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vcmi/server/HeroPoolProcessor.cpp
2023-08-01 18:51:33 +02:00

399 lines
12 KiB
C++

/*
* HeroPoolProcessor.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 "HeroPoolProcessor.h"
#include "CGameHandler.h"
#include "../lib/CHeroHandler.h"
#include "../lib/CPlayerState.h"
#include "../lib/GameSettings.h"
#include "../lib/NetPacks.h"
#include "../lib/StartInfo.h"
#include "../lib/mapObjects/CGTownInstance.h"
#include "../lib/gameState/CGameState.h"
#include "../lib/gameState/TavernHeroesPool.h"
#include "../lib/gameState/TavernSlot.h"
HeroPoolProcessor::HeroPoolProcessor()
: gameHandler(nullptr)
{
}
HeroPoolProcessor::HeroPoolProcessor(CGameHandler * gameHandler)
: gameHandler(gameHandler)
{
}
bool HeroPoolProcessor::playerEndedTurn(const PlayerColor & player)
{
// our player is acting right now and have not ended turn
if (player == gameHandler->gameState()->currentPlayer)
return false;
auto turnOrder = gameHandler->generatePlayerTurnOrder();
for (auto const & entry : turnOrder)
{
// our player is yet to start turn
if (entry == gameHandler->gameState()->currentPlayer)
return false;
// our player have finished turn
if (entry == player)
return true;
}
assert(false);
return false;
}
TavernHeroSlot HeroPoolProcessor::selectSlotForRole(const PlayerColor & player, TavernSlotRole roleID)
{
const auto & heroesPool = gameHandler->gameState()->heroesPool;
const auto & heroes = heroesPool->getHeroesFor(player);
// if tavern has empty slot - use it
if (heroes.size() == 0)
return TavernHeroSlot::NATIVE;
if (heroes.size() == 1)
return TavernHeroSlot::RANDOM;
// try to find "better" slot to overwrite
// we want to avoid overwriting retreated heroes when tavern still has slot with random hero
// as well as avoid overwriting surrendered heroes if we can overwrite retreated hero
auto roleLeft = heroesPool->getSlotRole(HeroTypeID(heroes[0]->subID));
auto roleRight = heroesPool->getSlotRole(HeroTypeID(heroes[1]->subID));
if (roleLeft > roleRight)
return TavernHeroSlot::RANDOM;
if (roleLeft < roleRight)
return TavernHeroSlot::NATIVE;
// both slots are equal in "value", so select randomly
if (getRandomGenerator(player).nextInt(100) > 50)
return TavernHeroSlot::RANDOM;
else
return TavernHeroSlot::NATIVE;
}
void HeroPoolProcessor::onHeroSurrendered(const PlayerColor & color, const CGHeroInstance * hero)
{
SetAvailableHero sah;
if (playerEndedTurn(color))
sah.roleID = TavernSlotRole::SURRENDERED_TODAY;
else
sah.roleID = TavernSlotRole::SURRENDERED;
sah.slotID = selectSlotForRole(color, sah.roleID);
sah.player = color;
sah.hid = hero->subID;
gameHandler->sendAndApply(&sah);
}
void HeroPoolProcessor::onHeroEscaped(const PlayerColor & color, const CGHeroInstance * hero)
{
SetAvailableHero sah;
if (playerEndedTurn(color))
sah.roleID = TavernSlotRole::RETREATED_TODAY;
else
sah.roleID = TavernSlotRole::RETREATED;
sah.slotID = selectSlotForRole(color, sah.roleID);
sah.player = color;
sah.hid = hero->subID;
sah.army.clear();
sah.army.setCreature(SlotID(0), hero->type->initialArmy.at(0).creature, 1);
gameHandler->sendAndApply(&sah);
}
void HeroPoolProcessor::clearHeroFromSlot(const PlayerColor & color, TavernHeroSlot slot)
{
SetAvailableHero sah;
sah.player = color;
sah.roleID = TavernSlotRole::NONE;
sah.slotID = slot;
sah.hid = HeroTypeID::NONE;
