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vcmi/AI/BattleAI/BattleEvaluator.cpp

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/*
* BattleAI.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 "BattleEvaluator.h"
#include "BattleExchangeVariant.h"
#include "StackWithBonuses.h"
#include "EnemyInfo.h"
#include "tbb/parallel_for.h"
#include "../../lib/CStopWatch.h"
#include "../../lib/CThreadHelper.h"
#include "../../lib/mapObjects/CGTownInstance.h"
#include "../../lib/entities/building/TownFortifications.h"
#include "../../lib/spells/CSpellHandler.h"
#include "../../lib/spells/ISpellMechanics.h"
#include "../../lib/battle/BattleStateInfoForRetreat.h"
#include "../../lib/battle/CObstacleInstance.h"
#include "../../lib/battle/BattleAction.h"
#include "../../lib/CRandomGenerator.h"
// TODO: remove
// Eventually only IBattleInfoCallback and battle::Unit should be used,
// CUnitState should be private and CStack should be removed completely
#include "../../lib/CStack.h"
#define LOGL(text) print(text)
#define LOGFL(text, formattingEl) print(boost::str(boost::format(text) % formattingEl))
enum class SpellTypes
{
ADVENTURE, BATTLE, OTHER
};
SpellTypes spellType(const CSpell * spell)
{
if(!spell->isCombat() || spell->isCreatureAbility())
return SpellTypes::OTHER;
if(spell->isOffensive() || spell->hasEffects() || spell->hasBattleEffects())
return SpellTypes::BATTLE;
return SpellTypes::OTHER;
}
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BattleEvaluator::BattleEvaluator(
std::shared_ptr<Environment> env,
std::shared_ptr<CBattleCallback> cb,
const battle::Unit * activeStack,
PlayerColor playerID,
BattleID battleID,
BattleSide side,
float strengthRatio,
int simulationTurnsCount)
:scoreEvaluator(cb->getBattle(battleID), env, strengthRatio, simulationTurnsCount),
cachedAttack(), playerID(playerID), side(side), env(env),
cb(cb), strengthRatio(strengthRatio), battleID(battleID), simulationTurnsCount(simulationTurnsCount)
{
hb = std::make_shared<HypotheticBattle>(env.get(), cb->getBattle(battleID));
damageCache.buildDamageCache(hb, side);
targets = std::make_unique<PotentialTargets>(activeStack, damageCache, hb);
}
BattleEvaluator::BattleEvaluator(
std::shared_ptr<Environment> env,
std::shared_ptr<CBattleCallback> cb,
std::shared_ptr<HypotheticBattle> hb,
DamageCache & damageCache,
const battle::Unit * activeStack,
PlayerColor playerID,
BattleID battleID,
BattleSide side,
float strengthRatio,
int simulationTurnsCount)
:scoreEvaluator(cb->getBattle(battleID), env, strengthRatio, simulationTurnsCount),
cachedAttack(), playerID(playerID), side(side), env(env), cb(cb), hb(hb),
damageCache(damageCache), strengthRatio(strengthRatio), battleID(battleID), simulationTurnsCount(simulationTurnsCount)
{
targets = std::make_unique<PotentialTargets>(activeStack, damageCache, hb);
}
std::vector<BattleHex> BattleEvaluator::getBrokenWallMoatHexes() const
{
std::vector<BattleHex> result;
for(EWallPart wallPart : { EWallPart::BOTTOM_WALL, EWallPart::BELOW_GATE, EWallPart::OVER_GATE, EWallPart::UPPER_WALL })
{
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auto state = cb->getBattle(battleID)->battleGetWallState(wallPart);
if(state != EWallState::DESTROYED)
continue;
auto wallHex = cb->getBattle(battleID)->wallPartToBattleHex(wallPart);
auto moatHex = wallHex.cloneInDirection(BattleHex::LEFT);
result.push_back(moatHex);
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moatHex = moatHex.cloneInDirection(BattleHex::LEFT);
auto obstaclesSecondRow = cb->getBattle(battleID)->battleGetAllObstaclesOnPos(moatHex, false);
