Ir para conteúdo
  • Cadastre-se

Suporte Nao aparece hp e mp - so mp


Posts Recomendados

Galera, alguém sabe me dizer pq e assim ? ou se tem como consertar isso ???
Se tiver, alguem me ajuda pf.

Meu ot e high exp, e pra healar e mt quantidade de healer... so que quando o player heala so aparece o da MP ( nao aparece o HP )
tanto como potion ou magia !

Ja testei em varios ots e a sempre a mesma coisa.

alguém sabe onde q meche pra ajeitar isso ? 
creio q deve ser na src, se alguém souber, ajuda pf !???

 

Sem título.png

Link para o post
Compartilhar em outros sites

No seu config.lua esta linha está assim? 

showHealthChange = true

Editado por Rogex Joyz (veja o histórico de edições)

                                                                                                               destinyshield.gif.9f031b59b026058f32a1c50da92ebe2a.gif  mídias sociais  destinyshield.gif.02fca81ab0615e050b2bcefd8a73a2e8.gif

                                                                                                                            talk to me              

                                                                                                                               vídeos           

                                                                                             

                                                                                                            LOGONORMAL.png.815b40b04ec583be88d8a1e2626fe430.png

                                                                                                           

                               

Link para o post
Compartilhar em outros sites

Sim !

Mas so aparece do Mp.

mas quando eu boto pra healar menos de 2k aparece os dois ( hp/mp ) ja acima disso so aparece da mana !

entrei em um ot lvl high hj e vir a msm coisa, so sobe o mp !

creio q deve ser algo na scr, agora esperar uma boa alma que saiba ''ajeitar'' isso e ensinar !

Link para o post
Compartilhar em outros sites

posta seu game.cpp ai

                                                                                                               destinyshield.gif.9f031b59b026058f32a1c50da92ebe2a.gif  mídias sociais  destinyshield.gif.02fca81ab0615e050b2bcefd8a73a2e8.gif

                                                                                                                            talk to me              

                                                                                                                               vídeos           

                                                                                             

                                                                                                            LOGONORMAL.png.815b40b04ec583be88d8a1e2626fe430.png

                                                                                                           

                               

Link para o post
Compartilhar em outros sites
9 horas atrás, Doidodepeda disse:

Sim !

Mas so aparece do Mp.

mas quando eu boto pra healar menos de 2k aparece os dois ( hp/mp ) ja acima disso so aparece da mana !

entrei em um ot lvl high hj e vir a msm coisa, so sobe o mp !

creio q deve ser algo na scr, agora esperar uma boa alma que saiba ''ajeitar'' isso e ensinar !

Citar

////////////////////////////////////////////////////////////////////////
// OpenTibia - an opensource roleplaying game
////////////////////////////////////////////////////////////////////////
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program.  If not, see <http://www.gnu.org/licenses/>.
////////////////////////////////////////////////////////////////////////
#include "otpch.h"
#include "game.h"

#include "configmanager.h"
#ifdef __LOGIN_SERVER__
#include "gameservers.h"
#endif
#include "server.h"
#include "chat.h"

#include "luascript.h"
#include "creature.h"
#include "combat.h"
#include "tile.h"

#include "database.h"
#include "iologindata.h"
#include "ioban.h"
#include "ioguild.h"

#include "items.h"
#include "trashholder.h"
#include "container.h"
#include "monsters.h"

#include "house.h"
#include "quests.h"

#include "actions.h"
#include "globalevent.h"
#include "movement.h"
#include "raids.h"
#include "scriptmanager.h"
#include "spells.h"
#include "talkaction.h"
#include "weapons.h"

#include "vocation.h"
#include "group.h"

#ifdef __EXCEPTION_TRACER__
#include "exception.h"
#endif

extern ConfigManager g_config;
extern Actions* g_actions;
extern Monsters g_monsters;
extern Npcs g_npcs;
extern Chat g_chat;
extern TalkActions* g_talkActions;
extern Spells* g_spells;
extern MoveEvents* g_moveEvents;
extern Weapons* g_weapons;
extern CreatureEvents* g_creatureEvents;
extern GlobalEvents* g_globalEvents;

Game::Game()
{
    gameState = GAMESTATE_NORMAL;
    worldType = WORLDTYPE_OPEN;
    map = NULL;
    playersRecord = lastStageLevel = 0;
    for(int32_t i = 0; i < 3; i++)
        globalSaveMessage[i] = false;

    //(1440 minutes/day) * 10 seconds event interval / (3600 seconds/day)
    lightHourDelta = 1440 * 10 / 3600;
    lightHour = SUNRISE + (SUNSET - SUNRISE) / 2;
    lightLevel = LIGHT_LEVEL_DAY;
    lightState = LIGHT_STATE_DAY;

    lastBucket = checkCreatureLastIndex = checkLightEvent = checkCreatureEvent = checkDecayEvent = saveEvent = 0;
}

Game::~Game()
{
    if(map)
        delete map;
}

void Game::start(ServiceManager* servicer)
{
    checkDecayEvent = Scheduler::getInstance().addEvent(createSchedulerTask(EVENT_DECAYINTERVAL,
        boost::bind(&Game::checkDecay, this)));
    checkCreatureEvent = Scheduler::getInstance().addEvent(createSchedulerTask(EVENT_CREATURE_THINK_INTERVAL,
        boost::bind(&Game::checkCreatures, this)));
    checkLightEvent = Scheduler::getInstance().addEvent(createSchedulerTask(EVENT_LIGHTINTERVAL,
        boost::bind(&Game::checkLight, this)));

    services = servicer;
    if(!g_config.getBool(ConfigManager::GLOBALSAVE_ENABLED) || g_config.getNumber(ConfigManager::GLOBALSAVE_H) < 1 ||
        g_config.getNumber(ConfigManager::GLOBALSAVE_H) > 24 || g_config.getNumber(ConfigManager::GLOBALSAVE_M) < 0
        || g_config.getNumber(ConfigManager::GLOBALSAVE_M) > 59)
        return;

    time_t timeNow = time(NULL);
    const tm* theTime = localtime(&timeNow);

    int32_t prepareHour = g_config.getNumber(ConfigManager::GLOBALSAVE_H),
        prepareMinute = g_config.getNumber(ConfigManager::GLOBALSAVE_M) - 5,
        hoursLeft = 0, minutesLeft = 0;
    if(theTime->tm_hour > prepareHour)
    {
        hoursLeft = 23 - (theTime->tm_hour - prepareHour);
        if(theTime->tm_min > prepareMinute)
        {
            minutesLeft = 60 - (theTime->tm_min - prepareMinute);
            hoursLeft--;
        }
        else if(theTime->tm_min != prepareMinute)
            minutesLeft = prepareMinute - theTime->tm_min;
    }
    else if(theTime->tm_hour == prepareHour)
    {
        if(theTime->tm_min > (prepareMinute - 1) && theTime->tm_min < (prepareMinute + 6))
        {
            if(theTime->tm_min > (prepareMinute + 1))
                setGlobalSaveMessage(0, true);

            if(theTime->tm_min > (prepareMinute + 3))
                setGlobalSaveMessage(1, true);

            prepareGlobalSave();
        }
        else if(theTime->tm_min > prepareMinute)
        {
            minutesLeft = 60 - (theTime->tm_min - prepareMinute);
            hoursLeft = 23;
        }
        else
            minutesLeft = prepareMinute - theTime->tm_min;
    }
    else
    {
        hoursLeft = prepareHour - theTime->tm_hour;
        if(theTime->tm_min > prepareMinute)
        {
            minutesLeft = 60 - (theTime->tm_min - prepareMinute);
            hoursLeft--;
        }
        else if(theTime->tm_min != prepareMinute)
            minutesLeft = prepareMinute - theTime->tm_min;
    }

    if(!hoursLeft || !minutesLeft)
        return;

    uint32_t timeLeft = (hoursLeft * 3600000) + minutesLeft * 60000;
    saveEvent = Scheduler::getInstance().addEvent(createSchedulerTask(timeLeft,
        boost::bind(&Game::prepareGlobalSave, this)));
}

void Game::loadGameState()
{
    ScriptEnviroment::loadGameState();
    loadMotd();
    loadPlayersRecord();
    checkHighscores();
}

void Game::setGameState(GameState_t newState)
{
    if(gameState == GAMESTATE_SHUTDOWN)
        return; //this cannot be stopped

    if(gameState != newState)
    {
        gameState = newState;
        switch(newState)
        {
            case GAMESTATE_INIT:
            {
                Spawns::getInstance()->startup();
                Raids::getInstance()->loadFromXml();
                Raids::getInstance()->startup();
                Quests::getInstance()->loadFromXml();

                loadGameState();
                g_globalEvents->startup();

                IOBan::getInstance()->clearTemporials();
                if(g_config.getBool(ConfigManager::INIT_PREMIUM_UPDATE))
                    IOLoginData::getInstance()->updatePremiumDays();
                break;
            }

            case GAMESTATE_SHUTDOWN:
            {
                g_globalEvents->execute(GLOBALEVENT_SHUTDOWN);
                AutoList<Player>::iterator it = Player::autoList.begin();
                while(it != Player::autoList.end()) //kick all players that are still online
                {
                    it->second->kickPlayer(true, true);
                    it = Player::autoList.begin();
                }

                Houses::getInstance()->payHouses();
                saveGameState(false);
                Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::shutdown, this)));

                Scheduler::getInstance().stop();
                Dispatcher::getInstance().stop();
                break;
            }

            case GAMESTATE_CLOSED:
            {
                AutoList<Player>::iterator it = Player::autoList.begin();
                while(it != Player::autoList.end()) //kick all players who not allowed to stay
                {
                    if(!it->second->hasFlag(PlayerFlag_CanAlwaysLogin))
                    {
                        it->second->kickPlayer(true, true);
                        it = Player::autoList.begin();
                    }
                    else
                        ++it;
                }

                saveGameState(false);
                break;
            }

            case GAMESTATE_NORMAL:
            case GAMESTATE_MAINTAIN:
            case GAMESTATE_STARTUP:
            case GAMESTATE_CLOSING:
            default:
                break;
        }
    }
}

void Game::saveGameState(bool shallow)
{
    std::clog << "> Saving server..." << std::endl;
    uint64_t start = OTSYS_TIME();
    if(gameState == GAMESTATE_NORMAL)
        setGameState(GAMESTATE_MAINTAIN);

