vcmi/AI/BattleAI/AttackPossibility.cpp

/*
 * AttackPossibility.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 "AttackPossibility.h"
#include "../../lib/CStack.h"//todo: remove

AttackPossibility::AttackPossibility(BattleHex from, BattleHex dest, const BattleAttackInfo & attack)
	: from(from), dest(dest), attack(attack)
{
}

int64_t AttackPossibility::damageDiff() const
{
	return damageDealt - damageReceived - collateralDamage + shootersBlockedDmg;
}

int64_t AttackPossibility::attackValue() const
{
	return damageDiff();
}

int64_t AttackPossibility::evaluateBlockedShootersDmg(const BattleAttackInfo & attackInfo, BattleHex hex, const HypotheticBattle * state)
{
	int64_t res = 0;

	if(attackInfo.shooting)
		return 0;

	auto attacker = attackInfo.attacker;
	auto hexes = attacker->getSurroundingHexes(hex);
	for(BattleHex tile : hexes)
	{
		auto st = state->battleGetUnitByPos(tile, true);
		if(!st || !state->battleMatchOwner(st, attacker))
			continue;
		if(!state->battleCanShoot(st))
			continue;

		BattleAttackInfo rangeAttackInfo(st, attacker, true);
		rangeAttackInfo.defenderPos = hex;

		BattleAttackInfo meleeAttackInfo(st, attacker, false);
		meleeAttackInfo.defenderPos = hex;

		auto rangeDmg = getCbc()->battleEstimateDamage(rangeAttackInfo);
		auto meleeDmg = getCbc()->battleEstimateDamage(meleeAttackInfo);

		int64_t gain = (rangeDmg.first + rangeDmg.second - meleeDmg.first - meleeDmg.second) / 2 + 1;
		res += gain;
	}

	return res;
}

AttackPossibility AttackPossibility::evaluate(const BattleAttackInfo & attackInfo, BattleHex hex, const HypotheticBattle * state)
{
	auto attacker = attackInfo.attacker;
	auto defender = attackInfo.defender;
	const std::string cachingStringBlocksRetaliation = "type_BLOCKS_RETALIATION";
	static const auto selectorBlocksRetaliation = Selector::type(Bonus::BLOCKS_RETALIATION);
	const bool counterAttacksBlocked = attacker->hasBonus(selectorBlocksRetaliation, cachingStringBlocksRetaliation);
	const bool mindControlled = [&](const battle::Unit *attacker) -> bool
	{
		auto actualSide = getCbc()->playerToSide(getCbc()->battleGetOwner(attacker));
		if (actualSide && actualSide.get() != attacker->unitSide())
			return true;
		return false;
	} (attacker);

	AttackPossibility bestAp(hex, BattleHex::INVALID, attackInfo);

	std::vector<BattleHex> defenderHex;
	if(attackInfo.shooting)
		defenderHex = defender->getHexes();
	else
		defenderHex = CStack::meleeAttackHexes(attacker, defender, hex);

	for(BattleHex defHex : defenderHex)
	{
		if(defHex == hex) {
			// should be impossible but check anyway
			continue;
		}

		AttackPossibility ap(hex, defHex, attackInfo);
		ap.attackerState = attacker->acquireState();
		ap.shootersBlockedDmg = bestAp.shootersBlockedDmg;

		const int totalAttacks = ap.attackerState->getTotalAttacks(attackInfo.shooting);

		if (!attackInfo.shooting)
			ap.attackerState->setPosition(hex);

		std::vector<const battle::Unit*> units;

		if (attackInfo.shooting)
			units = state->getAttackedBattleUnits(attacker, defHex, true, BattleHex::INVALID);
		else
			units = state->getAttackedBattleUnits(attacker, defHex, false, hex);