for(auto obstacle : obstaclesSecondRow)
{
if(obstacle->obstacleType == CObstacleInstance::EObstacleType::MOAT)
{
result.push_back(moatHex);
break;
}
}
}
return result;
}
bool BattleEvaluator::hasWorkingTowers() const
{
bool keepIntact = cb->getBattle(battleID)->battleGetWallState(EWallPart::KEEP) != EWallState::NONE && cb->getBattle(battleID)->battleGetWallState(EWallPart::KEEP) != EWallState::DESTROYED;
bool upperIntact = cb->getBattle(battleID)->battleGetWallState(EWallPart::UPPER_TOWER) != EWallState::NONE && cb->getBattle(battleID)->battleGetWallState(EWallPart::UPPER_TOWER) != EWallState::DESTROYED;
bool bottomIntact = cb->getBattle(battleID)->battleGetWallState(EWallPart::BOTTOM_TOWER) != EWallState::NONE && cb->getBattle(battleID)->battleGetWallState(EWallPart::BOTTOM_TOWER) != EWallState::DESTROYED;
return keepIntact || upperIntact || bottomIntact;
}
std::optional<PossibleSpellcast> BattleEvaluator::findBestCreatureSpell(const CStack *stack)
{
//TODO: faerie dragon type spell should be selected by server
SpellID creatureSpellToCast = cb->getBattle(battleID)->getRandomCastedSpell(CRandomGenerator::getDefault(), stack);
if(stack->canCast() && creatureSpellToCast != SpellID::NONE)
{
const CSpell * spell = creatureSpellToCast.toSpell();
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if(spell->canBeCast(cb->getBattle(battleID).get(), spells::Mode::CREATURE_ACTIVE, stack))
{
std::vector<PossibleSpellcast> possibleCasts;
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spells::BattleCast temp(cb->getBattle(battleID).get(), stack, spells::Mode::CREATURE_ACTIVE, spell);
for(auto & target : temp.findPotentialTargets())
{
PossibleSpellcast ps;
ps.dest = target;
ps.spell = spell;
evaluateCreatureSpellcast(stack, ps);
possibleCasts.push_back(ps);
}
std::sort(possibleCasts.begin(), possibleCasts.end(), [&](const PossibleSpellcast & lhs, const PossibleSpellcast & rhs) { return lhs.value > rhs.value; });
if(!possibleCasts.empty() && possibleCasts.front().value > 0)
{
return possibleCasts.front();
}
}
}
return std::nullopt;
}
BattleAction BattleEvaluator::selectStackAction(const CStack * stack)
{
#if BATTLE_TRACE_LEVEL >= 1
logAi->trace("Select stack action");
#endif
//evaluate casting spell for spellcasting stack
std::optional<PossibleSpellcast> bestSpellcast = findBestCreatureSpell(stack);
auto moveTarget = scoreEvaluator.findMoveTowardsUnreachable(stack, *targets, damageCache, hb);
float score = EvaluationResult::INEFFECTIVE_SCORE;
auto enemyMellee = hb->getUnitsIf([this](const battle::Unit* u) -> bool
{
return u->unitSide() == BattleSide::ATTACKER && !hb->battleCanShoot(u);
});
bool siegeDefense = stack->unitSide() == BattleSide::DEFENDER
&& !stack->canShoot()
&& hasWorkingTowers()
&& !enemyMellee.empty();
if(targets->possibleAttacks.empty() && bestSpellcast.has_value())
{
activeActionMade = true;
return BattleAction::makeCreatureSpellcast(stack, bestSpellcast->dest, bestSpellcast->spell->id);
}
if(!targets->possibleAttacks.empty())
{
#if BATTLE_TRACE_LEVEL>=1
logAi->trace("Evaluating attack for %s", stack->getDescription());
#endif
auto evaluationResult = scoreEvaluator.findBestTarget(stack, *targets, damageCache, hb, siegeDefense);
auto & bestAttack = evaluationResult.bestAttack;
cachedAttack.ap = bestAttack;
cachedAttack.score = evaluationResult.score;
cachedAttack.turn = 0;
cachedAttack.waited = evaluationResult.wait;
//TODO: consider more complex spellcast evaluation, f.e. because "re-retaliation" during enemy move in same turn for melee attack etc.
