/* * BattleSpellMechanics.cpp, part of VCMI engine * * Authors: listed in file AUTHORS in main folder * * License: GNU General Public License v2.0 or later * Full text of license available in license.txt file, in main folder * */ #include "StdInc.h" #include "BattleSpellMechanics.h" #include "Problem.h" #include "CSpellHandler.h" #include "../battle/IBattleState.h" #include "../battle/CBattleInfoCallback.h" #include "../CStack.h" #include "../NetPacks.h" namespace spells { namespace SRSLPraserHelpers { static int XYToHex(int x, int y) { return x + GameConstants::BFIELD_WIDTH * y; } static int XYToHex(std::pair xy) { return XYToHex(xy.first, xy.second); } static int hexToY(int battleFieldPosition) { return battleFieldPosition/GameConstants::BFIELD_WIDTH; } static int hexToX(int battleFieldPosition) { int pos = battleFieldPosition - hexToY(battleFieldPosition) * GameConstants::BFIELD_WIDTH; return pos; } static std::pair hexToPair(int battleFieldPosition) { return std::make_pair(hexToX(battleFieldPosition), hexToY(battleFieldPosition)); } //moves hex by one hex in given direction //0 - left top, 1 - right top, 2 - right, 3 - right bottom, 4 - left bottom, 5 - left static std::pair gotoDir(int x, int y, int direction) { switch(direction) { case 0: //top left return std::make_pair((y%2) ? x-1 : x, y-1); case 1: //top right return std::make_pair((y%2) ? x : x+1, y-1); case 2: //right return std::make_pair(x+1, y); case 3: //right bottom return std::make_pair((y%2) ? x : x+1, y+1); case 4: //left bottom return std::make_pair((y%2) ? x-1 : x, y+1); case 5: //left return std::make_pair(x-1, y); default: throw std::runtime_error("Disaster: wrong direction in SRSLPraserHelpers::gotoDir!\n"); } } static std::pair gotoDir(std::pair xy, int direction) { return gotoDir(xy.first, xy.second, direction); } static bool isGoodHex(std::pair xy) { return xy.first >=0 && xy.first < GameConstants::BFIELD_WIDTH && xy.second >= 0 && xy.second < GameConstants::BFIELD_HEIGHT; } //helper function for rangeInHexes static std::set getInRange(unsigned int center, int low, int high) { std::set ret; if(low == 0) { ret.insert(center); } std::pair mainPointForLayer[6]; //A, B, C, D, E, F points for(auto & elem : mainPointForLayer) elem = hexToPair(center); for(int it=1; it<=high; ++it) //it - distance to the center { for(int b=0; b<6; ++b) mainPointForLayer[b] = gotoDir(mainPointForLayer[b], b); if(it>=low) { std::pair curHex; //adding lines (A-b, B-c, C-d, etc) for(int v=0; v<6; ++v) { curHex = mainPointForLayer[v]; for(int h=0; h=low) } return ret; } } BattleSpellMechanics::BattleSpellMechanics(const IBattleCast * event, std::shared_ptr effects_, std::shared_ptr targetCondition_) : BaseMechanics(event), effects(effects_), targetCondition(targetCondition_) {} BattleSpellMechanics::~BattleSpellMechanics() = default; void BattleSpellMechanics::applyEffects(BattleStateProxy * battleState, vstd::RNG & rng, const Target & targets, bool indirect, bool ignoreImmunity) const { auto callback = [&](const effects::Effect * effect, bool & stop) { if(indirect == effect->indirect) { if(ignoreImmunity) { effect->apply(battleState, rng, this, targets); } else { EffectTarget filtered = effect->filterTarget(this, targets); effect->apply(battleState, rng, this, filtered); } } }; effects->forEachEffect(getEffectLevel(), callback); } bool BattleSpellMechanics::canBeCast(Problem & problem) const { return effects->applicable(problem, this); } bool BattleSpellMechanics::canBeCastAt(const Target & target) const { detail::ProblemImpl problem; //TODO: send problem to caller (for battle log message in BattleInterface) Target spellTarget = transformSpellTarget(target); return effects->applicable(problem, this, target, spellTarget); } std::vector BattleSpellMechanics::getAffectedStacks(const Target & target) const { Target spellTarget = transformSpellTarget(target); EffectTarget all; effects->forEachEffect(getEffectLevel(), [&all, &target, &spellTarget, this](const effects::Effect * e, bool & stop) { EffectTarget one = e->transformTarget(this, target, spellTarget); vstd::concatenate(all, one); }); std::set stacks; for(const Destination & dest : all) { if(dest.unitValue) { //FIXME: remove and return battle::Unit stacks.insert(cb->battleGetStackByID(dest.unitValue->unitId(), false)); } } std::vector