gameHandler->sendAndApply(&sah);
}
void HeroPoolProcessor::selectNewHeroForSlot(const PlayerColor & color, TavernHeroSlot slot, bool needNativeHero, bool giveArmy)
{
SetAvailableHero sah;
sah.player = color;
sah.slotID = slot;
CGHeroInstance *newHero = pickHeroFor(needNativeHero, color);
if (newHero)
{
sah.hid = newHero->subID;
if (giveArmy)
{
sah.roleID = TavernSlotRole::FULL_ARMY;
newHero->initArmy(getRandomGenerator(color), &sah.army);
}
else
{
sah.roleID = TavernSlotRole::SINGLE_UNIT;
sah.army.clear();
sah.army.setCreature(SlotID(0), newHero->type->initialArmy[0].creature, 1);
}
}
else
{
sah.hid = -1;
}
gameHandler->sendAndApply(&sah);
}
void HeroPoolProcessor::onNewWeek(const PlayerColor & color)
{
const auto & heroesPool = gameHandler->gameState()->heroesPool;
const auto & heroes = heroesPool->getHeroesFor(color);
const auto nativeSlotRole = heroes.size() < 1 ? TavernSlotRole::NONE : heroesPool->getSlotRole(heroes[0]->type->getId());
const auto randomSlotRole = heroes.size() < 2 ? TavernSlotRole::NONE : heroesPool->getSlotRole(heroes[1]->type->getId());
bool resetNativeSlot = nativeSlotRole != TavernSlotRole::RETREATED_TODAY && nativeSlotRole != TavernSlotRole::SURRENDERED_TODAY;
bool resetRandomSlot = randomSlotRole != TavernSlotRole::RETREATED_TODAY && randomSlotRole != TavernSlotRole::SURRENDERED_TODAY;
if (resetNativeSlot)
clearHeroFromSlot(color, TavernHeroSlot::NATIVE);
if (resetRandomSlot)
clearHeroFromSlot(color, TavernHeroSlot::RANDOM);
if (resetNativeSlot)
selectNewHeroForSlot(color, TavernHeroSlot::NATIVE, true, true);
if (resetRandomSlot)
selectNewHeroForSlot(color, TavernHeroSlot::RANDOM, false, true);
}
bool HeroPoolProcessor::hireHero(const ObjectInstanceID & objectID, const HeroTypeID & heroToRecruit, const PlayerColor & player)
{
const PlayerState * playerState = gameHandler->getPlayerState(player);
const CGObjectInstance * mapObject = gameHandler->getObj(objectID);
const CGTownInstance * town = gameHandler->getTown(objectID);
if (!mapObject && gameHandler->complain("Invalid map object!"))
return false;
if (!playerState && gameHandler->complain("Invalid player!"))
return false;
if (playerState->resources[EGameResID::GOLD] < GameConstants::HERO_GOLD_COST && gameHandler->complain("Not enough gold for buying hero!"))
return false;
if (gameHandler->getHeroCount(player, false) >= VLC->settings()->getInteger(EGameSettings::HEROES_PER_PLAYER_ON_MAP_CAP) && gameHandler->complain("Cannot hire hero, too many wandering heroes already!"))
return false;
if (gameHandler->getHeroCount(player, true) >= VLC->settings()->getInteger(EGameSettings::HEROES_PER_PLAYER_TOTAL_CAP) && gameHandler->complain("Cannot hire hero, too many heroes garrizoned and wandering already!"))
return false;
if(town) //tavern in town
{
if(gameHandler->getPlayerRelations(mapObject->tempOwner, player) == PlayerRelations::ENEMIES && gameHandler->complain("Can't buy hero in enemy town!"))
return false;
if(!town->hasBuilt(BuildingID::TAVERN) && gameHandler->complain("No tavern!"))
return false;
if(town->visitingHero && gameHandler->complain("There is visiting hero - no place!"))
return false;
}
if(mapObject->ID == Obj::TAVERN)
{
if(gameHandler->getTile(mapObject->visitablePos())->visitableObjects.back() != mapObject && gameHandler->complain("Tavern entry must be unoccupied!"))