if(bestSpellcast.has_value() && bestSpellcast->value > bestAttack.damageDiff())
{
// return because spellcast value is damage dealt and score is dps reduce
activeActionMade = true;
return BattleAction::makeCreatureSpellcast(stack, bestSpellcast->dest, bestSpellcast->spell->id);
}
if(evaluationResult.score > score)
{
score = evaluationResult.score;
logAi->debug("BattleAI: %s -> %s x %d, from %d curpos %d dist %d speed %d: +%2f -%2f = %2f",
bestAttack.attackerState->unitType()->getJsonKey(),
bestAttack.affectedUnits[0]->unitType()->getJsonKey(),
bestAttack.affectedUnits[0]->getCount(),
(int)bestAttack.from,
(int)bestAttack.attack.attacker->getPosition().hex,
bestAttack.attack.chargeDistance,
bestAttack.attack.attacker->getMovementRange(0),
bestAttack.defenderDamageReduce,
bestAttack.attackerDamageReduce,
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score
);
if (moveTarget.score <= score)
{
if(evaluationResult.wait)
{
return BattleAction::makeWait(stack);
}
else if(bestAttack.attack.shooting)
{
activeActionMade = true;
return BattleAction::makeShotAttack(stack, bestAttack.attack.defender);
}
else
{
if(bestAttack.collateralDamageReduce
&& bestAttack.collateralDamageReduce >= bestAttack.defenderDamageReduce / 2
&& score < 0)
{
return BattleAction::makeDefend(stack);
}
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bool isTargetOutsideFort = !hb->battleIsInsideWalls(bestAttack.from);
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bool siegeDefense = stack->unitSide() == BattleSide::DEFENDER
&& !bestAttack.attack.shooting
&& hasWorkingTowers()
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&& !enemyMellee.empty()
&& isTargetOutsideFort;
if(siegeDefense)
{
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logAi->trace("Evaluating exchange at %d self-defense", stack->getPosition().hex);
BattleAttackInfo bai(stack, stack, 0, false);
AttackPossibility apDefend(stack->getPosition(), stack->getPosition(), bai);
float defenseValue = scoreEvaluator.evaluateExchange(apDefend, 0, *targets, damageCache, hb);
if((defenseValue > score && score <= 0) || (defenseValue > 2 * score && score > 0))
{
return BattleAction::makeDefend(stack);
}
}
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activeActionMade = true;
return BattleAction::makeMeleeAttack(stack, bestAttack.attack.defenderPos, bestAttack.from);
}
}
}
}
//ThreatMap threatsToUs(stack); // These lines may be useful but they are't used in the code.