    IOLoginData* io = IOLoginData::getInstance();
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        it->second->loginPosition = it->second->getPosition();
        io->savePlayer(it->second, false, shallow);
    }

    std::string storage = "relational";
    if(g_config.getBool(ConfigManager::HOUSE_STORAGE))
        storage = "binary";

    map->saveMap();
    ScriptEnviroment::saveGameState();
    if(gameState == GAMESTATE_MAINTAIN)
        setGameState(GAMESTATE_NORMAL);

    std::clog << "> SAVE: Complete in " << (OTSYS_TIME() - start) / (1000.) << " seconds using "
        << storage << " house storage." << std::endl;
}

int32_t Game::loadMap(std::string filename)
{
    if(!map)
        map = new Map;

    std::string file = getFilePath(FILE_TYPE_CONFIG, "world/" + filename);
    if(!fileExists(file.c_str()))
        file = getFilePath(FILE_TYPE_OTHER, "world/" + filename);

    return map->loadMap(file);
}

void Game::cleanMapEx(uint32_t& count)
{
    uint64_t start = OTSYS_TIME();
    uint32_t tiles = 0; count = 0;

    int32_t marked = -1;
    if(gameState == GAMESTATE_NORMAL)
        setGameState(GAMESTATE_MAINTAIN);

    Tile* tile = NULL;
    ItemVector::iterator tit;
    if(g_config.getBool(ConfigManager::STORE_TRASH))
    {
        marked = trash.size();
        Trash::iterator it = trash.begin();
        if(g_config.getBool(ConfigManager::CLEAN_PROTECTED_ZONES))
        {
            for(; it != trash.end(); ++it)
            {
                if(!(tile = getTile(*it)))
                    continue;

                tile->resetFlag(TILESTATE_TRASHED);
                if(tile->hasFlag(TILESTATE_HOUSE) || !tile->getItemList())
                    continue;

                ++tiles;
                tit = tile->getItemList()->begin();
                while(tile->getItemList() && tit != tile->getItemList()->end())
                {
                    if((*tit)->isMoveable() && !(*tit)->isLoadedFromMap()
                        && !(*tit)->isScriptProtected())
                    {
                        internalRemoveItem(NULL, *tit);
                        if(tile->getItemList())
                            tit = tile->getItemList()->begin();

                        ++count;
                    }
                    else
                        ++tit;
                }
            }

            trash.clear();
        }
        else
        {
            for(; it != trash.end(); ++it)
            {
                if(!(tile = getTile(*it)))
                    continue;

                tile->resetFlag(TILESTATE_TRASHED);
                if(tile->hasFlag(TILESTATE_PROTECTIONZONE) || !tile->getItemList())
                    continue;

                ++tiles;
                tit = tile->getItemList()->begin();
                while(tile->getItemList() && tit != tile->getItemList()->end())
                {
                    if((*tit)->isMoveable() && !(*tit)->isLoadedFromMap()
                        && !(*tit)->isScriptProtected())
                    {
                        internalRemoveItem(NULL, *tit);
                        if(tile->getItemList())
                            tit = tile->getItemList()->begin();

                        ++count;
                    }
                    else
                        ++tit;
                }
            }

            trash.clear();
        }
    }
    else if(g_config.getBool(ConfigManager::CLEAN_PROTECTED_ZONES))
    {
        for(uint16_t z = 0; z < (uint16_t)MAP_MAX_LAYERS; z++)
        {
            for(uint16_t y = 1; y <= map->mapHeight; y++)
            {
                for(uint16_t x = 1; x <= map->mapWidth; x++)
                {
                    if(!(tile = getTile(x, y, z)) || tile->hasFlag(TILESTATE_HOUSE) || !tile->getItemList())
                        continue;

                    ++tiles;
                    tit = tile->getItemList()->begin();
                    while(tile->getItemList() && tit != tile->getItemList()->end())
                    {
                        if((*tit)->isMoveable() && !(*tit)->isLoadedFromMap()
                            && !(*tit)->isScriptProtected())
                        {
                            internalRemoveItem(NULL, *tit);
                            if(tile->getItemList())
                                tit = tile->getItemList()->begin();

                            ++count;
                        }
                        else
                            ++tit;
                    }
                }
            }
        }
    }
    else
    {
        for(uint16_t z = 0; z < (uint16_t)MAP_MAX_LAYERS; z++)
        {
            for(uint16_t y = 1; y <= map->mapHeight; y++)
            {
                for(uint16_t x = 1; x <= map->mapWidth; x++)
                {
                    if(!(tile = getTile(x, y, z)) || tile->hasFlag(TILESTATE_PROTECTIONZONE) || !tile->getItemList())
                        continue;

                    ++tiles;
                    tit = tile->getItemList()->begin();
                    while(tile->getItemList() && tit != tile->getItemList()->end())
                    {
                        if((*tit)->isMoveable() && !(*tit)->isLoadedFromMap()
                            && !(*tit)->isScriptProtected())
                        {
                            internalRemoveItem(NULL, *tit);
                            if(tile->getItemList())
                                tit = tile->getItemList()->begin();

                            ++count;
                        }
                        else
                            ++tit;
                    }
                }
            }
        }
    }

    if(gameState == GAMESTATE_MAINTAIN)
        setGameState(GAMESTATE_NORMAL);

    std::clog << "> CLEAN: Removed " << count << " item" << (count != 1 ? "s" : "")
        << " from " << tiles << " tile" << (tiles != 1 ? "s" : "");
    if(marked >= 0)
        std::clog << " (" << marked << " were marked)";

    std::clog << " in " << (OTSYS_TIME() - start) / (1000.) << " seconds." << std::endl;
}

void Game::cleanMap()
{
    uint32_t dummy;
    cleanMapEx(dummy);
}

void Game::proceduralRefresh(RefreshTiles::iterator* it/* = NULL*/)
{
    if(!it)
        it = new RefreshTiles::iterator(refreshTiles.begin());

    // Refresh 250 tiles each cycle
    refreshMap(it, 250);
    if((*it) != refreshTiles.end())
    {
        delete it;
        return;
    }

    // Refresh some items every 100 ms until all tiles has been checked
    // For 100k tiles, this would take 100000/2500 = 40s = half a minute
    Scheduler::getInstance().addEvent(createSchedulerTask(100,
        boost::bind(&Game::proceduralRefresh, this, it)));
}

void Game::refreshMap(RefreshTiles::iterator* it/* = NULL*/, uint32_t limit/* = 0*/)
{
    RefreshTiles::iterator end = refreshTiles.end();
    if(!it)
    {
        RefreshTiles::iterator begin = refreshTiles.begin();
        it = &begin;
    }

    Tile* tile = NULL;
    TileItemVector* items = NULL;

    Item* item = NULL;
    for(uint32_t cleaned = 0, downItemsSize = 0; (*it) != end &&
        (limit ? (cleaned < limit) : true); ++(*it), ++cleaned)
    {
        if(!(tile = (*it)->first))
            continue;

        if((items = tile->getItemList()))
        {
            downItemsSize = tile->getDownItemCount();
            for(uint32_t i = downItemsSize - 1; i; --i)
            {
                if((item = items->at(i)))
                {
                    #ifndef __DEBUG__
                    internalRemoveItem(NULL, item);
                    #else
                    if(internalRemoveItem(NULL, item) != RET_NOERROR)
                    {
                        std::clog << "> WARNING: Could not refresh item: " << item->getID();
                        std::clog << " at position: " << tile->getPosition() << std::endl;
                    }
                    #endif
                }
            }
        }

        cleanup();
        TileItemVector list = (*it)->second.list;
        for(ItemVector::reverse_iterator it = list.rbegin(); it != list.rend(); ++it)
        {
            Item* item = (*it)->clone();
            if(internalAddItem(NULL, tile, item , INDEX_WHEREEVER, FLAG_NOLIMIT) == RET_NOERROR)
            {
                if(item->getUniqueId() != 0)
                    ScriptEnviroment::addUniqueThing(item);

                startDecay(item);
            }
            else
            {
                std::clog << "> WARNING: Could not refresh item: " << item->getID()
                    << " at position: " << tile->getPosition() << std::endl;
                delete item;
            }
        }
    }
}

bool Game::isSwimmingPool(Item* item, const Tile* tile, bool checkProtection) const
{
    if(!tile)
        return false;

    TrashHolder* trashHolder = NULL;
    if(!item)
        trashHolder = tile->getTrashHolder();
    else
        trashHolder = item->getTrashHolder();

    return trashHolder && trashHolder->getEffect() == MAGIC_EFFECT_LOSE_ENERGY && (!checkProtection
        || tile->getZone() == ZONE_PROTECTION || tile->getZone() == ZONE_OPTIONAL);
}

Cylinder* Game::internalGetCylinder(Player* player, const Position& pos)
{
    if(pos.x != 0xFFFF)
        return getTile(pos);

    //container
    if(pos.y & 0x40)
        return player->getContainer((uint8_t)(pos.y & 0x0F));

    return player;
}

Thing* Game::internalGetThing(Player* player, const Position& pos, int32_t index,
    uint32_t spriteId/* = 0*/, stackposType_t type/* = STACKPOS_NORMAL*/)
{
    if(pos.x != 0xFFFF)
    {
        Tile* tile = getTile(pos);
        if(!tile)
            return NULL;

        if(type == STACKPOS_LOOK)
            return tile->getTopVisibleThing(player);

        Thing* thing = NULL;
        switch(type)
        {
            case STACKPOS_MOVE:
            {
                Item* item = tile->getTopDownItem();
                if(item && item->isMoveable())
                    thing = item;
                else
                    thing = tile->getTopVisibleCreature(player);

                break;
            }

            case STACKPOS_USE:
            {
                thing = tile->getTopDownItem();
                break;
            }

            case STACKPOS_USEITEM:
            {
                Item* downItem = tile->getTopDownItem();
                Item* item = tile->getItemByTopOrder(2);
                if(item && g_actions->hasAction(item))
                {
                    const ItemType& it = Item::items[item->getID()];
                    if(!downItem || (!it.hasHeight && !it.allowPickupable))
                        thing = item;
                }

                if(!thing)
                    thing = downItem;

                if(!thing)
                    thing = tile->getTopTopItem();

                if(!thing)
                    thing = tile->ground;

                break;
            }

            default:
                thing = tile->__getThing(index);
                break;
        }

        if(player && thing && thing->getItem())
        {
            if(tile->hasProperty(ISVERTICAL))
            {
                if(player->getPosition().x + 1 == tile->getPosition().x)
                    thing = NULL;
            }
            else if(tile->hasProperty(ISHORIZONTAL) && player->getPosition().y + 1 == tile->getPosition().y)
                thing = NULL;
        }

        return thing;
    }
    else if(pos.y & 0x40)
    {
        uint8_t fromCid = pos.y & 0x0F, slot = pos.z;
        if(Container* parentcontainer = player->getContainer(fromCid))
            return parentcontainer->getItem(slot);
    }
    else if(!pos.y && !pos.z)
    {
        const ItemType& it = Item::items.getItemIdByClientId(spriteId);
        if(!it.id)
            return NULL;

        int32_t subType = -1;
        if(it.isFluidContainer() && index < int32_t(sizeof(reverseFluidMap) / sizeof(int8_t)))
            subType = reverseFluidMap[index];

        return findItemOfType(player, it.id, true, subType);
    }

    return player->getInventoryItem((slots_t)static_cast<uint8_t>(pos.y));
}

void Game::internalGetPosition(Item* item, Position& pos, int16_t& stackpos)
{
    pos.x = pos.y = pos.z = stackpos = 0;
    if(Cylinder* topParent = item->getTopParent())
    {
        if(Player* player = dynamic_cast<Player*>(topParent))
        {
            pos.x = 0xFFFF;