return false;
}
auto recruitableHeroes = gameHandler->gameState()->heroesPool->getHeroesFor(player);
const CGHeroInstance * recruitedHero = nullptr;
for(const auto & hero : recruitableHeroes)
{
if(hero->subID == heroToRecruit)
recruitedHero = hero;
}
if(!recruitedHero)
{
gameHandler->complain("Hero is not available for hiring!");
return false;
}
const auto targetPos = mapObject->visitablePos();
HeroRecruited hr;
hr.tid = mapObject->id;
hr.hid = recruitedHero->subID;
hr.player = player;
hr.tile = recruitedHero->convertFromVisitablePos(targetPos );
if(gameHandler->getTile(hr.tile)->isWater() && !recruitedHero->boat)
{
//Create a new boat for hero
gameHandler->createObject(targetPos , Obj::BOAT, recruitedHero->getBoatType().getNum());
hr.boatId = gameHandler->getTopObj(targetPos)->id;
}
// apply netpack -> this will remove hired hero from pool
gameHandler->sendAndApply(&hr);
if(recruitableHeroes[0] == recruitedHero)
selectNewHeroForSlot(player, TavernHeroSlot::NATIVE, false, false);
else
selectNewHeroForSlot(player, TavernHeroSlot::RANDOM, false, false);
gameHandler->giveResource(player, EGameResID::GOLD, -GameConstants::HERO_GOLD_COST);
if(town)
{
gameHandler->visitCastleObjects(town, recruitedHero);
gameHandler->giveSpells(town, recruitedHero);
}
return true;
}
std::vector<const CHeroClass *> HeroPoolProcessor::findAvailableClassesFor(const PlayerColor & player) const
{
std::vector<const CHeroClass *> result;
const auto & heroesPool = gameHandler->gameState()->heroesPool;
FactionID factionID = gameHandler->getPlayerSettings(player)->castle;
for(auto & elem : heroesPool->unusedHeroesFromPool())
{
if (vstd::contains(result, elem.second->type->heroClass))
continue;
bool heroAvailable = heroesPool->isHeroAvailableFor(elem.first, player);
bool heroClassBanned = elem.second->type->heroClass->selectionProbability[factionID] == 0;
if(heroAvailable && !heroClassBanned)
result.push_back(elem.second->type->heroClass);
}
return result;
}
std::vector<CGHeroInstance *> HeroPoolProcessor::findAvailableHeroesFor(const PlayerColor & player, const CHeroClass * heroClass) const
{
std::vector<CGHeroInstance *> result;
const auto & heroesPool = gameHandler->gameState()->heroesPool;
for(auto & elem : heroesPool->unusedHeroesFromPool())
{
assert(!vstd::contains(result, elem.second));
bool heroAvailable = heroesPool->isHeroAvailableFor(elem.first, player);
bool heroClassMatches = elem.second->type->heroClass == heroClass;
if(heroAvailable && heroClassMatches)
result.push_back(elem.second);
}
return result;
}
const CHeroClass * HeroPoolProcessor::pickClassFor(bool isNative, const PlayerColor & player)
{
if(player >= PlayerColor::PLAYER_LIMIT)
{
logGlobal->error("Cannot pick hero for player %d. Wrong owner!", player.getStr());
return nullptr;
}
FactionID factionID = gameHandler->getPlayerSettings(player)->castle;
const auto & heroesPool = gameHandler->gameState()->heroesPool;
const auto & currentTavern = heroesPool->getHeroesFor(player);
std::vector<const CHeroClass *> potentialClasses = findAvailableClassesFor(player);
std::vector<const CHeroClass *> possibleClasses;
if(potentialClasses.empty())
{
logGlobal->error("There are no heroes available for player %s!", player.getStr());
return nullptr;
}
for(const auto & heroClass : potentialClasses)
{
if (isNative && heroClass->faction != factionID)
continue;
bool hasSameClass = vstd::contains_if(currentTavern, [&](const CGHeroInstance * hero){
return hero->type->heroClass == heroClass;
});
if (hasSameClass)
continue;
possibleClasses.push_back(heroClass);
}
if (possibleClasses.empty())
{
logGlobal->error("Cannot pick native hero for %s. Picking any...", player.getStr());
possibleClasses = potentialClasses;
}
int totalWeight = 0;
for(const auto & heroClass : possibleClasses)
totalWeight += heroClass->selectionProbability.at(factionID);
int roll = getRandomGenerator(player).nextInt(totalWeight - 1);
for(const auto & heroClass : possibleClasses)
{
roll -= heroClass->selectionProbability.at(factionID);
if(roll < 0)
return heroClass;
}
return *possibleClasses.rbegin();
}
CGHeroInstance * HeroPoolProcessor::pickHeroFor(bool isNative, const PlayerColor & player)
{
const CHeroClass * heroClass = pickClassFor(isNative, player);
if(!heroClass)
return nullptr;
std::vector<CGHeroInstance *> possibleHeroes = findAvailableHeroesFor(player, heroClass);
assert(!possibleHeroes.empty());
if(possibleHeroes.empty())
return nullptr;
return *RandomGeneratorUtil::nextItem(possibleHeroes, getRandomGenerator(player));
}
CRandomGenerator & HeroPoolProcessor::getRandomGenerator(const PlayerColor & player)
{
if (playerSeed.count(player) == 0)
{
int seed = gameHandler->getRandomGenerator().nextInt();
playerSeed.emplace(player, std::make_unique<CRandomGenerator>(seed));
}
return *playerSeed.at(player);
}