not be erased return; } ptr->erase (std::find(ptr->begin(), ptr->end(), art)); //remove the artifact from available list } ui16 CArtHandler::getRandomArt(int flags) { std::vector > out; getAllowed(out, flags); ui16 id = out[ran() % out.size()]->id; erasePickedArt (id); return id; } ui16 CArtHandler::getArtSync (ui32 rand, int flags) { std::vector > out; getAllowed(out, flags); CArtifact *art = out[rand % out.size()]; return art->id; } void CArtHandler::getAllowed(std::vector > &out, int flags) { if (flags & CArtifact::ART_TREASURE) getAllowedArts (out, &treasures, CArtifact::ART_TREASURE); if (flags & CArtifact::ART_MINOR) getAllowedArts (out, &minors, CArtifact::ART_MINOR); if (flags & CArtifact::ART_MAJOR) getAllowedArts (out, &majors, CArtifact::ART_MAJOR); if (flags & CArtifact::ART_RELIC) getAllowedArts (out, &relics, CArtifact::ART_RELIC); if (!out.size()) //no artifact of specified rarity, we need to take another one { getAllowedArts (out, &treasures, CArtifact::ART_TREASURE); getAllowedArts (out, &minors, CArtifact::ART_MINOR); getAllowedArts (out, &majors, CArtifact::ART_MAJOR); getAllowedArts (out, &relics, CArtifact::ART_RELIC); } if (!out.size()) //no arts are available at all { out.resize (64); std::fill_n (out.begin(), 64, artifacts[2]); //Give Grail - this can't be banned (hopefully) } } void CArtHandler::getAllowedArts(std::vector > &out, std::vector *arts, int flag) { if (arts->empty()) //restock available arts { for (int i = 0; i < allowedArtifacts.size(); ++i) { if (allowedArtifacts[i]->aClass == flag) arts->push_back(allowedArtifacts[i]); } } for (int i = 0; i < arts->size(); ++i) { CArtifact *art = (*arts)[i]; out.push_back(art); } } Bonus *createBonus(Bonus::BonusType type, int val, int subtype, int valType, shared_ptr limiter = shared_ptr(), int additionalInfo = 0) { Bonus *added = new Bonus(Bonus::PERMANENT,type,Bonus::ARTIFACT,val,-1,subtype); added->additionalInfo = additionalInfo; added->valType = valType; added->limiter = limiter; return added; } Bonus *createBonus(Bonus::BonusType type, int val, int subtype, shared_ptr propagator = shared_ptr(), int additionalInfo = 0) { Bonus *added = new Bonus(Bonus::PERMANENT,type,Bonus::ARTIFACT,val,-1,subtype); added->additionalInfo = additionalInfo; added->valType = Bonus::BASE_NUMBER; added->propagator = propagator; return added; } void CArtHandler::giveArtBonus( TArtifactID aid, Bonus::BonusType type, int val, int subtype, int valType, shared_ptr limiter, int additionalInfo) { giveArtBonus(aid, createBonus(type, val, subtype, valType, limiter, additionalInfo)); } void CArtHandler::giveArtBonus(TArtifactID aid, Bonus::BonusType type, int val, int subtype, shared_ptr propagator /*= NULL*/, int additionalInfo) { giveArtBonus(aid, createBonus(type, val, subtype, propagator, additionalInfo)); } void CArtHandler::giveArtBonus(TArtifactID aid, Bonus *bonus) { bonus->sid = aid; if(bonus->subtype == Bonus::MORALE || bonus->type == Bonus::LUCK) bonus->description = artifacts[aid]->Name() + (bonus->val > 0 ? " +" : " ") + boost::lexical_cast(bonus->val); else bonus->description = artifacts[aid]->Name(); artifacts[aid]->addNewBonus(bonus); } void CArtHandler::makeItCreatureArt (CArtifact * a, bool onlyCreature /*=true*/) { if (onlyCreature) { a->possibleSlots[ArtBearer::HERO].clear(); a->possibleSlots[ArtBearer::COMMANDER].clear(); } a->possibleSlots[ArtBearer::CREATURE].push_back(ArtifactPosition::CREATURE_SLOT); } void CArtHandler::makeItCreatureArt (TArtifactInstanceID aid, bool onlyCreature /*=true*/) { CArtifact *a = artifacts[aid]; makeItCreatureArt (a, onlyCreature); } void CArtHandler::makeItCommanderArt (CArtifact * a, bool onlyCommander /*= true*/ ) { if (onlyCommander) { a->possibleSlots[ArtBearer::HERO].clear(); a->possibleSlots[ArtBearer::CREATURE].clear(); } for (int i = ArtifactPosition::COMMANDER1; i <= ArtifactPosition::COMMANDER6; ++i) a->possibleSlots[ArtBearer::COMMANDER].push_back(i); } void CArtHandler::makeItCommanderArt( TArtifactInstanceID aid, bool onlyCommander /*= true*/ ) { CArtifact *a = artifacts[aid]; makeItCommanderArt (a, onlyCommander); } void CArtHandler::addBonuses() { const JsonNode config(ResourceID("config/artifacts.json")); BOOST_FOREACH (auto & artifact, config["artifacts"].Struct()) //pair (id, properties) { auto ga = artifacts[artifact.second["id"].Float()].get(); BOOST_FOREACH (auto b, artifact.second["bonuses"].Vector()) { auto bonus = JsonUtils::parseBonus (b); bonus->sid = ga->id; ga->addNewBonus (bonus); } BOOST_FOREACH (const JsonNode & b, artifact.second["type"].Vector()) //TODO: remove duplicate code { auto it = artifactBearerMap.find (b.String()); if (it != artifactBearerMap.end()) { int bearerType = it->second; switch (bearerType) { case ArtBearer::HERO: break; case ArtBearer::COMMANDER: makeItCommanderArt (ga); //original artifacts should have only one bearer type break; case ArtBearer::CREATURE: makeItCreatureArt (ga); break; } } else tlog2 << "Warning! Artifact type " << b.String() << " not recognized!"; } readComponents (artifact.second, ga); VLC->modh->identifiers.registerObject ("artifact." + artifact.first, ga->id); } } void CArtHandler::readComponents (const JsonNode & node, CArtifact * art) { const JsonNode *value; value = &node["components"]; if (!value->isNull()) { art->constituents = new std::vector(); BOOST_FOREACH (auto component, value->Vector()) { VLC->modh->identifiers.requestIdentifier(std::string("artifact.") + component.String(), boost::bind (&CArtifact::addConstituent, art, _1) ); } } } void CArtHandler::clear() { BOOST_FOREACH(CArtifact *art, artifacts) delete art; artifacts.clear(); clearHlpLists(); } void CArtHandler::clearHlpLists() { treasures.clear(); minors.clear(); majors.clear(); relics.clear(); } void CArtHandler::initAllowedArtifactsList(const std::vector &allowed) { allowedArtifacts.clear(); clearHlpLists(); for (int i=0; i<144; ++i) //yes, 144 { if (allowed[i]) allowedArtifacts.push_back(artifacts[i]); } if (VLC->modh->modules.COMMANDERS) //allow all commander artifacts for testing { for (int i = 146; i <= 155; ++i) { allowedArtifacts.push_back(artifacts[i]); } } for (int i = GameConstants::ARTIFACTS_QUANTITY; i < artifacts.size(); ++i) //allow all new artifacts by default { if (artifacts[i]->possibleSlots[ArtBearer::HERO].size()) allowedArtifacts.push_back(artifacts[i]); else //check if active modules allow artifact to be every used { if ((artifacts[i]->possibleSlots[ArtBearer::COMMANDER].size() && VLC->modh->modules.COMMANDERS) || (artifacts[i]->possibleSlots[ArtBearer::CREATURE].size() && VLC->modh->modules.STACK_ARTIFACT)) allowedArtifacts.push_back(artifacts[i]); //keep