            Container* container = dynamic_cast<Container*>(item->getParent());
            if(container)
            {
                pos.y = ((uint16_t) ((uint16_t)0x40) | ((uint16_t)player->getContainerID(container)) );
                pos.z = container->__getIndexOfThing(item);
                stackpos = pos.z;
            }
            else
            {
                pos.y = player->__getIndexOfThing(item);
                stackpos = pos.y;
            }
        }
        else if(Tile* tile = topParent->getTile())
        {
            pos = tile->getPosition();
            stackpos = tile->__getIndexOfThing(item);
        }
    }
}

Creature* Game::getCreatureByID(uint32_t id)
{
    if(!id)
        return NULL;

    AutoList<Creature>::iterator it = autoList.find(id);
    if(it != autoList.end() && !it->second->isRemoved())
        return it->second;

    return NULL; //just in case the player doesnt exist
}

Player* Game::getPlayerByID(uint32_t id)
{
    if(!id)
        return NULL;

    AutoList<Player>::iterator it = Player::autoList.find(id);
    if(it != Player::autoList.end() && !it->second->isRemoved())
        return it->second;

    return NULL; //just in case the player doesnt exist
}

Creature* Game::getCreatureByName(std::string s)
{
    if(s.empty())
        return NULL;

    toLowerCaseString(s);
    for(AutoList<Creature>::iterator it = autoList.begin(); it != autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && asLowerCaseString(it->second->getName()) == s)
            return it->second;
    }

    return NULL; //just in case the creature doesnt exist
}

Player* Game::getPlayerByName(std::string s)
{
    if(s.empty())
        return NULL;

    toLowerCaseString(s);
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && asLowerCaseString(it->second->getName()) == s)
            return it->second;
    }

    return NULL;
}

Player* Game::getPlayerByNameEx(const std::string& s)
{
    Player* player = getPlayerByName(s);
    if(player)
        return player;

    std::string name = s;
    if(!IOLoginData::getInstance()->playerExists(name))
        return NULL;

    player = new Player(name, NULL);
    if(IOLoginData::getInstance()->loadPlayer(player, name))
        return player;

#ifdef __DEBUG__
    std::clog << "[Failure - Game::getPlayerByNameEx] Cannot load player: " << name << std::endl;
#endif
    delete player;
    return NULL;
}

Player* Game::getPlayerByGuid(uint32_t guid)
{
    if(!guid)
        return NULL;

    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && it->second->getGUID() == guid)
            return it->second;
    }

    return NULL;
}

Player* Game::getPlayerByGuidEx(uint32_t guid)
{
    Player* player = getPlayerByGuid(guid);
    if(player)
        return player;

    std::string name;
    if(!IOLoginData::getInstance()->getNameByGuid(guid, name))
        return NULL;

    player = new Player(name, NULL);
    if(IOLoginData::getInstance()->loadPlayer(player, name))
        return player;

#ifdef __DEBUG__
    std::clog << "[Failure - Game::getPlayerByGuidEx] Cannot load player: " << name << std::endl;
#endif
    delete player;
    return NULL;
}

ReturnValue Game::getPlayerByNameWildcard(std::string s, Player*& player)
{
    player = NULL;
    if(s.empty())
        return RET_PLAYERWITHTHISNAMEISNOTONLINE;

    char tmp = *s.rbegin();
    if(tmp != '~' && tmp != '*')
    {
        player = getPlayerByName(s);
        if(!player)
            return RET_PLAYERWITHTHISNAMEISNOTONLINE;

        return RET_NOERROR;
    }

    Player* last = NULL;
    s = s.substr(0, s.length() - 1);

    toLowerCaseString(s);
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(it->second->isRemoved())
            continue;

        std::string name = asLowerCaseString(it->second->getName());
        if(name.substr(0, s.length()) != s)
            continue;

        if(last)
            return RET_NAMEISTOOAMBIGUOUS;

        last = it->second;
    }

    if(!last)
        return RET_PLAYERWITHTHISNAMEISNOTONLINE;

    player = last;
    return RET_NOERROR;
}

Player* Game::getPlayerByAccount(uint32_t acc)
{
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && it->second->getAccount() == acc)
            return it->second;
    }

    return NULL;
}

PlayerVector Game::getPlayersByName(std::string s)
{
    toLowerCaseString(s);
    PlayerVector players;
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && asLowerCaseString(it->second->getName()) == s)
            players.push_back(it->second);
    }

    return players;
}

PlayerVector Game::getPlayersByAccount(uint32_t acc)
{
    PlayerVector players;
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && it->second->getAccount() == acc)
            players.push_back(it->second);
    }

    return players;
}

PlayerVector Game::getPlayersByIP(uint32_t ip, uint32_t mask)
{
    PlayerVector players;
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && (it->second->getIP() & mask) == (ip & mask))
            players.push_back(it->second);
    }

    return players;
}

bool Game::internalPlaceCreature(Creature* creature, const Position& pos, bool extendedPos /*= false*/, bool forced /*= false*/)
{
    if(creature->getParent())
        return false;

    if(!map->placeCreature(pos, creature, extendedPos, forced))
        return false;

    creature->addRef();
    creature->setID();

    autoList[creature->getID()] = creature;
    creature->addList();
    return true;
}

bool Game::placeCreature(Creature* creature, const Position& pos, bool extendedPos /*= false*/, bool forced /*= false*/)
{
    if(!internalPlaceCreature(creature, pos, extendedPos, forced))
        return false;

    Player* tmpPlayer = NULL;
    if((tmpPlayer = creature->getPlayer()) && !tmpPlayer->storedConditionList.empty())
    {
        for(ConditionList::iterator it = tmpPlayer->storedConditionList.begin(); it != tmpPlayer->storedConditionList.end(); ++it)
        {
            if((*it)->getType() == CONDITION_MUTED && ((*it)->getTicks() - (
                (time(NULL) - tmpPlayer->getLastLogout()) * 1000)) <= 0)
                continue;

            tmpPlayer->addCondition(*it);
        }

        tmpPlayer->storedConditionList.clear();
    }

    SpectatorVec::iterator it;
    SpectatorVec list;

    getSpectators(list, creature->getPosition(), false, true);
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureAppear(creature);
    }

    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureAppear(creature);

    creature->setLastPosition(pos);
    creature->getParent()->postAddNotification(NULL, creature, NULL, creature->getParent()->__getIndexOfThing(creature));
    addCreatureCheck(creature);

    creature->onPlacedCreature();
    return true;
}

ReturnValue Game::placeSummon(Creature* creature, const std::string& name)
{
    Monster* monster = Monster::createMonster(name);
    if(!monster)
        return RET_NOTPOSSIBLE;

    // Place the monster
    creature->addSummon(monster);
    if(placeCreature(monster, creature->getPosition(), true))
    {
        addMagicEffect(monster->getPosition(), MAGIC_EFFECT_TELEPORT);
        return RET_NOERROR;
    }

    creature->removeSummon(monster);
    return RET_NOTENOUGHROOM;
}

bool Game::removeCreature(Creature* creature, bool isLogout /*= true*/)
{
    if(creature->isRemoved())
        return false;

    Tile* tile = creature->getTile();
    SpectatorVec list;
    getSpectators(list, tile->getPosition(), false, true);

    SpectatorVec::iterator it;
    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureDisappear(creature, isLogout);

    if(tile != creature->getTile())
    {
        list.clear();
        tile = creature->getTile();
        getSpectators(list, tile->getPosition(), false, true);
    }

    Player* player = NULL;
    std::vector<uint32_t> oldStackPosVector;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((player = (*it)->getPlayer()) && player->canSeeCreature(creature))
            oldStackPosVector.push_back(tile->getClientIndexOfThing(player, creature));
    }

    int32_t oldIndex = tile->__getIndexOfThing(creature);
    if(!map->removeCreature(creature))
        return false;

    //send to client
    uint32_t i = 0;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if(creature != (*it))
            (*it)->updateTileCache(tile);

        if(!(player = (*it)->getPlayer()) || !player->canSeeCreature(creature))
            continue;

        player->sendCreatureDisappear(creature, oldStackPosVector[i]);
        ++i;
    }

    creature->getParent()->postRemoveNotification(NULL, creature, NULL, oldIndex, true);
    creature->onRemovedCreature();

    autoList.erase(creature->getID());
    freeThing(creature);

    removeCreatureCheck(creature);
    for(std::list<Creature*>::iterator it = creature->summons.begin(); it != creature->summons.end(); ++it)
        removeCreature(*it);

    return true;
}

bool Game::playerMoveThing(uint32_t playerId, const Position& fromPos,
    uint16_t spriteId, int16_t fromStackpos, const Position& toPos, uint8_t count)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    uint8_t fromIndex = 0;
    if(fromPos.x == 0xFFFF)
    {
        if(fromPos.y & 0x40)
            fromIndex = static_cast<uint8_t>(fromPos.z);
        else
            fromIndex = static_cast<uint8_t>(fromPos.y);
    }
    else
        fromIndex = fromStackpos;