		// ensure the defender is also affected
		bool addDefender = true;
		for(auto unit : units) {
			if (unit->unitId() == defender->unitId()) {
				addDefender = false;
				break;
			}
		}
		if(addDefender) {
			units.push_back(defender);
		}

		for(auto u : units) {
			if(!ap.attackerState->alive()) {
				break;
			}

			assert(u->unitId() != attacker->unitId());

			auto defenderState = u->acquireState();
			ap.affectedUnits.push_back(defenderState);

			for(int i = 0; i < totalAttacks; i++) {
				si64 damageDealt, damageReceived;

				TDmgRange retaliation(0, 0);
				auto attackDmg = getCbc()->battleEstimateDamage(ap.attack, &retaliation);

				vstd::amin(attackDmg.first, defenderState->getAvailableHealth());
				vstd::amin(attackDmg.second, defenderState->getAvailableHealth());

				vstd::amin(retaliation.first, ap.attackerState->getAvailableHealth());
				vstd::amin(retaliation.second, ap.attackerState->getAvailableHealth());

				damageDealt = (attackDmg.first + attackDmg.second) / 2;
				ap.attackerState->afterAttack(attackInfo.shooting, false);

				//FIXME: use ranged retaliation
				damageReceived = 0;
				if (!attackInfo.shooting && defenderState->ableToRetaliate() && !counterAttacksBlocked)
				{
					damageReceived = (retaliation.first + retaliation.second) / 2;
					defenderState->afterAttack(attackInfo.shooting, true);
				}

				bool isEnemy = state->battleMatchOwner(attacker, u) && !mindControlled;
				if(isEnemy)
					ap.damageDealt += damageDealt;
				else // friendly fire
					ap.collateralDamage += damageDealt;

				if(u->unitId() == defender->unitId() || 
					(!attackInfo.shooting && CStack::isMeleeAttackPossible(u, attacker, hex)))
				{
					//FIXME: handle RANGED_RETALIATION ?
					ap.damageReceived += damageReceived;
				}

				ap.attackerState->damage(damageReceived);
				defenderState->damage(damageDealt);

				if (!ap.attackerState->alive() || !defenderState->alive())
					break;
			}
		}

		if(!bestAp.dest.isValid() || ap.attackValue() > bestAp.attackValue()) {
			bestAp = ap;
		}
	}

	// check how much damage we gain from blocking enemy shooters on this hex
	bestAp.shootersBlockedDmg = evaluateBlockedShootersDmg(attackInfo, hex, state);

	logAi->debug("BattleAI best AP: %s -> %s at %d from %d, affects %d units: %d %d %d %s",
		VLC->creh->creatures.at(attackInfo.attacker->acquireState()->creatureId())->identifier.c_str(),
		VLC->creh->creatures.at(attackInfo.defender->acquireState()->creatureId())->identifier.c_str(),
		(int)bestAp.dest, (int)bestAp.from, (int)bestAp.affectedUnits.size(),
		(int)bestAp.damageDealt, (int)bestAp.damageReceived, (int)bestAp.collateralDamage, (int)bestAp.shootersBlockedDmg);

	//TODO other damage related to attack (eg. fire shield and other abilities)
	return bestAp;
}
Formatting 2020-05-09 12:51:00 +02:00			`/*`
			`* AttackPossibility.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 "AttackPossibility.h"`
			`#include "../../lib/CStack.h"//todo: remove`

			`AttackPossibility::AttackPossibility(BattleHex from, BattleHex dest, const BattleAttackInfo & attack)`
			`: from(from), dest(dest), attack(attack)`
			`{`
			`}`

			`int64_t AttackPossibility::damageDiff() const`
			`{`
			`return damageDealt - damageReceived - collateralDamage + shootersBlockedDmg;`
			`}`

			`int64_t AttackPossibility::attackValue() const`
			`{`
			`return damageDiff();`
			`}`

			`int64_t AttackPossibility::evaluateBlockedShootersDmg(const BattleAttackInfo & attackInfo, BattleHex hex, const HypotheticBattle * state)`
			`{`
			`int64_t res = 0;`