im mind that artifact can be worn by more than one type of bearer } } } std::vector CArtHandler::getDefaultAllowedArtifacts() const { std::vector allowedArtifacts; allowedArtifacts.resize(127, 1); allowedArtifacts.resize(141, 0); allowedArtifacts.resize(GameConstants::ARTIFACTS_QUANTITY, 1); return allowedArtifacts; } CArtifactInstance::CArtifactInstance() { init(); } CArtifactInstance::CArtifactInstance( CArtifact *Art) { init(); setType(Art); } // CArtifactInstance::CArtifactInstance(int aid) // { // init(); // setType(VLC->arth->artifacts[aid]); // } void CArtifactInstance::setType( CArtifact *Art ) { artType = Art; attachTo(Art); } std::string CArtifactInstance::nodeName() const { return "Artifact instance of " + (artType ? artType->Name() : std::string("uninitialized")) + " type"; } CArtifactInstance * CArtifactInstance::createScroll( const CSpell *s) { CArtifactInstance *ret = new CArtifactInstance(VLC->arth->artifacts[1]); Bonus *b = new Bonus(Bonus::PERMANENT, Bonus::SPELL, Bonus::ARTIFACT_INSTANCE, -1, 1, s->id); ret->addNewBonus(b); return ret; } void CArtifactInstance::init() { id = -1; setNodeType(ARTIFACT_INSTANCE); } int CArtifactInstance::firstAvailableSlot(const CArtifactSet *h) const { BOOST_FOREACH(ui16 slot, artType->possibleSlots[h->bearerType()]) { if(canBePutAt(h, slot)) //if(artType->fitsAt(h->artifWorn, slot)) { //we've found a free suitable slot. return slot; } } //if haven't find proper slot, use backpack return firstBackpackSlot(h); } int CArtifactInstance::firstBackpackSlot(const CArtifactSet *h) const { if(!artType->isBig()) //discard big artifact return GameConstants::BACKPACK_START + h->artifactsInBackpack.size(); return -1; } bool CArtifactInstance::canBePutAt(const ArtifactLocation al, bool assumeDestRemoved /*= false*/) const { return canBePutAt(al.getHolderArtSet(), al.slot, assumeDestRemoved); } bool CArtifactInstance::canBePutAt(const CArtifactSet *artSet, int slot, bool assumeDestRemoved /*= false*/) const { if(slot >= GameConstants::BACKPACK_START) { if(artType->isBig()) return false; //TODO backpack limit return true; } auto possibleSlots = artType->possibleSlots.find(artSet->bearerType()); if(possibleSlots == artType->possibleSlots.end()) { tlog3 << "Warning: arrtifact " << artType->Name() << " doesn't have defined allowed slots for bearer of type " << artSet->bearerType() << std::endl; return false; } if(!vstd::contains(possibleSlots->second, slot)) return false; return artSet->isPositionFree(slot, assumeDestRemoved); } void CArtifactInstance::putAt(ArtifactLocation al) { assert(canBePutAt(al)); al.getHolderArtSet()->setNewArtSlot(al.slot, this, false); if(al.slot < GameConstants::BACKPACK_START) al.getHolderNode()->attachTo(this); } void CArtifactInstance::removeFrom(ArtifactLocation al) { assert(al.getHolderArtSet()->getArt(al.slot) == this); al.getHolderArtSet()->eraseArtSlot(al.slot); if(al.slot < GameConstants::BACKPACK_START) al.getHolderNode()->detachFrom(this); //TODO delete me? } bool CArtifactInstance::canBeDisassembled() const { return artType->constituents && artType->constituentOf->size(); } std::vector CArtifactInstance::assemblyPossibilities(const CArtifactSet *h) const { std::vector ret; if(!artType->constituentOf //not a part of combined artifact || artType->constituents) //combined artifact already: no