    Thing* thing = internalGetThing(player, fromPos, fromIndex, spriteId, STACKPOS_MOVE);
    Cylinder* toCylinder = internalGetCylinder(player, toPos);
    if(!thing || !toCylinder)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    if(Creature* movingCreature = thing->getCreature())
    {
        uint32_t delay = g_config.getNumber(ConfigManager::PUSH_CREATURE_DELAY);
        if(Position::areInRange<1,1,0>(movingCreature->getPosition(), player->getPosition()) && delay > 0
            && !player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
        {
            SchedulerTask* task = createSchedulerTask(delay, boost::bind(&Game::playerMoveCreature, this,
                player->getID(), movingCreature->getID(), movingCreature->getPosition(), toCylinder->getPosition()));
            player->setNextActionTask(task);
        }
        else
            playerMoveCreature(playerId, movingCreature->getID(), movingCreature->getPosition(), toCylinder->getPosition());
    }
    else if(thing->getItem())
        playerMoveItem(playerId, fromPos, spriteId, fromStackpos, toPos, count);

    return true;
}

bool Game::playerMoveCreature(uint32_t playerId, uint32_t movingCreatureId,
    const Position& movingCreaturePos, const Position& toPos)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || player->hasFlag(PlayerFlag_CannotMoveCreatures))
        return false;

    if(!player->canDoAction())
    {
        uint32_t delay = player->getNextActionTime();
        SchedulerTask* task = createSchedulerTask(delay, boost::bind(&Game::playerMoveCreature,
            this, playerId, movingCreatureId, movingCreaturePos, toPos));

        player->setNextActionTask(task);
        return false;
    }

    Creature* movingCreature = getCreatureByID(movingCreatureId);
    if(!movingCreature || movingCreature->isRemoved() || movingCreature->getNoMove())
        return false;

    player->setNextActionTask(NULL);
    if(!Position::areInRange<1,1,0>(movingCreaturePos, player->getPosition()) && !player->hasCustomFlag(PlayerCustomFlag_CanMoveFromFar))
    {
        //need to walk to the creature first before moving it
        std::list<Direction> listDir;
        if(getPathToEx(player, movingCreaturePos, listDir, 0, 1, true, true))
        {
            Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                this, player->getID(), listDir)));
            SchedulerTask* task = createSchedulerTask(player->getStepDuration(),
                boost::bind(&Game::playerMoveCreature, this, playerId, movingCreatureId, movingCreaturePos, toPos));

            player->setNextWalkActionTask(task);
            return true;
        }

        player->sendCancelMessage(RET_THEREISNOWAY);
        return false;
    }

    Tile* toTile = map->getTile(toPos);
    if(!toTile)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    if((!movingCreature->isPushable() && !player->hasFlag(PlayerFlag_CanPushAllCreatures)) || !player->canSeeCreature(movingCreature))
    {
        player->sendCancelMessage(RET_NOTMOVEABLE);
        return false;
    }

    //check throw distance
    const Position& pos = movingCreature->getPosition();
    if(!player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere) && ((std::abs(pos.x - toPos.x) > movingCreature->getThrowRange()) ||
        (std::abs(pos.y - toPos.y) > movingCreature->getThrowRange()) || (std::abs(pos.z - toPos.z) * 4 > movingCreature->getThrowRange())))
    {
        player->sendCancelMessage(RET_DESTINATIONOUTOFREACH);
        return false;
    }

    if(player != movingCreature)
    {
        if(toTile->hasProperty(BLOCKPATH))
        {
            player->sendCancelMessage(RET_NOTENOUGHROOM);
            return false;
        }

        if((movingCreature->getZone() == ZONE_PROTECTION || movingCreature->getZone() == ZONE_OPTIONAL)
            && !toTile->hasFlag(TILESTATE_OPTIONALZONE) && !toTile->hasFlag(TILESTATE_PROTECTIONZONE)
            && !player->hasFlag(PlayerFlag_IgnoreProtectionZone))
        {
            player->sendCancelMessage(RET_NOTPOSSIBLE);
            return false;
        }

        if(!player->hasFlag(PlayerFlag_CanPushAllCreatures))
        {
            if(toTile->getCreatures() && !toTile->getCreatures()->empty())
            {
                player->sendCancelMessage(RET_NOTPOSSIBLE);
                return false;
            }

            uint32_t protectionLevel = g_config.getNumber(ConfigManager::PROTECTION_LEVEL);
            if(player->getLevel() < protectionLevel && player->getVocation()->isAttackable())
            {
                Player* movingPlayer = movingCreature->getPlayer();
                if(movingPlayer && movingPlayer->getLevel() >= protectionLevel
                    && movingPlayer->getVocation()->isAttackable())
                {
                    player->sendCancelMessage(RET_PLAYERISNOTREACHABLE);
                    return false;
                }
            }
        }
    }

    bool deny = false;
    CreatureEventList pushEvents = player->getCreatureEvents(CREATURE_EVENT_PUSH);
    for(CreatureEventList::iterator it = pushEvents.begin(); it != pushEvents.end(); ++it)
    {
        if(!(*it)->executePush(player, movingCreature) && !deny)
            deny = true;
    }

    if(deny)
        return false;

    ReturnValue ret = internalMoveCreature(player, movingCreature, movingCreature->getTile(), toTile);
    if(ret != RET_NOERROR)
    {
        if(!player->hasCustomFlag(PlayerCustomFlag_CanMoveFromFar) || !player->hasCustomFlag(PlayerCustomFlag_CanMoveAnywhere))
        {
            player->sendCancelMessage(ret);
            return false;
        }

        if(!toTile->ground)
        {
            player->sendCancelMessage(RET_NOTPOSSIBLE);
            return true;
        }

        internalTeleport(movingCreature, toTile->getPosition(), false);
        return true;
    }

    if(Player* movingPlayer = movingCreature->getPlayer())
    {
        uint64_t delay = OTSYS_TIME() + movingPlayer->getStepDuration();
        if(delay > movingPlayer->getNextActionTime())
            movingPlayer->setNextAction(delay);
    }

    return true;
}

ReturnValue Game::internalMoveCreature(Creature* creature, Direction direction, uint32_t flags/* = 0*/)
{
    const Position& currentPos = creature->getPosition();
    Cylinder* fromTile = creature->getTile();
    Cylinder* toTile = NULL;

    Position destPos = getNextPosition(direction, currentPos);
    if(direction < SOUTHWEST && creature->getPlayer())
    {
        Tile* tmpTile = NULL;
        if(currentPos.z != 8 && creature->getTile()->hasHeight(3)) //try go up
        {
            if((!(tmpTile = map->getTile(Position(currentPos.x, currentPos.y, currentPos.z - 1)))
                || (!tmpTile->ground && !tmpTile->hasProperty(BLOCKSOLID))) &&
                (tmpTile = map->getTile(Position(destPos.x, destPos.y, destPos.z - 1)))
                && tmpTile->ground && !tmpTile->hasProperty(BLOCKSOLID))
            {
                flags = flags | FLAG_IGNOREBLOCKITEM | FLAG_IGNOREBLOCKCREATURE;
                if(!tmpTile->floorChange())
                    destPos.z--;
            }
        }
        else if(currentPos.z != 7 && (!(tmpTile = map->getTile(destPos)) || (!tmpTile->ground &&
            !tmpTile->hasProperty(BLOCKSOLID))) && (tmpTile = map->getTile(Position(
            destPos.x, destPos.y, destPos.z + 1))) && tmpTile->hasHeight(3)) //try go down
        {
            flags = flags | FLAG_IGNOREBLOCKITEM | FLAG_IGNOREBLOCKCREATURE;
            destPos.z++;
        }
    }

    ReturnValue ret = RET_NOTPOSSIBLE;
    if((toTile = map->getTile(destPos)))
        ret = internalMoveCreature(NULL, creature, fromTile, toTile, flags);

    if(ret == RET_NOERROR)
        return RET_NOERROR;

    Player* player = creature->getPlayer();
    if(!player)
        return ret;

    player->sendCancelMessage(ret);
    player->sendCancelWalk();
    return ret;
}

ReturnValue Game::internalMoveCreature(Creature* actor, Creature* creature, Cylinder* fromCylinder,
    Cylinder* toCylinder, uint32_t flags/* = 0*/, bool forceTeleport/* = false*/)
{
    //check if we can move the creature to the destination
    ReturnValue ret = toCylinder->__queryAdd(0, creature, 1, flags);
    if(ret != RET_NOERROR)
        return ret;

    fromCylinder->getTile()->moveCreature(actor, creature, toCylinder, forceTeleport);
    if(creature->getParent() != toCylinder)
        return RET_NOERROR;

    Item* toItem = NULL;
    Cylinder* subCylinder = NULL;

    int32_t n = 0, tmp = 0;
    while((subCylinder = toCylinder->__queryDestination(tmp, creature, &toItem, flags)) != toCylinder)
    {
        toCylinder->getTile()->moveCreature(actor, creature, subCylinder);
        if(creature->getParent() != subCylinder) //could happen if a script move the creature
             break;

        toCylinder = subCylinder;
        flags = 0;
        if(++n >= MAP_MAX_LAYERS) //to prevent infinite loop
            break;
    }

    return RET_NOERROR;
}

bool Game::playerMoveItem(uint32_t playerId, const Position& fromPos,
    uint16_t spriteId, int16_t fromStackpos, const Position& toPos, uint8_t count)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || player->hasFlag(PlayerFlag_CannotMoveItems))
        return false;

    if(!player->canDoAction())
    {
        uint32_t delay = player->getNextActionTime();
        SchedulerTask* task = createSchedulerTask(delay, boost::bind(&Game::playerMoveItem, this,
            playerId, fromPos, spriteId, fromStackpos, toPos, count));

        player->setNextActionTask(task);
        return false;
    }

    player->setNextActionTask(NULL);
    Cylinder* fromCylinder = internalGetCylinder(player, fromPos);

    uint8_t fromIndex = 0;
    if(fromPos.x == 0xFFFF)
    {
        if(fromPos.y & 0x40)
            fromIndex = static_cast<uint8_t>(fromPos.z);
        else
            fromIndex = static_cast<uint8_t>(fromPos.y);
    }
    else
        fromIndex = fromStackpos;