if(moveTarget.score > score)
{
score = moveTarget.score;
cachedAttack.ap = moveTarget.cachedAttack;
cachedAttack.score = score;
cachedAttack.turn = moveTarget.turnsToRich;
if(stack->waited())
{
logAi->debug(
"Moving %s towards hex %s[%d], score: %2f",
stack->getDescription(),
moveTarget.cachedAttack->attack.defender->getDescription(),
moveTarget.cachedAttack->attack.defender->getPosition().hex,
moveTarget.score);
return goTowardsNearest(stack, moveTarget.positions, *targets);
}
else
{
cachedAttack.waited = true;
return BattleAction::makeWait(stack);
}
}
if(score <= EvaluationResult::INEFFECTIVE_SCORE
&& !stack->hasBonusOfType(BonusType::FLYING)
&& stack->unitSide() == BattleSide::ATTACKER
&& cb->getBattle(battleID)->battleGetFortifications().hasMoat)
{
auto brokenWallMoat = getBrokenWallMoatHexes();
if(brokenWallMoat.size())
{
activeActionMade = true;
if(stack->doubleWide() && vstd::contains(brokenWallMoat, stack->getPosition()))
return BattleAction::makeMove(stack, stack->getPosition().cloneInDirection(BattleHex::RIGHT));
else
return goTowardsNearest(stack, brokenWallMoat, *targets);
}
}
return stack->waited() ? BattleAction::makeDefend(stack) : BattleAction::makeWait(stack);
}
uint64_t timeElapsed(std::chrono::time_point<std::chrono::high_resolution_clock> start)
{
auto end = std::chrono::high_resolution_clock::now();
return std::chrono::duration_cast<std::chrono::milliseconds>(end - start).count();
}
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BattleAction BattleEvaluator::moveOrAttack(const CStack * stack, BattleHex hex, const PotentialTargets & targets)
{
auto additionalScore = 0;
std::optional<AttackPossibility> attackOnTheWay;
for(auto & target : targets.possibleAttacks)
{
if(!target.attack.shooting && target.from == hex && target.attackValue() > additionalScore)
{
additionalScore = target.attackValue();
attackOnTheWay = target;
}
}
if(attackOnTheWay)
{
activeActionMade = true;
return BattleAction::makeMeleeAttack(stack, attackOnTheWay->attack.defender->getPosition(), attackOnTheWay->from);
}
else
{
if(stack->position == hex)
return BattleAction::makeDefend(stack);
else
return BattleAction::makeMove(stack, hex);
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}
}
BattleAction BattleEvaluator::goTowardsNearest(const CStack * stack, std::vector<BattleHex> hexes, const PotentialTargets & targets)
{
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auto reachability = cb->getBattle(battleID)->getReachability(stack);
auto avHexes = cb->getBattle(battleID)->battleGetAvailableHexes(reachability, stack, false);
auto enemyMellee = hb->getUnitsIf([this](const battle::Unit* u) -> bool
{
return u->unitSide() == BattleSide::ATTACKER && !hb->battleCanShoot(u);
});
bool siegeDefense = stack->unitSide() == BattleSide::DEFENDER
&& hasWorkingTowers()
&& !enemyMellee.empty();
if (siegeDefense)
{
vstd::erase_if(avHexes, [&](const BattleHex& hex) {
return !cb->getBattle(battleID)->battleIsInsideWalls(hex);
});
}
if(!avHexes.size() || !hexes.size()) //we are blocked or dest is blocked
{
return BattleAction::makeDefend(stack);
}
std::vector<BattleHex> targetHexes = hexes;
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vstd::erase_if(targetHexes, [](const BattleHex & hex) { return !hex.isValid(); });
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std::sort(targetHexes.begin(), targetHexes.end(), [&](BattleHex h1, BattleHex h2) -> bool
{
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return reachability.distances[h1] < reachability.distances[h2];
});
BattleHex bestNeighbor = targetHexes.front();
if(reachability.distances[bestNeighbor] > GameConstants::BFIELD_SIZE)
{
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logAi->trace("No richable hexes.");
return BattleAction::makeDefend(stack);
}
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// this turn
for(auto hex : targetHexes)
{
if(vstd::contains(avHexes, hex))
{
return moveOrAttack(stack, hex, targets);
}
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if(stack->coversPos(hex))
{
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logAi->warn("Warning: already standing on neighbouring hex!");
//We shouldn't even be here...
return BattleAction::makeDefend(stack);
}
}
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// not this turn
scoreEvaluator.updateReachabilityMap(hb);
if(stack->hasBonusOfType(BonusType::FLYING))
{
std::set<BattleHex> obstacleHexes;
auto insertAffected = [](const CObstacleInstance & spellObst, std::set<BattleHex> & obstacleHexes) {
auto affectedHexes = spellObst.getAffectedTiles();
obstacleHexes.insert(affectedHexes.cbegin(), affectedHexes.cend());
};
const auto & obstacles = hb->battleGetAllObstacles();
for (const auto & obst: obstacles) {
if(obst->triggersEffects())
{
auto triggerAbility = VLC->spells()->getById(obst->getTrigger());
auto triggerIsNegative = triggerAbility->isNegative() || triggerAbility->isDamage();
if(triggerIsNegative)
insertAffected(*obst, obstacleHexes);
}
}
// Flying stack doesn't go hex by hex, so we can't backtrack using predecessors.