			`if(attackInfo.shooting)`
			`return 0;`

			`auto attacker = attackInfo.attacker;`
			`auto hexes = attacker->getSurroundingHexes(hex);`
			`for(BattleHex tile : hexes)`
			`{`
			`auto st = state->battleGetUnitByPos(tile, true);`
			`if(!st \|\| !state->battleMatchOwner(st, attacker))`
			`continue;`
			`if(!state->battleCanShoot(st))`
			`continue;`

			`BattleAttackInfo rangeAttackInfo(st, attacker, true);`
			`rangeAttackInfo.defenderPos = hex;`

			`BattleAttackInfo meleeAttackInfo(st, attacker, false);`
			`meleeAttackInfo.defenderPos = hex;`

			`auto rangeDmg = getCbc()->battleEstimateDamage(rangeAttackInfo);`
			`auto meleeDmg = getCbc()->battleEstimateDamage(meleeAttackInfo);`

			`int64_t gain = (rangeDmg.first + rangeDmg.second - meleeDmg.first - meleeDmg.second) / 2 + 1;`
			`res += gain;`
			`}`

			`return res;`
			`}`

			`AttackPossibility AttackPossibility::evaluate(const BattleAttackInfo & attackInfo, BattleHex hex, const HypotheticBattle * state)`
			`{`
			`auto attacker = attackInfo.attacker;`
			`auto defender = attackInfo.defender;`
			`const std::string cachingStringBlocksRetaliation = "type_BLOCKS_RETALIATION";`
			`static const auto selectorBlocksRetaliation = Selector::type(Bonus::BLOCKS_RETALIATION);`
			`const bool counterAttacksBlocked = attacker->hasBonus(selectorBlocksRetaliation, cachingStringBlocksRetaliation);`
Some changes to make the battle AI smarter - the AI will now consider attacking multiple units - the preferred strategy now is to minimize collateral damage rather than to maximize damage to enemy units alone - attacks that block enemy shooters will be prioritized over other attacks in cases when shooters have weaker melee attacks 2019-06-28 20:05:25 +02:00			`const bool mindControlled = [&](const battle::Unit *attacker) -> bool`
Refactoring Battle AI. Divide BattleAI on the smaller files. 2016-10-28 16:16:46 +02:00			`{`
Formatting 2020-05-09 12:51:00 +02:00			`auto actualSide = getCbc()->playerToSide(getCbc()->battleGetOwner(attacker));`
			`if (actualSide && actualSide.get() != attacker->unitSide())`
Some changes to make the battle AI smarter - the AI will now consider attacking multiple units - the preferred strategy now is to minimize collateral damage rather than to maximize damage to enemy units alone - attacks that block enemy shooters will be prioritized over other attacks in cases when shooters have weaker melee attacks 2019-06-28 20:05:25 +02:00			`return true;`
			`return false;`
			`} (attacker);`
Formatting 2020-05-09 12:51:00 +02:00
			`AttackPossibility bestAp(hex, BattleHex::INVALID, attackInfo);`

			`std::vector<BattleHex> defenderHex;`
			`if(attackInfo.shooting)`
			`defenderHex = defender->getHexes();`
			`else`
			`defenderHex = CStack::meleeAttackHexes(attacker, defender, hex);`

			`for(BattleHex defHex : defenderHex)`
			`{`
			`if(defHex == hex) {`
			`// should be impossible but check anyway`
			`continue;`
			`}`

			`AttackPossibility ap(hex, defHex, attackInfo);`
			`ap.attackerState = attacker->acquireState();`
			`ap.shootersBlockedDmg = bestAp.shootersBlockedDmg;`

			`const int totalAttacks = ap.attackerState->getTotalAttacks(attackInfo.shooting);`