    Thing* thing = internalGetThing(player, fromPos, fromIndex, spriteId, STACKPOS_MOVE);
    if(!thing || !thing->getItem())
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Item* item = thing->getItem();
    Cylinder* toCylinder = internalGetCylinder(player, toPos);

    uint8_t toIndex = 0;
    if(toPos.x == 0xFFFF)
    {
        if(toPos.y & 0x40)
            toIndex = static_cast<uint8_t>(toPos.z);
        else
            toIndex = static_cast<uint8_t>(toPos.y);
    }

    if(!fromCylinder || !toCylinder || !item || item->getClientID() != spriteId)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    if(!player->hasCustomFlag(PlayerCustomFlag_CanPushAllItems) && (!item->isPushable() || (item->isLoadedFromMap() &&
        (item->getUniqueId() != 0 || (item->getActionId() != 0 && item->getContainer())))))
    {
        player->sendCancelMessage(RET_NOTMOVEABLE);
        return false;
    }

    const Position &mapToPos = toCylinder->getTile()->getPosition(), &playerPos = player->getPosition(),
        &mapFromPos = fromCylinder->getTile()->getPosition();
    if(playerPos.z > mapFromPos.z && !player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
    {
        player->sendCancelMessage(RET_FIRSTGOUPSTAIRS);
        return false;
    }

    if(playerPos.z < mapFromPos.z && !player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
    {
        player->sendCancelMessage(RET_FIRSTGODOWNSTAIRS);
        return false;
    }

    if(!Position::areInRange<1,1,0>(playerPos, mapFromPos) && !player->hasCustomFlag(PlayerCustomFlag_CanMoveFromFar))
    {
        //need to walk to the item first before using it
        std::list<Direction> listDir;
        if(getPathToEx(player, item->getPosition(), listDir, 0, 1, true, true))
        {
            Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                this, player->getID(), listDir)));
            SchedulerTask* task = createSchedulerTask(player->getStepDuration(),
                boost::bind(&Game::playerMoveItem, this, playerId, fromPos, spriteId, fromStackpos, toPos, count));

            player->setNextWalkActionTask(task);
            return true;
        }

        player->sendCancelMessage(RET_THEREISNOWAY);
        return false;
    }

    //hangable item specific code
    if(item->isHangable() && toCylinder->getTile()->hasProperty(SUPPORTHANGABLE))
    {
        //destination supports hangable objects so need to move there first
        if(toCylinder->getTile()->hasProperty(ISVERTICAL))
        {
            if(player->getPosition().x + 1 == mapToPos.x)
            {
                player->sendCancelMessage(RET_NOTPOSSIBLE);
                return false;
            }
        }
        else if(toCylinder->getTile()->hasProperty(ISHORIZONTAL))
        {
            if(player->getPosition().y + 1 == mapToPos.y)
            {
                player->sendCancelMessage(RET_NOTPOSSIBLE);
                return false;
            }
        }

        if(!Position::areInRange<1,1,0>(playerPos, mapToPos) && !player->hasCustomFlag(PlayerCustomFlag_CanMoveFromFar))
        {
            Position walkPos = mapToPos;
            if(toCylinder->getTile()->hasProperty(ISVERTICAL))
                walkPos.x -= -1;

            if(toCylinder->getTile()->hasProperty(ISHORIZONTAL))
                walkPos.y -= -1;

            Position itemPos = fromPos;
            int16_t itemStackpos = fromStackpos;
            if(fromPos.x != 0xFFFF && Position::areInRange<1,1,0>(mapFromPos, player->getPosition())
                && !Position::areInRange<1,1,0>(mapFromPos, walkPos))
            {
                //need to pickup the item first
                Item* moveItem = NULL;
                ReturnValue ret = internalMoveItem(player, fromCylinder, player, INDEX_WHEREEVER, item, count, &moveItem);
                if(ret != RET_NOERROR)
                {
                    player->sendCancelMessage(ret);
                    return false;
                }

                //changing the position since its now in the inventory of the player
                internalGetPosition(moveItem, itemPos, itemStackpos);
            }

            std::list<Direction> listDir;
            if(map->getPathTo(player, walkPos, listDir))
            {
                Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                    this, player->getID(), listDir)));
                SchedulerTask* task = createSchedulerTask(player->getStepDuration(),
                    boost::bind(&Game::playerMoveItem, this, playerId, itemPos, spriteId, itemStackpos, toPos, count));

                player->setNextWalkActionTask(task);
                return true;
            }

            player->sendCancelMessage(RET_THEREISNOWAY);
            return false;
        }
    }

    if(!player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
    {
        if((std::abs(playerPos.x - mapToPos.x) > item->getThrowRange()) ||
            (std::abs(playerPos.y - mapToPos.y) > item->getThrowRange()) ||
            (std::abs(mapFromPos.z - mapToPos.z) * 4 > item->getThrowRange()))
        {
            player->sendCancelMessage(RET_DESTINATIONOUTOFREACH);
            return false;
        }
    }

    if(!canThrowObjectTo(mapFromPos, mapToPos) && !player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
    {
        player->sendCancelMessage(RET_CANNOTTHROW);
        return false;
    }

    if(!g_creatureEvents->executeMoveItems(player, item, mapFromPos, mapToPos))
        return false;

    ReturnValue ret = internalMoveItem(player, fromCylinder, toCylinder, toIndex, item, count, NULL);
    if(ret == RET_NOERROR)
        return true;

    player->sendCancelMessage(ret);
    return false;
}

ReturnValue Game::internalMoveItem(Creature* actor, Cylinder* fromCylinder, Cylinder* toCylinder,
    int32_t index, Item* item, uint32_t count, Item** _moveItem, uint32_t flags /*= 0*/)
{
    if(!toCylinder)
        return RET_NOTPOSSIBLE;

    if(!item->getParent())
    {
        assert(fromCylinder == item->getParent());
        return internalAddItem(actor, toCylinder, item, INDEX_WHEREEVER, FLAG_NOLIMIT);
    }

    Item* toItem = NULL;
    Cylinder* subCylinder = NULL;

    int32_t floor = 0;
    while((subCylinder = toCylinder->__queryDestination(index, item, &toItem, flags)) != toCylinder)
    {
        toCylinder = subCylinder;
        flags = 0;
        //to prevent infinite loop
        if(++floor >= MAP_MAX_LAYERS)
            break;
    }

    //destination is the same as the source?
    if(item == toItem)
        return RET_NOERROR; //silently ignore move

    //check if we can add this item
    ReturnValue ret = toCylinder->__queryAdd(index, item, count, flags);
    if(ret == RET_NEEDEXCHANGE)
    {
        //check if we can add it to source cylinder
        int32_t fromIndex = fromCylinder->__getIndexOfThing(item);

        ret = fromCylinder->__queryAdd(fromIndex, toItem, toItem->getItemCount(), 0);
        if(ret == RET_NOERROR)
        {
            //check how much we can move
            uint32_t maxExchangeQueryCount = 0;
            ReturnValue retExchangeMaxCount = fromCylinder->__queryMaxCount(-1, toItem, toItem->getItemCount(), maxExchangeQueryCount, 0);

            if(retExchangeMaxCount != RET_NOERROR && maxExchangeQueryCount == 0)
                return retExchangeMaxCount;

            if((toCylinder->__queryRemove(toItem, toItem->getItemCount(), flags) == RET_NOERROR) && ret == RET_NOERROR)
            {
                int32_t oldToItemIndex = toCylinder->__getIndexOfThing(toItem);
                toCylinder->__removeThing(toItem, toItem->getItemCount());

                fromCylinder->__addThing(actor, toItem);
                if(oldToItemIndex != -1)
                    toCylinder->postRemoveNotification(actor, toItem, fromCylinder, oldToItemIndex, true);

                int32_t newToItemIndex = fromCylinder->__getIndexOfThing(toItem);
                if(newToItemIndex != -1)
                    fromCylinder->postAddNotification(actor, toItem, toCylinder, newToItemIndex);

                ret = toCylinder->__queryAdd(index, item, count, flags);
                toItem = NULL;
            }
        }
    }

    if(ret != RET_NOERROR)
        return ret;

    //check how much we can move
    uint32_t maxQueryCount = 0;
    ReturnValue retMaxCount = toCylinder->__queryMaxCount(index, item, count, maxQueryCount, flags);
    if(retMaxCount != RET_NOERROR && !maxQueryCount)
        return retMaxCount;

    uint32_t m = maxQueryCount, n = 0;
    if(item->isStackable())
        m = std::min((uint32_t)count, m);

    Item* moveItem = item;
    //check if we can remove this item
    ret = fromCylinder->__queryRemove(item, m, flags);
    if(ret != RET_NOERROR)
        return ret;

    //remove the item
    int32_t itemIndex = fromCylinder->__getIndexOfThing(item);
    fromCylinder->__removeThing(item, m);

    bool isCompleteRemoval = item->isRemoved();
    Item* updateItem = NULL;
    //update item(s)
    if(item->isStackable())
    {
        if(toItem && toItem->getID() == item->getID())
        {
            n = std::min((uint32_t)100 - toItem->getItemCount(), m);
            toCylinder->__updateThing(toItem, toItem->getID(), toItem->getItemCount() + n);
            updateItem = toItem;
        }

        if(m - n > 0)
            moveItem = Item::CreateItem(item->getID(), m - n);
        else
            moveItem = NULL;

        if(item->isRemoved())
            freeThing(item);
    }

    //add item
    if(moveItem /*m - n > 0*/)
        toCylinder->__addThing(actor, index, moveItem);

    if(itemIndex != -1)
        fromCylinder->postRemoveNotification(actor, item, toCylinder, itemIndex, isCompleteRemoval);

    if(moveItem)
    {
        int32_t moveItemIndex = toCylinder->__getIndexOfThing(moveItem);
        if(moveItemIndex != -1)
            toCylinder->postAddNotification(actor, moveItem, fromCylinder, moveItemIndex);
    }

    if(updateItem)
    {
        int32_t updateItemIndex = toCylinder->__getIndexOfThing(updateItem);
        if(updateItemIndex != -1)
            toCylinder->postAddNotification(actor, updateItem, fromCylinder, updateItemIndex);
    }

    if(_moveItem)
    {
        if(moveItem)
            *_moveItem = moveItem;
        else
            *_moveItem = item;
    }

    //we could not move all, inform the player
    if(item->isStackable() && maxQueryCount < count)
        return retMaxCount;

    return ret;
}

ReturnValue Game::internalAddItem(Creature* actor, Cylinder* toCylinder, Item* item, int32_t index /*= INDEX_WHEREEVER*/,
    uint32_t flags/* = 0*/, bool test/* = false*/)
{
    uint32_t remainderCount = 0;
    return internalAddItem(actor, toCylinder, item, index, flags, test, remainderCount);
}

ReturnValue Game::internalAddItem(Creature* actor, Cylinder* toCylinder, Item* item, int32_t index,
    uint32_t flags, bool test, uint32_t& remainderCount)
{
    Item* stackItem = NULL;
    return internalAddItem(actor, toCylinder, item, index, flags, test, remainderCount, &stackItem);
}

ReturnValue Game::internalAddItem(Creature* actor, Cylinder* toCylinder, Item* item, int32_t index,
    uint32_t flags, bool test, uint32_t& remainderCount, Item** stackItem)
{
    *stackItem = NULL;
    remainderCount = 0;
    if(!toCylinder || !item)
        return RET_NOTPOSSIBLE;

    Cylinder* destCylinder = toCylinder;
    toCylinder = toCylinder->__queryDestination(index, item, stackItem, flags);