// We just check all available hexes and pick the one closest to the target.
auto nearestAvailableHex = vstd::minElementByFun(avHexes, [&](BattleHex hex) -> int
{
const int NEGATIVE_OBSTACLE_PENALTY = 100; // avoid landing on negative obstacle (moat, fire wall, etc)
const int BLOCKED_STACK_PENALTY = 100; // avoid landing on moat
auto distance = BattleHex::getDistance(bestNeighbor, hex);
if(vstd::contains(obstacleHexes, hex))
distance += NEGATIVE_OBSTACLE_PENALTY;
return scoreEvaluator.checkPositionBlocksOurStacks(*hb, stack, hex) ? BLOCKED_STACK_PENALTY + distance : distance;
});
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return moveOrAttack(stack, *nearestAvailableHex, targets);
}
else
{
BattleHex currentDest = bestNeighbor;
while(true)
{
if(!currentDest.isValid())
{
return BattleAction::makeDefend(stack);
}
if(vstd::contains(avHexes, currentDest)
&& !scoreEvaluator.checkPositionBlocksOurStacks(*hb, stack, currentDest))
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{
return moveOrAttack(stack, currentDest, targets);
}
currentDest = reachability.predecessors[currentDest];
}
}
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logAi->error("We should either detect that hexes are unreachable or make a move!");
return BattleAction::makeDefend(stack);
}
bool BattleEvaluator::canCastSpell()
{
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auto hero = cb->getBattle(battleID)->battleGetMyHero();
if(!hero)
return false;
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return cb->getBattle(battleID)->battleCanCastSpell(hero, spells::Mode::HERO) == ESpellCastProblem::OK;
}
bool BattleEvaluator::attemptCastingSpell(const CStack * activeStack)
{
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auto hero = cb->getBattle(battleID)->battleGetMyHero();
if(!hero)
return false;
LOGL("Casting spells sounds like fun. Let's see...");
//Get all spells we can cast
std::vector<const CSpell*> possibleSpells;
for (auto const & s : VLC->spellh->objects)
if (s->canBeCast(cb->getBattle(battleID).get(), spells::Mode::HERO, hero))
possibleSpells.push_back(s.get());
LOGFL("I can cast %d spells.", possibleSpells.size());
vstd::erase_if(possibleSpells, [](const CSpell *s)
{
return spellType(s) != SpellTypes::BATTLE;
});
LOGFL("I know how %d of them works.", possibleSpells.size());
//Get possible spell-target pairs
std::vector<PossibleSpellcast> possibleCasts;
for(auto spell : possibleSpells)
{
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spells::BattleCast temp(cb->getBattle(battleID).get(), hero, spells::Mode::HERO, spell);
const bool FAST = true;
for(auto & target : temp.findPotentialTargets(FAST))
{
PossibleSpellcast ps;
ps.dest = target;
ps.spell = spell;
possibleCasts.push_back(ps);
}
}
LOGFL("Found %d spell-target combinations.", possibleCasts.size());
if(possibleCasts.empty())
return false;
using ValueMap = PossibleSpellcast::ValueMap;
auto evaluateQueue = [&](ValueMap & values, const std::vector<battle::Units> & queue, std::shared_ptr<HypotheticBattle> state, size_t minTurnSpan, bool * enemyHadTurnOut) -> bool
{
bool firstRound = true;
bool enemyHadTurn = false;
size_t ourTurnSpan = 0;
bool stop = false;
for(auto & round : queue)
{
if(!firstRound)
state->nextRound();
for(auto unit : round)
{
if(!vstd::contains(values, unit->unitId()))
values[unit->unitId()] = 0;
if(!unit->alive())
continue;