combining of combined artifacts... for now. return ret; BOOST_FOREACH(ui32 possibleCombinedArt, *artType->constituentOf) { const CArtifact * const artifact = VLC->arth->artifacts[possibleCombinedArt]; assert(artifact->constituents); bool possible = true; BOOST_FOREACH(ui32 constituentID, *artifact->constituents) //check if all constituents are available { if(!h->hasArt(constituentID, true)) //constituent must be equipped { possible = false; break; } } if(possible) ret.push_back(artifact); } return ret; } void CArtifactInstance::move(ArtifactLocation src, ArtifactLocation dst) { removeFrom(src); putAt(dst); } CArtifactInstance * CArtifactInstance::createNewArtifactInstance(CArtifact *Art) { if(!Art->constituents) { auto ret = new CArtifactInstance(Art); if (dynamic_cast(Art)) { Bonus * bonus = new Bonus; bonus->type = Bonus::LEVEL_COUNTER; bonus->val = 0; ret->addNewBonus (bonus); } return ret; } else { CCombinedArtifactInstance * ret = new CCombinedArtifactInstance(Art); ret->createConstituents(); return ret; } } CArtifactInstance * CArtifactInstance::createNewArtifactInstance(int aid) { return createNewArtifactInstance(VLC->arth->artifacts[aid]); } void CArtifactInstance::deserializationFix() { setType(artType); } int CArtifactInstance::getGivenSpellID() const { const Bonus * b = getBonusLocalFirst(Selector::type(Bonus::SPELL)); if(!b) { tlog3 << "Warning: " << nodeName() << " doesn't bear any spell!\n"; return -1; } return b->subtype; } bool CArtifactInstance::isPart(const CArtifactInstance *supposedPart) const { return supposedPart == this; } bool CCombinedArtifactInstance::canBePutAt(const CArtifactSet *artSet, int slot, bool assumeDestRemoved /*= false*/) const { bool canMainArtifactBePlaced = CArtifactInstance::canBePutAt(artSet, slot, assumeDestRemoved); if(!canMainArtifactBePlaced) return false; //no is no... if(slot >= GameConstants::BACKPACK_START) return true; //we can always remove combined art to the backapck assert(artType->constituents); std::vector constituentsToBePlaced = constituentsInfo; //we'll remove constituents from that list, as we find a suitable slot for them //it may be that we picked a combined artifact in hero screen (though technically it's still there) to move it //so we remove from the list all constituents that are already present on dst hero in the form of locks BOOST_FOREACH(const ConstituentInfo &constituent, constituentsInfo) { if(constituent.art == artSet->getArt(constituent.slot, false)) //no need to worry about locked constituent constituentsToBePlaced -= constituent; } //we iterate over all active slots and check if constituents fits them for (int i = 0; i < GameConstants::BACKPACK_START; i++) { for(std::vector::iterator art = constituentsToBePlaced.begin(); art != constituentsToBePlaced.end(); art++) { if(art->art->canBePutAt(artSet, i, i == slot)) // i == al.slot because we can remove already worn artifact only from that slot that is our main destination { constituentsToBePlaced.erase(art); break; } } } return constituentsToBePlaced.empty(); } bool CCombinedArtifactInstance::canBeDisassembled() const { return true; } CCombinedArtifactInstance::CCombinedArtifactInstance(CArtifact *Art) : CArtifactInstance(Art) //TODO: seems unued, but need to be written { } CCombinedArtifactInstance::CCombinedArtifactInstance() { } void