    //check if we can add this item
    ReturnValue ret = toCylinder->__queryAdd(index, item, item->getItemCount(), flags);
    if(ret != RET_NOERROR)
        return ret;

    uint32_t maxQueryCount = 0;
    ret = destCylinder->__queryMaxCount(INDEX_WHEREEVER, item, item->getItemCount(), maxQueryCount, flags);
    if(ret != RET_NOERROR)
        return ret;

    if(test)
        return RET_NOERROR;

    Item* toItem = *stackItem;
    if(item->isStackable() && toItem)
    {
        uint32_t m = std::min((uint32_t)item->getItemCount(), maxQueryCount), n = 0;
        if(toItem->getID() == item->getID())
        {
            n = std::min((uint32_t)100 - toItem->getItemCount(), m);
            toCylinder->__updateThing(toItem, toItem->getID(), toItem->getItemCount() + n);
        }

        uint32_t count = m - n;
        if(count > 0)
        {
            if(item->getItemCount() != count)
            {
                Item* remainderItem = Item::CreateItem(item->getID(), count);
                if((ret = internalAddItem(NULL, destCylinder, remainderItem, INDEX_WHEREEVER, flags, false)) == RET_NOERROR)
                {
                    if(item->getParent() != VirtualCylinder::virtualCylinder)
                    {
                        item->onRemoved();
                        freeThing(item);
                    }

                    return RET_NOERROR;
                }

                delete remainderItem;
                remainderCount = count;
                return ret;
            }
        }
        else
        {
            if(item->getParent() != VirtualCylinder::virtualCylinder)
            {
                item->onRemoved();
                freeThing(item);
            }

            return RET_NOERROR;
        }
    }

    toCylinder->__addThing(NULL, index, item);
    int32_t itemIndex = toCylinder->__getIndexOfThing(item);
    if(itemIndex != -1)
        toCylinder->postAddNotification(actor, item, NULL, itemIndex);

    return RET_NOERROR;
}

ReturnValue Game::internalRemoveItem(Creature* actor, Item* item, int32_t count /*= -1*/, bool test /*= false*/, uint32_t flags /*= 0*/)
{
    Cylinder* cylinder = item->getParent();
    if(!cylinder)
        return RET_NOTPOSSIBLE;

    if(count == -1)
        count = item->getItemCount();

    //check if we can remove this item
    ReturnValue ret = cylinder->__queryRemove(item, count, flags | FLAG_IGNORENOTMOVEABLE);
    if(ret != RET_NOERROR)
        return ret;

    if(!item->canRemove())
        return RET_NOTPOSSIBLE;

    if(!test)
    {
        //remove the item
        int32_t index = cylinder->__getIndexOfThing(item);
        cylinder->__removeThing(item, count);

        cylinder->postRemoveNotification(actor, item, NULL, index, item->isRemoved());
        if(item->isRemoved())
            freeThing(item);
    }

    item->onRemoved();
    return RET_NOERROR;
}

ReturnValue Game::internalPlayerAddItem(Creature* actor, Player* player, Item* item,
    bool dropOnMap/* = true*/, slots_t slot/* = SLOT_WHEREEVER*/)
{
    Item* toItem = NULL;
    uint32_t remainderCount = 0, count = item->getItemCount();

    ReturnValue ret = internalAddItem(actor, player, item, (int32_t)slot, 0, false, remainderCount, &toItem);
    if(ret == RET_NOERROR)
        return RET_NOERROR;

    if(dropOnMap)
    {
        if(!remainderCount)
            return internalAddItem(actor, player->getTile(), item, (int32_t)slot, FLAG_NOLIMIT);

        Item* remainderItem = Item::CreateItem(item->getID(), remainderCount);
        ReturnValue remainderRet = internalAddItem(actor, player->getTile(), remainderItem, INDEX_WHEREEVER, FLAG_NOLIMIT);
        if(remainderRet == RET_NOERROR)
            return RET_NOERROR;

        delete remainderItem;
    }

    if(remainderCount && toItem)
        transformItem(toItem, toItem->getID(), (toItem->getItemCount() - (count - remainderCount)));

    return ret;
}
Item* Game::findItemOfType(Cylinder* cylinder, uint16_t itemId,
    bool depthSearch /*= true*/, int32_t subType /*= -1*/)
{
    if(!cylinder)
        return NULL;

    std::list<Container*> listContainer;
    Container* tmpContainer = NULL;

    Thing* thing = NULL;
    Item* item = NULL;
    for(int32_t i = cylinder->__getFirstIndex(); i < cylinder->__getLastIndex();)
    {
        if((thing = cylinder->__getThing(i)) && (item = thing->getItem()))
        {
            if(item->getID() == itemId && (subType == -1 || subType == item->getSubType()))
                return item;
            else
            {
                ++i;
                if(depthSearch && (tmpContainer = item->getContainer()))
                    listContainer.push_back(tmpContainer);
            }
        }
        else
            ++i;
    }

    while(listContainer.size() > 0)
    {
        Container* container = listContainer.front();
        listContainer.pop_front();
        for(int32_t i = 0; i < (int32_t)container->size();)
        {
            Item* item = container->getItem(i);
            if(item->getID() == itemId && (subType == -1 || subType == item->getSubType()))
                return item;
            else
            {
                ++i;
                if((tmpContainer = item->getContainer()))
                    listContainer.push_back(tmpContainer);
            }
        }
    }

    return NULL;
}

bool Game::removeItemOfType(Cylinder* cylinder, uint16_t itemId, int32_t count, int32_t subType /*= -1*/)
{
    if(!cylinder || ((int32_t)cylinder->__getItemTypeCount(itemId, subType) < count))
        return false;

    if(count <= 0)
        return true;

    std::list<Container*> listContainer;
    Container* tmpContainer = NULL;
    Item* item = NULL;

    Thing* thing = NULL;
    for(int32_t i = cylinder->__getFirstIndex(); i < cylinder->__getLastIndex() && count > 0;)
    {
        if((thing = cylinder->__getThing(i)) && (item = thing->getItem()))
        {
            if(item->getID() == itemId)
            {
                if(item->isStackable())
                {
                    if(item->getItemCount() > count)
                    {
                        internalRemoveItem(NULL, item, count);
                        count = 0;
                    }
                    else
                    {
                        count -= item->getItemCount();
                        internalRemoveItem(NULL, item);
                    }
                }
                else if(subType == -1 || subType == item->getSubType())
                {
                    --count;
                    internalRemoveItem(NULL, item);
                }
                else
                    ++i;
            }
            else
            {
                ++i;
                if((tmpContainer = item->getContainer()))
                    listContainer.push_back(tmpContainer);
            }
        }
        else
            ++i;
    }

    while(listContainer.size() > 0 && count > 0)
    {
        Container* container = listContainer.front();
        listContainer.pop_front();
        for(int32_t i = 0; i < (int32_t)container->size() && count > 0;)
        {
            Item* item = container->getItem(i);
            if(item->getID() == itemId)
            {
                if(item->isStackable())
                {
                    if(item->getItemCount() > count)
                    {
                        internalRemoveItem(NULL, item, count);
                        count = 0;
                    }
                    else
                    {
                        count-= item->getItemCount();
                        internalRemoveItem(NULL, item);
                    }
                }
                else if(subType == -1 || subType == item->getSubType())
                {
                    --count;
                    internalRemoveItem(NULL, item);
                }
                else
                    ++i;
            }
            else
            {
                ++i;
                if((tmpContainer = item->getContainer()))
                    listContainer.push_back(tmpContainer);
            }
        }
    }

    return (count == 0);
}

uint64_t Game::getMoney(const Cylinder* cylinder)
{
    if(!cylinder)
        return 0;

    std::list<Container*> listContainer;
    Container* tmpContainer = NULL;
    Item* item = NULL;

    Thing* thing = NULL;
    uint64_t moneyCount = 0;
    for(int32_t i = cylinder->__getFirstIndex(); i < cylinder->__getLastIndex(); ++i)
    {
        if(!(thing = cylinder->__getThing(i)) || !(item = thing->getItem()))
            continue;

        if((tmpContainer = item->getContainer()))
            listContainer.push_back(tmpContainer);
        else if(item->getWorth() != 0)
            moneyCount += item->getWorth();
    }

    while(listContainer.size() > 0)
    {
        Container* container = listContainer.front();
        listContainer.pop_front();
        for(ItemList::const_iterator it = container->getItems(); it != container->getEnd(); ++it)
        {
            item = *it;
            if((tmpContainer = item->getContainer()))
                listContainer.push_back(tmpContainer);
            else if(item->getWorth() != 0)
                moneyCount += item->getWorth();
        }
    }

    return moneyCount;
}

bool Game::removeMoney(Cylinder* cylinder, int64_t money, uint32_t flags /*= 0*/)
{
    if(!cylinder)
        return false;

    if(money <= 0)
        return true;

    typedef std::multimap<int32_t, Item*, std::less<int32_t> > MoneyMultiMap;
    MoneyMultiMap moneyMap;

    std::list<Container*> listContainer;
    Container* tmpContainer = NULL;

    Thing* thing = NULL;
    Item* item = NULL;

    int64_t moneyCount = 0;
    for(int32_t i = cylinder->__getFirstIndex(); i < cylinder->__getLastIndex() && money > 0; ++i)
    {
        if(!(thing = cylinder->__getThing(i)) || !(item = thing->getItem()))
            continue;

        if((tmpContainer = item->getContainer()))
            listContainer.push_back(tmpContainer);
        else if(item->getWorth() != 0)
        {
            moneyCount += item->getWorth();
            moneyMap.insert(std::make_pair(item->getWorth(), item));
        }
    }

    while(listContainer.size() > 0 && money > 0)
    {
        Container* container = listContainer.front();
        listContainer.pop_front();
        for(int32_t i = 0; i < (int32_t)container->size() && money > 0; i++)
        {
            Item* item = container->getItem(i);
            if((tmpContainer = item->getContainer()))
                listContainer.push_back(tmpContainer);
            else if(item->getWorth() != 0)
            {
                moneyCount += item->getWorth();
                moneyMap.insert(std::make_pair(item->getWorth(), item));
            }
        }
    }