if(state->battleGetOwner(unit) != playerID)
{
enemyHadTurn = true;
if(!firstRound || state->battleCastSpells(unit->unitSide()) == 0)
{
//enemy could counter our spell at this point
//anyway, we do not know what enemy will do
//just stop evaluation
stop = true;
break;
}
}
else if(!enemyHadTurn)
{
ourTurnSpan++;
}
state->nextTurn(unit->unitId());
PotentialTargets potentialTargets(unit, damageCache, state);
if(!potentialTargets.possibleAttacks.empty())
{
AttackPossibility attackPossibility = potentialTargets.bestAction();
auto stackWithBonuses = state->getForUpdate(unit->unitId());
*stackWithBonuses = *attackPossibility.attackerState;
if(attackPossibility.defenderDamageReduce > 0)
{
stackWithBonuses->removeUnitBonus(Bonus::UntilAttack);
stackWithBonuses->removeUnitBonus(Bonus::UntilOwnAttack);
}
if(attackPossibility.attackerDamageReduce > 0)
stackWithBonuses->removeUnitBonus(Bonus::UntilBeingAttacked);
for(auto affected : attackPossibility.affectedUnits)
{
stackWithBonuses = state->getForUpdate(affected->unitId());
*stackWithBonuses = *affected;
if(attackPossibility.defenderDamageReduce > 0)
stackWithBonuses->removeUnitBonus(Bonus::UntilBeingAttacked);
if(attackPossibility.attackerDamageReduce > 0 && attackPossibility.attack.defender->unitId() == affected->unitId())
stackWithBonuses->removeUnitBonus(Bonus::UntilAttack);
}
}
auto bav = potentialTargets.bestActionValue();
//best action is from effective owner`s point if view, we need to convert to our point if view
if(state->battleGetOwner(unit) != playerID)
bav = -bav;
values[unit->unitId()] += bav;
}
firstRound = false;
if(stop)
break;
}
if(enemyHadTurnOut)
*enemyHadTurnOut = enemyHadTurn;
return ourTurnSpan >= minTurnSpan;
};
ValueMap valueOfStack;
ValueMap healthOfStack;
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TStacks all = cb->getBattle(battleID)->battleGetAllStacks(false);
size_t ourRemainingTurns = 0;
for(auto unit : all)
{
healthOfStack[unit->unitId()] = unit->getAvailableHealth();
valueOfStack[unit->unitId()] = 0;
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if(cb->getBattle(battleID)->battleGetOwner(unit) == playerID && unit->canMove() && !unit->moved())
ourRemainingTurns++;
}
LOGFL("I have %d turns left in this round", ourRemainingTurns);
const bool castNow = ourRemainingTurns <= 1;
if(castNow)
print("I should try to cast a spell now");
else
print("I could wait better moment to cast a spell");
auto amount = all.size();
std::vector<battle::Units> turnOrder;
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cb->getBattle(battleID)->battleGetTurnOrder(turnOrder, amount, 2); //no more than 1 turn after current, each unit at least once
{
bool enemyHadTurn = false;
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auto state = std::make_shared<HypotheticBattle>(env.get(), cb->getBattle(battleID));
evaluateQueue(valueOfStack, turnOrder, state, 0, &enemyHadTurn);
if(!enemyHadTurn)
{
auto battleIsFinishedOpt = state->battleIsFinished();
if(battleIsFinishedOpt)
{
print("No need to cast a spell. Battle will finish soon.");
return false;
}
}
}
CStopWatch timer;
#if BATTLE_TRACE_LEVEL >= 1
tbb::blocked_range<size_t> r(0, possibleCasts.size());
#else
tbb::parallel_for(tbb::blocked_range<size_t>(0, possibleCasts.size()), [&](const tbb::blocked_range<size_t> & r)
{
#endif
for(auto i = r.begin(); i != r.end(); i++)
{
auto & ps = possibleCasts[i];
#if BATTLE_TRACE_LEVEL >= 1