			`if (!attackInfo.shooting)`
			`ap.attackerState->setPosition(hex);`

			`std::vector<const battle::Unit*> units;`

			`if (attackInfo.shooting)`
			`units = state->getAttackedBattleUnits(attacker, defHex, true, BattleHex::INVALID);`
			`else`
			`units = state->getAttackedBattleUnits(attacker, defHex, false, hex);`

			`// ensure the defender is also affected`
			`bool addDefender = true;`
			`for(auto unit : units) {`
			`if (unit->unitId() == defender->unitId()) {`
			`addDefender = false;`
			`break;`
			`}`
			`}`
			`if(addDefender) {`
			`units.push_back(defender);`
			`}`

			`for(auto u : units) {`
			`if(!ap.attackerState->alive()) {`
			`break;`
			`}`

			`assert(u->unitId() != attacker->unitId());`

			`auto defenderState = u->acquireState();`
			`ap.affectedUnits.push_back(defenderState);`

			`for(int i = 0; i < totalAttacks; i++) {`
			`si64 damageDealt, damageReceived;`

			`TDmgRange retaliation(0, 0);`
			`auto attackDmg = getCbc()->battleEstimateDamage(ap.attack, &retaliation);`

			`vstd::amin(attackDmg.first, defenderState->getAvailableHealth());`
			`vstd::amin(attackDmg.second, defenderState->getAvailableHealth());`

			`vstd::amin(retaliation.first, ap.attackerState->getAvailableHealth());`
			`vstd::amin(retaliation.second, ap.attackerState->getAvailableHealth());`

			`damageDealt = (attackDmg.first + attackDmg.second) / 2;`
			`ap.attackerState->afterAttack(attackInfo.shooting, false);`

			`//FIXME: use ranged retaliation`
			`damageReceived = 0;`
			`if (!attackInfo.shooting && defenderState->ableToRetaliate() && !counterAttacksBlocked)`
			`{`
			`damageReceived = (retaliation.first + retaliation.second) / 2;`
			`defenderState->afterAttack(attackInfo.shooting, true);`
			`}`

			`bool isEnemy = state->battleMatchOwner(attacker, u) && !mindControlled;`
			`if(isEnemy)`
			`ap.damageDealt += damageDealt;`
			`else // friendly fire`
			`ap.collateralDamage += damageDealt;`

			`if(u->unitId() == defender->unitId() \|\|`
			`(!attackInfo.shooting && CStack::isMeleeAttackPossible(u, attacker, hex)))`
			`{`
			`//FIXME: handle RANGED_RETALIATION ?`
			`ap.damageReceived += damageReceived;`
			`}`

			`ap.attackerState->damage(damageReceived);`
			`defenderState->damage(damageDealt);`

			`if (!ap.attackerState->alive() \|\| !defenderState->alive())`
			`break;`
			`}`
			`}`

			`if(!bestAp.dest.isValid() \|\| ap.attackValue() > bestAp.attackValue()) {`
			`bestAp = ap;`
			`}`
			`}`

			`// check how much damage we gain from blocking enemy shooters on this hex`
			`bestAp.shootersBlockedDmg = evaluateBlockedShootersDmg(attackInfo, hex, state);`

			`logAi->debug("BattleAI best AP: %s -> %s at %d from %d, affects %d units: %d %d %d %s",`
			`VLC->creh->creatures.at(attackInfo.attacker->acquireState()->creatureId())->identifier.c_str(),`
			`VLC->creh->creatures.at(attackInfo.defender->acquireState()->creatureId())->identifier.c_str(),`
			`(int)bestAp.dest, (int)bestAp.from, (int)bestAp.affectedUnits.size(),`
			`(int)bestAp.damageDealt, (int)bestAp.damageReceived, (int)bestAp.collateralDamage, (int)bestAp.shootersBlockedDmg);`

			`//TODO other damage related to attack (eg. fire shield and other abilities)`
			`return bestAp;`
			`}`