    // Not enough money
    if(moneyCount < money)
        return false;

    for(MoneyMultiMap::iterator mit = moneyMap.begin(); mit != moneyMap.end() && money > 0; ++mit)
    {
        Item* item = mit->second;
        if(!item)
            continue;

        internalRemoveItem(NULL, item);
        if(mit->first > money)
        {
            // Remove a monetary value from an item
            addMoney(cylinder, (int64_t)(item->getWorth() - money), flags);
            money = 0;
        }
        else
            money -= mit->first;

        mit->second = NULL;
    }

    moneyMap.clear();
    return money == 0;
}

void Game::addMoney(Cylinder* cylinder, int64_t money, uint32_t flags /*= 0*/)
{
    IntegerMap moneyMap = Item::items.getMoneyMap();
    for(IntegerMap::reverse_iterator it = moneyMap.rbegin(); it != moneyMap.rend(); ++it)
    {
        int64_t tmp = money / it->first;
        money -= tmp * it->first;
        if(!tmp)
            continue;

        do
        {
            Item* remainItem = Item::CreateItem(it->second, std::min((int64_t)100, tmp));
            if(internalAddItem(NULL, cylinder, remainItem, INDEX_WHEREEVER, flags) != RET_NOERROR)
                internalAddItem(NULL, cylinder->getTile(), remainItem, INDEX_WHEREEVER, FLAG_NOLIMIT);

            tmp -= std::min((int64_t)100, tmp);
        }
        while(tmp > 0);
    }
}

Item* Game::transformItem(Item* item, uint16_t newId, int32_t newCount /*= -1*/)
{
    if(item->getID() == newId && (newCount == -1 || (newCount == item->getSubType() && newCount != 0)))
        return item;

    Cylinder* cylinder = item->getParent();
    if(!cylinder)
        return NULL;

    int32_t itemIndex = cylinder->__getIndexOfThing(item);
    if(itemIndex == -1)
    {
#ifdef __DEBUG__
        std::clog << "Error: transformItem, itemIndex == -1" << std::endl;
#endif
        return item;
    }

    if(!item->canTransform())
        return item;

    const ItemType& curType = Item::items[item->getID()];
    const ItemType& newType = Item::items[newId];
    if(curType.alwaysOnTop != newType.alwaysOnTop)
    {
        //This only occurs when you transform items on tiles from a downItem to a topItem (or vice versa)
        //Remove the old, and add the new
        ReturnValue ret = internalRemoveItem(NULL, item);
        if(ret != RET_NOERROR)
            return item;

        Item* newItem = NULL;
        if(newCount == -1)
            newItem = Item::CreateItem(newId);
        else
            newItem = Item::CreateItem(newId, newCount);

        if(!newItem)
            return NULL;

        newItem->copyAttributes(item);
        if(internalAddItem(NULL, cylinder, newItem, INDEX_WHEREEVER, FLAG_NOLIMIT) == RET_NOERROR)
            return newItem;

        delete newItem;
        return NULL;
    }

    if(curType.type == newType.type)
    {
        //Both items has the same type so we can safely change id/subtype
        if(!newCount && (item->isStackable() || (curType.charges > 0)))
        {
            if(!item->isStackable() && (!item->getDefaultDuration() || item->getDuration() <= 0))
            {
                int32_t tmpId = newId;
                if(curType.id == newType.id)
                    tmpId = curType.decayTo;

                if(tmpId != -1)
                {
                    item = transformItem(item, tmpId);
                    return item;
                }
            }

            internalRemoveItem(NULL, item);
            return NULL;
        }

        uint16_t itemId = item->getID();
        int32_t count = item->getSubType();

        cylinder->postRemoveNotification(NULL, item, cylinder, itemIndex, false);
        if(curType.id != newType.id)
        {
            itemId = newId;
            if(newType.group != curType.group)
                item->setDefaultSubtype();
        }

        if(newCount != -1 && newType.hasSubType())
            count = newCount;

        cylinder->__updateThing(item, itemId, count);
        cylinder->postAddNotification(NULL, item, cylinder, itemIndex);
        return item;
    }

    //Replacing the the old item with the new while maintaining the old position
    Item* newItem = NULL;
    if(newCount == -1)
        newItem = Item::CreateItem(newId);
    else
        newItem = Item::CreateItem(newId, newCount);

    if(!newItem)
    {
        #ifdef __DEBUG__
        std::clog << "Error: [Game::transformItem] Item of type " << item->getID() << " transforming into invalid type " << newId << std::endl;
        #endif
        return NULL;
    }

    cylinder->__replaceThing(itemIndex, newItem);
    cylinder->postAddNotification(NULL, newItem, cylinder, itemIndex);

    item->setParent(NULL);
    cylinder->postRemoveNotification(NULL, item, cylinder, itemIndex, true);

    freeThing(item);
    return newItem;
}

ReturnValue Game::internalTeleport(Thing* thing, const Position& newPos, bool forceTeleport, uint32_t flags/* = 0*/, bool fullTeleport/* = true*/)
{
    if(newPos == thing->getPosition())
        return RET_NOERROR;

    if(thing->isRemoved())
        return RET_NOTPOSSIBLE;

    if(Tile* toTile = map->getTile(newPos))
    {
        if(Creature* creature = thing->getCreature())
        {
            if(fullTeleport)
                return internalMoveCreature(NULL, creature, creature->getParent(), toTile, flags, forceTeleport);

            creature->getTile()->moveCreature(NULL, creature, toTile, forceTeleport);
            return RET_NOERROR;
        }

        if(Item* item = thing->getItem())
            return internalMoveItem(NULL, item->getParent(), toTile, INDEX_WHEREEVER, item, item->getItemCount(), NULL, flags);
    }

    return RET_NOTPOSSIBLE;
}

//Implementation of player invoked events
bool Game::playerMove(uint32_t playerId, Direction dir)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->setIdleTime(0);
    if(player->getNoMove())
    {
        player->sendCancelWalk();
        return false;
    }

    std::list<Direction> dirs;
    dirs.push_back(dir);
      
    if(!g_config.getBool(ConfigManager::PUSH_CRUZADO))
        player->setNextWalkActionTask(NULL);
   
    return player->startAutoWalk(dirs);
}

bool Game::playerBroadcastMessage(Player* player, SpeakClasses type, const std::string& text)
{
    if(!player->hasFlag(PlayerFlag_CanBroadcast) || type < SPEAK_CLASS_FIRST || type > SPEAK_CLASS_LAST)
        return false;

    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
        it->second->sendCreatureSay(player, type, text);

    //TODO: event handling - onCreatureSay
    std::clog << "> " << player->getName() << " broadcasted: \"" << text << "\"." << std::endl;
    return true;
}

bool Game::playerCreatePrivateChannel(uint32_t playerId, ProtocolGame* pg)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || !player->isPremium())
        return false;

    ChatChannel* channel = NULL;
    if(pg != NULL && pg->getIsCast())
    {
        channel = g_chat.getPrivateChannel(player);
        if(channel)
        {
            pg->publicSendCreatePrivateChannel(channel->getId(), channel->getName());
            return true;
        }
        else
            pg->publicSendMessage(player, SPEAK_PRIVATE, "The cast owner disabled communication.");

        return false;
    }
    else
    {
        channel = g_chat.createChannel(player, 0xFFFF);
        if(!channel || !channel->addUser(player))
            return false;
    }

    for(AutoList<ProtocolGame>::const_iterator it = Player::cSpectators.begin(); it != Player::cSpectators.end(); ++it) if(it->second->getPlayer() == player)
        it->second->publicSendMessage(player, SPEAK_PRIVATE, "The cast owner turned communication on.");

    player->sendCreatePrivateChannel(channel->getId(), channel->getName());
    return true;
}

bool Game::playerChannelInvite(uint32_t playerId, const std::string& name)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    PrivateChatChannel* channel = g_chat.getPrivateChannel(player);
    if(!channel)
        return false;

    Player* invitePlayer = getPlayerByName(name);
    if(!invitePlayer)
        return false;

    channel->invitePlayer(player, invitePlayer);
    return true;
}

bool Game::playerChannelExclude(uint32_t playerId, const std::string& name)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    PrivateChatChannel* channel = g_chat.getPrivateChannel(player);
    if(!channel)
        return false;

    Player* excludePlayer = getPlayerByName(name);
    if(!excludePlayer)
        return false;

    channel->excludePlayer(player, excludePlayer);
    return true;
}

bool Game::playerRequestChannels(uint32_t playerId, ProtocolGame* pg)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(pg != NULL && pg->getIsCast())
        pg->publicSendChannelsDialog();
    else
        player->sendChannelsDialog();
        
    return true;
}

bool Game::playerOpenChannel(uint32_t playerId, uint16_t channelId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    ChatChannel* channel = g_chat.addUserToChannel(player, channelId);
    if(!channel)
    {
        #ifdef __DEBUG_CHAT__
        std::clog << "Game::playerOpenChannel - failed adding user to channel." << std::endl;
        #endif
        return false;
    }

    if(channel->getId() != CHANNEL_RVR)
        player->sendChannel(channel->getId(), channel->getName());
    else
        player->sendRuleViolationsChannel(channel->getId());

    return true;
}

bool Game::playerCloseChannel(uint32_t playerId, uint16_t channelId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    ChatChannel* channel = g_chat.getPrivateChannel(player);
    if(channel && channel->getId() == channelId) {
        for(AutoList<ProtocolGame>::const_iterator it = Player::cSpectators.begin(); it != Player::cSpectators.end(); ++it) if(it->second->getPlayer() == player)
            it->second->publicSendMessage(player, SPEAK_PRIVATE, "The cast owner turned communication off.");
    }

    g_chat.removeUserFromChannel(player, channelId);
    return true;
}

bool Game::playerOpenPrivateChannel(uint32_t playerId, std::string& receiver)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(IOLoginData::getInstance()->playerExists(receiver))
        player->sendOpenPrivateChannel(receiver);
    else
        player->sendCancel("A player with this name does not exist.");

    return true;
}

bool Game::playerProcessRuleViolation(uint32_t playerId, const std::string& name)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(!player->hasFlag(PlayerFlag_CanAnswerRuleViolations))
        return false;

    Player* reporter = getPlayerByName(name);
    if(!reporter)
        return false;

    RuleViolationsMap::iterator it = ruleViolations.find(reporter->getID());
    if(it == ruleViolations.end())
        return false;