if(ps.dest.empty())
logAi->trace("Evaluating %s", ps.spell->getNameTranslated());
else
{
auto psFirst = ps.dest.front();
auto strWhere = psFirst.unitValue ? psFirst.unitValue->getDescription() : std::to_string(psFirst.hexValue.hex);
logAi->trace("Evaluating %s at %s", ps.spell->getNameTranslated(), strWhere);
}
#endif
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auto state = std::make_shared<HypotheticBattle>(env.get(), cb->getBattle(battleID));
spells::BattleCast cast(state.get(), hero, spells::Mode::HERO, ps.spell);
cast.castEval(state->getServerCallback(), ps.dest);
auto allUnits = state->battleGetUnitsIf([](const battle::Unit * u) -> bool { return u->isValidTarget(); });
auto needFullEval = vstd::contains_if(allUnits, [&](const battle::Unit * u) -> bool
{
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auto original = cb->getBattle(battleID)->battleGetUnitByID(u->unitId());
return !original || u->getMovementRange() != original->getMovementRange();
});
DamageCache safeCopy = damageCache;
DamageCache innerCache(&safeCopy);
innerCache.buildDamageCache(state, side);
if(cachedAttack.ap && cachedAttack.waited)
{
state->makeWait(activeStack);
}
if(needFullEval || !cachedAttack.ap)
{
#if BATTLE_TRACE_LEVEL >= 1
logAi->trace("Full evaluation is started due to stack speed affected.");
#endif
PotentialTargets innerTargets(activeStack, innerCache, state);
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BattleExchangeEvaluator innerEvaluator(state, env, strengthRatio, simulationTurnsCount);
innerEvaluator.updateReachabilityMap(state);
auto moveTarget = innerEvaluator.findMoveTowardsUnreachable(activeStack, innerTargets, innerCache, state);
if(!innerTargets.possibleAttacks.empty())
{
auto newStackAction = innerEvaluator.findBestTarget(activeStack, innerTargets, innerCache, state);
ps.value = std::max(moveTarget.score, newStackAction.score);
}
else
{
ps.value = moveTarget.score;
}
}
else
{
auto updatedAttacker = state->getForUpdate(cachedAttack.ap->attack.attacker->unitId());
auto updatedDefender = state->getForUpdate(cachedAttack.ap->attack.defender->unitId());
auto updatedBai = BattleAttackInfo(
updatedAttacker.get(),
updatedDefender.get(),
cachedAttack.ap->attack.chargeDistance,
cachedAttack.ap->attack.shooting);
auto updatedAttack = AttackPossibility::evaluate(updatedBai, cachedAttack.ap->from, innerCache, state);
ps.value = scoreEvaluator.evaluateExchange(updatedAttack, cachedAttack.turn, *targets, innerCache, state);
}
for(const auto & unit : allUnits)
{
if(!unit->isValidTarget(true))
continue;
auto newHealth = unit->getAvailableHealth();
auto oldHealth = vstd::find_or(healthOfStack, unit->unitId(), 0); // old health value may not exist for newly summoned units
if(oldHealth != newHealth)
{
auto damage = std::abs(oldHealth - newHealth);
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auto originalDefender = cb->getBattle(battleID)->battleGetUnitByID(unit->unitId());
auto dpsReduce = AttackPossibility::calculateDamageReduce(
nullptr,
originalDefender && originalDefender->alive() ? originalDefender : unit,
damage,
innerCache,
state);
auto ourUnit = unit->unitSide() == side ? 1 : -1;
auto goodEffect = newHealth > oldHealth ? 1 : -1;
if(ourUnit * goodEffect == 1)
{
auto isMagical = state->getForUpdate(unit->unitId())->summoned
|| unit->isClone()
|| unit->isGhost();
if(ourUnit && goodEffect && isMagical)