CCombinedArtifactInstance::createConstituents() { assert(artType); assert(artType->constituents); BOOST_FOREACH(ui32 a, *artType->constituents) { addAsConstituent(CArtifactInstance::createNewArtifactInstance(a), -1); } } void CCombinedArtifactInstance::addAsConstituent(CArtifactInstance *art, int slot) { assert(vstd::contains(*artType->constituents, art->artType->id)); assert(art->getParentNodes().size() == 1 && art->getParentNodes().front() == art->artType); constituentsInfo.push_back(ConstituentInfo(art, slot)); attachTo(art); } void CCombinedArtifactInstance::putAt(ArtifactLocation al) { if(al.slot >= GameConstants::BACKPACK_START) { CArtifactInstance::putAt(al); BOOST_FOREACH(ConstituentInfo &ci, constituentsInfo) ci.slot = -1; } else { CArtifactInstance *mainConstituent = figureMainConstituent(al); //it'll be replaced with combined artifact, not a lock CArtifactInstance::putAt(al); //puts combined art (this) BOOST_FOREACH(ConstituentInfo &ci, constituentsInfo) { if(ci.art != mainConstituent) { const ArtifactLocation suggestedPos(al.artHolder, ci.slot); const bool inActiveSlot = vstd::isbetween(ci.slot, 0, GameConstants::BACKPACK_START); const bool suggestedPosValid = ci.art->canBePutAt(suggestedPos); int pos = -1; if(inActiveSlot && suggestedPosValid) //there is a valid suggestion where to place lock pos = ci.slot; else ci.slot = pos = ci.art->firstAvailableSlot(al.getHolderArtSet()); assert(pos < GameConstants::BACKPACK_START); al.getHolderArtSet()->setNewArtSlot(pos, ci.art, true); //sets as lock } else { ci.slot = -1; } } } } void CCombinedArtifactInstance::removeFrom(ArtifactLocation al) { if(al.slot >= GameConstants::BACKPACK_START) { CArtifactInstance::removeFrom(al); } else { BOOST_FOREACH(ConstituentInfo &ci, constituentsInfo) { if(ci.slot >= 0) { al.getHolderArtSet()->eraseArtSlot(ci.slot); ci.slot = -1; } else { //main constituent CArtifactInstance::removeFrom(al); } } } } CArtifactInstance * CCombinedArtifactInstance::figureMainConstituent(const ArtifactLocation al) { CArtifactInstance *mainConstituent = NULL; //it'll be replaced with combined artifact, not a lock BOOST_FOREACH(ConstituentInfo &ci, constituentsInfo) if(ci.slot == al.slot) mainConstituent = ci.art; if(!mainConstituent) { BOOST_FOREACH(ConstituentInfo &ci, constituentsInfo) { if(vstd::contains(ci.art->artType->possibleSlots[al.getHolderArtSet()->bearerType()], al.slot)) { mainConstituent = ci.art; } } } return mainConstituent; } void CCombinedArtifactInstance::deserializationFix() { BOOST_FOREACH(ConstituentInfo &ci, constituentsInfo) attachTo(ci.art); } bool CCombinedArtifactInstance::isPart(const CArtifactInstance *supposedPart) const { bool me = CArtifactInstance::isPart(supposedPart); if(me) return true; //check for constituents BOOST_FOREACH(const ConstituentInfo &constituent, constituentsInfo) if(constituent.art == supposedPart) return true; return false; } CCombinedArtifactInstance::ConstituentInfo::ConstituentInfo(CArtifactInstance *Art /*= NULL*/, ui16 Slot /*= -1*/) { art = Art; slot = Slot; } bool CCombinedArtifactInstance::ConstituentInfo::operator==(const ConstituentInfo &rhs) const { return art == rhs.art && slot == rhs.slot; } const CArtifactInstance* CArtifactSet::getArt(ui16 pos, bool excludeLocked /*= true*/) const { if(const ArtSlotInfo *si = getSlot(pos)) { if(si->artifact && (!excludeLocked || !si->locked)) return si->artifact; } return NULL; } CArtifactInstance* CArtifactSet::getArt(ui16 pos, bool excludeLocked /*= true*/) { return const_cast((const_cast(this))->getArt(pos, excludeLocked)); } si32 CArtifactSet::getArtPos(int aid, bool onlyWorn /*= true*/) const { for(std::map::const_iterator i = artifactsWorn.begin(); i != artifactsWorn.end(); i++) if(i->second.artifact->artType->id == aid) return i->first; if(onlyWorn) return -1; for(int i = 0; i < artifactsInBackpack.size(); i++) if(artifactsInBackpack[i].artifact->artType->id == aid) return GameConstants::BACKPACK_START + i; return -1; } si32 CArtifactSet::getArtPos(const CArtifactInstance *art) const { for(std::map::const_iterator i = artifactsWorn.begin(); i != artifactsWorn.end(); i++) if(i->second.artifact == art) return i->first; for(int i = 0; i < artifactsInBackpack.size(); i++) if(artifactsInBackpack[i].artifact == art) return GameConstants::BACKPACK_START + i; return -1; } const CArtifactInstance * CArtifactSet::getArtByInstanceId( TArtifactInstanceID artInstId ) const { for(std::map::const_iterator i = artifactsWorn.begin(); i != artifactsWorn.end(); i++) if(i->second.artifact->id == artInstId) return i->second.artifact; for(int i = 0; i < artifactsInBackpack.size(); i++) if(artifactsInBackpack[i].artifact->id == artInstId) return artifactsInBackpack[i].artifact; return NULL; } bool CArtifactSet::hasArt(ui32 aid, bool onlyWorn /*= false*/) const { return getArtPos(aid, onlyWorn) != -1; } const ArtSlotInfo * CArtifactSet::getSlot(ui16 pos) const { if(vstd::contains(artifactsWorn, pos)) return &artifactsWorn[pos]; if(pos >= ArtifactPosition::AFTER_LAST ) { int backpackPos = (int)pos - GameConstants::BACKPACK_START; if(backpackPos < 0 || backpackPos >= artifactsInBackpack.size()) return NULL; else return &artifactsInBackpack[backpackPos]; } return NULL; } bool CArtifactSet::isPositionFree(ui16 pos, bool onlyLockCheck /*= false*/) const { if(const ArtSlotInfo *s = getSlot(pos)) return (onlyLockCheck || !s->artifact) && !s->locked; return true; //no slot means not used } si32 CArtifactSet::getArtTypeId(ui16 pos) const { const CArtifactInstance * const a = getArt(pos); if(!a) { tlog2 << (dynamic_cast(this))->name << " has no artifact at " << pos << " (getArtTypeId)\n"; return -1; } return a->artType->id; } CArtifactSet::~CArtifactSet() { } ArtSlotInfo & CArtifactSet::retreiveNewArtSlot(ui16 slot) { assert(!vstd::contains(artifactsWorn, slot)); ArtSlotInfo &ret = slot < GameConstants::BACKPACK_START ? artifactsWorn[slot] : *artifactsInBackpack.insert(artifactsInBackpack.begin() + (slot - GameConstants::BACKPACK_START), ArtSlotInfo()); return ret; } void CArtifactSet::setNewArtSlot(ui16 slot, CArtifactInstance *art, bool locked) { ArtSlotInfo &asi = retreiveNewArtSlot(slot); asi.artifact = art; asi.locked = locked; } void CArtifactSet::eraseArtSlot(ui16 slot) { if(slot < GameConstants::BACKPACK_START) { artifactsWorn.erase(slot); } else { slot -= GameConstants::BACKPACK_START; artifactsInBackpack.erase(artifactsInBackpack.begin() + slot); } } void CArtifactSet::artDeserializationFix(CBonusSystemNode *node) { for(bmap::iterator i = artifactsWorn.begin(); i != artifactsWorn.end(); i++) if(i->second.artifact && !i->second.locked) node->attachTo(i->second.artifact); }