res; std::copy(stacks.begin(), stacks.end(), std::back_inserter(res)); return res; } void BattleSpellMechanics::cast(const PacketSender * server, vstd::RNG & rng, const Target & target) { BattleSpellCast sc; int spellCost = 0; sc.side = casterSide; sc.spellID = getSpellId(); sc.tile = target.at(0).hexValue; sc.castByHero = mode == Mode::HERO; sc.casterStack = caster->getCasterUnitId(); sc.manaGained = 0; sc.activeCast = false; affectedUnits.clear(); const CGHeroInstance * otherHero = nullptr; { //check it there is opponent hero const ui8 otherSide = cb->otherSide(casterSide); if(cb->battleHasHero(otherSide)) otherHero = cb->battleGetFightingHero(otherSide); } //calculate spell cost if(mode == Mode::HERO) { auto casterHero = dynamic_cast(caster); spellCost = cb->battleGetSpellCost(owner, casterHero); if(nullptr != otherHero) //handle mana channel { int manaChannel = 0; for(const CStack * stack : cb->battleGetAllStacks(true)) //TODO: shouldn't bonus system handle it somehow? { if(stack->owner == otherHero->tempOwner) { vstd::amax(manaChannel, stack->valOfBonuses(Bonus::MANA_CHANNELING)); } } sc.manaGained = (manaChannel * spellCost) / 100; } sc.activeCast = true; } else if(mode == Mode::CREATURE_ACTIVE || mode == Mode::ENCHANTER) { spellCost = 1; sc.activeCast = true; } beforeCast(sc, rng, target); switch (mode) { case Mode::CREATURE_ACTIVE: case Mode::ENCHANTER: case Mode::HERO: case Mode::PASSIVE: { MetaString line; caster->getCastDescription(owner, affectedUnits, line); if(!line.message.empty()) sc.battleLog.push_back(line); } break; default: break; } doRemoveEffects(server, affectedUnits, std::bind(&BattleSpellMechanics::counteringSelector, this, _1)); for(auto & unit : affectedUnits) sc.affectedCres.insert(unit->unitId()); server->sendAndApply(&sc); { BattleStateProxy proxy(server); for(auto & p : effectsToApply) p.first->apply(&proxy, rng, this, p.second); } // afterCast(); if(sc.activeCast) { caster->spendMana(server, spellCost); if(sc.manaGained > 0) { assert(otherHero); otherHero->spendMana(server, -sc.manaGained); } } } void BattleSpellMechanics::beforeCast(BattleSpellCast & sc, vstd::RNG & rng, const Target & target) { affectedUnits.clear(); Target spellTarget = transformSpellTarget(target); std::vector resisted; auto rangeGen = rng.getInt64Range(0, 99); auto filterResisted = [&, this](const battle::Unit * unit) -> bool { if(isNegativeSpell()) { //magic resistance const int prob = std::min(unit->magicResistance(), 100); //probability of resistance in % if(rangeGen() < prob) return true; } return false; }; auto filterUnit = [&](const battle::Unit * unit) { if(filterResisted(unit)) resisted.push_back(unit); else affectedUnits.push_back(unit); }; //prepare targets effectsToApply = effects->prepare(this, target, spellTarget); std::set unitTargets = collectTargets(); //process them for(auto unit : unitTargets) filterUnit(unit); //and update targets for(auto & p : effectsToApply) { vstd::erase_if(p.second, [&](const Destination & d) { if(!d.unitValue) return false; return vstd::contains(resisted, d.unitValue); }); } if(mode == Mode::MAGIC_MIRROR) { if(caster->getCasterUnitId() >= 0) { addCustomEffect(sc, caster->getCasterUnitId(), 3); } } for(auto unit : resisted) addCustomEffect(sc, unit, 78); } void BattleSpellMechanics::cast(IBattleState * battleState, vstd::RNG & rng, const Target & target) { //TODO: evaluate caster updates (mana usage etc.) //TODO: evaluate random values Target spellTarget = transformSpellTarget(target); effectsToApply = effects->prepare(this, target, spellTarget); std::set stacks = collectTargets(); for(const battle::Unit * one : stacks) { auto selector = std::bind(&BattleSpellMechanics::counteringSelector, this, _1); std::vector buffer; auto bl = one->getBonuses(selector); for(auto item : *bl) buffer.emplace_back(*item); if(!buffer.empty()) battleState->removeUnitBonus(one->unitId(), buffer); } { BattleStateProxy proxy(battleState); for(auto & p : effectsToApply) p.first->apply(&proxy, rng, this, p.second); } } void BattleSpellMechanics::addCustomEffect(BattleSpellCast & sc, const battle::Unit * target, ui32 effect) { addCustomEffect(sc, target->unitId(), effect); } void BattleSpellMechanics::addCustomEffect(BattleSpellCast & sc, ui32 targetId, ui32 effect) { CustomEffectInfo customEffect; customEffect.effect = effect; customEffect.stack = targetId; sc.customEffects.push_back(customEffect); } std::set BattleSpellMechanics::collectTargets() const { std::set result; for(const auto & p : effectsToApply) { for(const Destination & d : p.second) if(d.unitValue) result.insert(d.unitValue); } return result; } void BattleSpellMechanics::doRemoveEffects(const PacketSender * server, const std::vector & targets, const CSelector & selector) { SetStackEffect sse; for(auto unit : targets) { std::vector buffer; auto bl = unit->getBonuses(selector); for(auto item : *bl) buffer.emplace_back(*item); if(!buffer.empty()) sse.toRemove.push_back(std::make_pair(unit->unitId(), buffer)); } if(!sse.toRemove.empty()) server->sendAndApply(&sse); } bool BattleSpellMechanics::counteringSelector(const Bonus * bonus) const { if(bonus->source != Bonus::SPELL_EFFECT) return false; for(const SpellID & id : owner->counteredSpells) { if(bonus->sid == id.toEnum()) return true; } return false; } std::set BattleSpellMechanics::spellRangeInHexes(BattleHex centralHex) const { using namespace SRSLPraserHelpers; std::set ret; std::string rng = owner->getLevelInfo(getRangeLevel()).range + ','; //copy + artificial comma for easier handling if(rng.size() >= 2 && rng[0] != 'X') //there is at least one hex in range (+artificial comma) { std::string number1, number2; int beg, end; bool readingFirst = true; for(auto & elem : rng) { if(std::isdigit(elem) ) //reading number { if(readingFirst) number1 += elem; else number2 += elem; } else if(elem == ',') //comma { //calculating variables if(readingFirst) { beg = atoi(number1.c_str()); number1 = ""; } else { end = atoi(number2.c_str()); number2 = ""; } //obtaining new hexes std::set curLayer; if(readingFirst) { curLayer = getInRange(centralHex, beg, beg); } else { curLayer = getInRange(centralHex, beg, end); readingFirst = true; } //adding obtained hexes for(auto & curLayer_it : curLayer) { ret.insert(curLayer_it); } } else if(elem == '-') //dash { beg = atoi(number1.c_str()); number1 = ""; readingFirst = false; } } } return ret; } Target BattleSpellMechanics::transformSpellTarget(const Target & aimPoint) const { Target spellTarget; if(aimPoint.size() < 1) { logGlobal->error("Aimed spell cast with no destination."); } else { const Destination & primary = aimPoint.at(0); BattleHex aimPoint = primary.hexValue; //transform primary spell target with spell range (if it`s valid), leave anything else to effects if(aimPoint.isValid()) { auto spellRange = spellRangeInHexes(aimPoint); for(auto & hex : spellRange) spellTarget.push_back(Destination(hex)); } } if(spellTarget.empty()) spellTarget.push_back(Destination(BattleHex::INVALID)); return std::move(spellTarget); } std::vector BattleSpellMechanics::getTargetTypes() const { auto ret = BaseMechanics::getTargetTypes(); if(!ret.empty()) { effects->forEachEffect(getEffectLevel(), [&](const effects::Effect * e, bool & stop) { e->adjustTargetTypes(ret); stop = ret.empty(); }); } return ret; } std::vector BattleSpellMechanics::getPossibleDestinations(size_t index, AimType aimType, const Target & current) const { //TODO: BattleSpellMechanics::getPossibleDestinations if(index != 0) return std::vector(); std::vector ret; switch(aimType) { case AimType::CREATURE: case AimType::LOCATION: for(int i = 0; i < GameConstants::BFIELD_SIZE; i++) { BattleHex dest(i); if(dest.isAvailable()) { Target tmp = current; tmp.emplace_back(dest); if(canBeCastAt(tmp)) ret.emplace_back(dest); } } break; case AimType::NO_TARGET: ret.emplace_back(); break; default: break; } return ret; } bool BattleSpellMechanics::isReceptive(const battle::Unit * target) const { return targetCondition->isReceptive(this, target); } std::vector BattleSpellMechanics::rangeInHexes(BattleHex centralHex, bool * outDroppedHexes) const { if(isMassive() || !centralHex.isValid()) return std::vector(1, BattleHex::INVALID); Target aimPoint; aimPoint.push_back(Destination(centralHex)); Target spellTarget = transformSpellTarget(aimPoint); std::set effectRange; effects->forEachEffect(getEffectLevel(), [&](const effects::Effect * effect, bool & stop) { if(!effect->indirect) { effect->adjustAffectedHexes(effectRange, this, spellTarget); } }); std::vector ret; ret.reserve(effectRange.size()); std::copy(effectRange.begin(), effectRange.end(), std::back_inserter(ret)); return ret; } }