continue;
ps.value += dpsReduce * scoreEvaluator.getPositiveEffectMultiplier();
}
else
// discourage AI making collateral damage with spells
ps.value -= 4 * dpsReduce * scoreEvaluator.getNegativeEffectMultiplier();
#if BATTLE_TRACE_LEVEL >= 1
// Ensure ps.dest is not empty before accessing the first element
if (!ps.dest.empty())
{
logAi->trace(
"Spell %s to %d affects %s (%d), dps: %2f oldHealth: %d newHealth: %d",
ps.spell->getNameTranslated(),
ps.dest.at(0).hexValue.hex, // Safe to access .at(0) now
unit->creatureId().toCreature()->getNameSingularTranslated(),
unit->getCount(),
dpsReduce,
oldHealth,
newHealth);
}
else
{
// Handle the case where ps.dest is empty
logAi->trace(
"Spell %s has no destination, affects %s (%d), dps: %2f oldHealth: %d newHealth: %d",
ps.spell->getNameTranslated(),
unit->creatureId().toCreature()->getNameSingularTranslated(),
unit->getCount(),
dpsReduce,
oldHealth,
newHealth);
}
#endif
}
}
#if BATTLE_TRACE_LEVEL >= 1
logAi->trace("Total score: %2f", ps.value);
#endif
}
#if BATTLE_TRACE_LEVEL == 0
});
#endif
LOGFL("Evaluation took %d ms", timer.getDiff());
auto castToPerform = *vstd::maxElementByFun(possibleCasts, [](const PossibleSpellcast & ps) -> float
{
return ps.value;
});
if(castToPerform.value > cachedAttack.score && !vstd::isAlmostEqual(castToPerform.value, cachedAttack.score))
{
LOGFL("Best spell is %s (value %d). Will cast.", castToPerform.spell->getNameTranslated() % castToPerform.value);
BattleAction spellcast;
spellcast.actionType = EActionType::HERO_SPELL;
spellcast.spell = castToPerform.spell->id;
spellcast.setTarget(castToPerform.dest);
spellcast.side = side;
spellcast.stackNumber = -1;
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cb->battleMakeSpellAction(battleID, spellcast);
activeActionMade = true;
return true;
}
LOGFL("Best spell is %s. But it is actually useless (value %d).", castToPerform.spell->getNameTranslated() % castToPerform.value);
return false;
}
//Below method works only for offensive spells
void BattleEvaluator::evaluateCreatureSpellcast(const CStack * stack, PossibleSpellcast & ps)
{
using ValueMap = PossibleSpellcast::ValueMap;
RNGStub rngStub;
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HypotheticBattle state(env.get(), cb->getBattle(battleID));
TStacks all = cb->getBattle(battleID)->battleGetAllStacks(false);
ValueMap healthOfStack;
ValueMap newHealthOfStack;
for(auto unit : all)
{
healthOfStack[unit->unitId()] = unit->getAvailableHealth();
}
spells::BattleCast cast(&state, stack, spells::Mode::CREATURE_ACTIVE, ps.spell);
cast.castEval(state.getServerCallback(), ps.dest);
for(auto unit : all)
{
auto unitId = unit->unitId();
auto localUnit = state.battleGetUnitByID(unitId);
newHealthOfStack[unitId] = localUnit->getAvailableHealth();
}
int64_t totalGain = 0;
for(auto unit : all)
{
auto unitId = unit->unitId();
auto localUnit = state.battleGetUnitByID(unitId);
auto healthDiff = newHealthOfStack[unitId] - healthOfStack[unitId];
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if(localUnit->unitOwner() != cb->getBattle(battleID)->getPlayerID())
healthDiff = -healthDiff;
if(healthDiff < 0)
{
ps.value = -1;
return; //do not damage own units at all
}
totalGain += healthDiff;
}
ps.value = totalGain;
}
void BattleEvaluator::print(const std::string & text) const
{
logAi->trace("%s Battle AI[%p]: %s", playerID.toString(), this, text);
}