    RuleViolation& rvr = *it->second;
    if(!rvr.isOpen)
        return false;

    rvr.isOpen = false;
    rvr.gamemaster = player;
    if(ChatChannel* channel = g_chat.getChannelById(CHANNEL_RVR))
    {
        UsersMap tmpMap = channel->getUsers();
        for(UsersMap::iterator tit = tmpMap.begin(); tit != tmpMap.end(); ++tit)
            tit->second->sendRemoveReport(reporter->getName());
    }

    return true;
}

bool Game::playerCloseRuleViolation(uint32_t playerId, const std::string& name)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Player* reporter = getPlayerByName(name);
    if(!reporter)
        return false;

    return closeRuleViolation(reporter);
}

bool Game::playerCancelRuleViolation(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    return cancelRuleViolation(player);
}

bool Game::playerCloseNpcChannel(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    SpectatorVec list;
    SpectatorVec::iterator it;

    getSpectators(list, player->getPosition());
    Npc* npc = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((npc = (*it)->getNpc()))
            npc->onPlayerCloseChannel(player);
    }

    return true;
}

bool Game::playerReceivePing(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->receivePing();
    return true;
}

bool Game::playerAutoWalk(uint32_t playerId, std::list<Direction>& listDir)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->setIdleTime(0);
    if(player->hasCondition(CONDITION_GAMEMASTER, GAMEMASTER_TELEPORT))
    {
        Position pos = player->getPosition();
        for(std::list<Direction>::iterator it = listDir.begin(); it != listDir.end(); ++it)
            pos = getNextPosition((*it), pos);

        pos = getClosestFreeTile(player, pos, true, false);
        if(!pos.x || !pos.y)
        {
            player->sendCancelWalk();
            return false;
        }

        internalCreatureTurn(player, getDirectionTo(player->getPosition(), pos, false));
        internalTeleport(player, pos, true);
        return true;
    }

    player->setNextWalkTask(NULL);
    return player->startAutoWalk(listDir);
}

bool Game::playerStopAutoWalk(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->stopWalk();
    return true;
}

bool Game::playerUseItemEx(uint32_t playerId, const Position& fromPos, int16_t fromStackpos, uint16_t fromSpriteId,
    const Position& toPos, int16_t toStackpos, uint16_t toSpriteId, bool isHotkey)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(isHotkey && !g_config.getBool(ConfigManager::AIMBOT_HOTKEY_ENABLED))
        return false;

    Thing* thing = internalGetThing(player, fromPos, fromStackpos, fromSpriteId, STACKPOS_USEITEM);
    if(!thing)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Item* item = thing->getItem();
    if(!item || !item->isUseable())
    {
        player->sendCancelMessage(RET_CANNOTUSETHISOBJECT);
        return false;
    }

    Position walkToPos = fromPos;
    ReturnValue ret = g_actions->canUse(player, fromPos);
    if(ret == RET_NOERROR)
    {
        ret = g_actions->canUse(player, toPos, item);
        if(ret == RET_TOOFARAWAY)
            walkToPos = toPos;
    }

    if(ret != RET_NOERROR)
    {
        if(ret == RET_TOOFARAWAY)
        {
            Position itemPos = fromPos;
            int16_t itemStackpos = fromStackpos;
            if(fromPos.x != 0xFFFF && toPos.x != 0xFFFF && Position::areInRange<1,1,0>(fromPos,
                player->getPosition()) && !Position::areInRange<1,1,0>(fromPos, toPos))
            {
                Item* moveItem = NULL;
                ReturnValue retTmp = internalMoveItem(player, item->getParent(), player,
                    INDEX_WHEREEVER, item, item->getItemCount(), &moveItem);
                if(retTmp != RET_NOERROR)
                {
                    player->sendCancelMessage(retTmp);
                    return false;
                }

                //changing the position since its now in the inventory of the player
                internalGetPosition(moveItem, itemPos, itemStackpos);
            }

            std::list<Direction> listDir;
            if(getPathToEx(player, walkToPos, listDir, 0, 1, true, true, 10))
            {
                Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                    this, player->getID(), listDir)));

                SchedulerTask* task = createSchedulerTask(400, boost::bind(&Game::playerUseItemEx, this,
                    playerId, itemPos, itemStackpos, fromSpriteId, toPos, toStackpos, toSpriteId, isHotkey));

                player->setNextWalkActionTask(task);
                return true;
            }

            ret = RET_THEREISNOWAY;
        }

        player->sendCancelMessage(ret);
        return false;
    }

    if(isHotkey)
        showHotkeyUseMessage(player, item);

    if(!player->canDoAction())
    {
        uint32_t delay = player->getNextActionTime();
        SchedulerTask* task = createSchedulerTask(delay, boost::bind(&Game::playerUseItemEx, this,
            playerId, fromPos, fromStackpos, fromSpriteId, toPos, toStackpos, toSpriteId, isHotkey));

        player->setNextActionTask(task);
        return false;
    }

    player->setIdleTime(0);
    player->setNextActionTask(NULL);
    return g_actions->useItemEx(player, fromPos, toPos, toStackpos, item, isHotkey);
}

bool Game::playerUseItem(uint32_t playerId, const Position& pos, int16_t stackpos,
    uint8_t index, uint16_t spriteId, bool isHotkey)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(isHotkey && !g_config.getBool(ConfigManager::AIMBOT_HOTKEY_ENABLED))
        return false;

    Thing* thing = internalGetThing(player, pos, stackpos, spriteId, STACKPOS_USEITEM);
    if(!thing)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Item* item = thing->getItem();
    if(!item || item->isUseable())
    {
        player->sendCancelMessage(RET_CANNOTUSETHISOBJECT);
        return false;
    }

    ReturnValue ret = g_actions->canUse(player, pos);
    if(ret != RET_NOERROR)
    {
        if(ret == RET_TOOFARAWAY)
        {
            std::list<Direction> listDir;
            if(getPathToEx(player, pos, listDir, 0, 1, true, true))
            {
                Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                    this, player->getID(), listDir)));

                SchedulerTask* task = createSchedulerTask(400, boost::bind(&Game::playerUseItem, this,
                    playerId, pos, stackpos, index, spriteId, isHotkey));

                player->setNextWalkActionTask(task);
                return true;
            }

            ret = RET_THEREISNOWAY;
        }

        player->sendCancelMessage(ret);
        return false;
    }

    if(isHotkey)
        showHotkeyUseMessage(player, item);

    if(!player->canDoAction())
    {
        uint32_t delay = player->getNextActionTime();
        SchedulerTask* task = createSchedulerTask(delay, boost::bind(&Game::playerUseItem, this,
            playerId, pos, stackpos, index, spriteId, isHotkey));

        player->setNextActionTask(task);
        return false;
    }

    player->setIdleTime(0);
    player->setNextActionTask(NULL);
    return g_actions->useItem(player, pos, index, item);
}

bool Game::playerUseBattleWindow(uint32_t playerId, const Position& fromPos, int16_t fromStackpos,
    uint32_t creatureId, uint16_t spriteId, bool isHotkey)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Creature* creature = getCreatureByID(creatureId);
    if(!creature)
        return false;

    if(!Position::areInRange<7,5,0>(creature->getPosition(), player->getPosition()))
        return false;

    if(!g_config.getBool(ConfigManager::AIMBOT_HOTKEY_ENABLED) && (creature->getPlayer() || isHotkey))
    {
        player->sendCancelMessage(RET_DIRECTPLAYERSHOOT);
        return false;
    }

    Thing* thing = internalGetThing(player, fromPos, fromStackpos, spriteId, STACKPOS_USE);
    if(!thing)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Item* item = thing->getItem();
    if(!item || item->getClientID() != spriteId)
    {
        player->sendCancelMessage(RET_CANNOTUSETHISOBJECT);
        return false;
    }

    ReturnValue ret = g_actions->canUse(player, fromPos);
    if(ret != RET_NOERROR)
    {
        if(ret == RET_TOOFARAWAY)
        {
            std::list<Direction> listDir;
            if(getPathToEx(player, item->getPosition(), listDir, 0, 1, true, true))
            {
                Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                    this, player->getID(), listDir)));

                SchedulerTask* task = createSchedulerTask(400, boost::bind(&Game::playerUseBattleWindow, this,
                    playerId, fromPos, fromStackpos, creatureId, spriteId, isHotkey));

                player->setNextWalkActionTask(task);
                return true;
            }

            ret = RET_THEREISNOWAY;
        }

        player->sendCancelMessage(ret);
        return false;
    }

    if(isHotkey)
        showHotkeyUseMessage(player, item);

    if(!player->canDoAction())
    {
        uint32_t delay = player->getNextActionTime();
        SchedulerTask* task = createSchedulerTask(delay, boost::bind(&Game::playerUseBattleWindow, this,
            playerId, fromPos, fromStackpos, creatureId, spriteId, isHotkey));

        player->setNextActionTask(task);
        return false;
    }

    player->setIdleTime(0);
    player->setNextActionTask(NULL);
    return g_actions->useItemEx(player, fromPos, creature->getPosition(),
        creature->getParent()->__getIndexOfThing(creature), item, isHotkey, creatureId);
}

bool Game::playerCloseContainer(uint32_t playerId, uint8_t cid)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->closeContainer(cid);
    player->sendCloseContainer(cid);
    return true;
}

bool Game::playerMoveUpContainer(uint32_t playerId, uint8_t cid)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Container* container = player->getContainer(cid);
    if(!container)
        return false;

    Container* parentContainer = dynamic_cast<Container*>(container->getParent());
    if(!parentContainer)
        return false;

    player->addContainer(cid, parentContainer);
    player->sendContainer(cid, parentContainer, (dynamic_cast<const Container*>(parentContainer->getParent()) != NULL));
    return true;
}

bool Game::playerUpdateTile(uint32_t playerId, const Position& pos)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(!player->canSee(pos))
        return false;

    if(Tile* tile = getTile(pos))
        player->sendUpdateTile(tile, pos);

    return true;
}

bool Game::playerUpdateContainer(uint32_t playerId, uint8_t cid)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Container* container = player->getContainer(cid);
    if(!container)
        return false;

    player->sendContainer(cid, container, (dynamic_cast<const Container*>(container->getParent()) != NULL));
    return true;
}

bool Game::playerRotateItem(uint32_t playerId, const Position& pos, int16_t stackpos, const uint16_t spriteId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Thing* thing = internalGetThing(player, pos, stackpos);
    if(!thing)
        return false;

    Item* item = thing->getItem();
    if(!item || item->getClientID() != spriteId || !item->isRoteable() || (item->isLoadedFromMap() &&
        (item->getUniqueId() != 0 || (item->getActionId() != 0 && item->getContainer()))))
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    if(pos.x != 0xFFFF && !Position::areInRange<1,1,0>(pos, player->getPosition()))
    {
        std::list<Direction> listDir;
        if(getPathToEx(player, pos, listDir, 0, 1, true, true))
        {
            Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                this, player->getID(), listDir)));

            SchedulerTask* task = createSchedulerTask(400, boost::bind(&Game::playerRotateItem, this,
                playerId, pos, stackpos, spriteId));

            player->setNextWalkActionTask(task);
            return true;
        }

        player->sendCancelMessage(RET_THEREISNOWAY);
        return false;
    }

    uint16_t newId = Item::items[item->getID()].rotateTo;
    if(newId != 0)
        transformItem(item, newId);

    player->setIdleTime(0);
    return true;
}

bool Game::playerWriteItem(uint32_t playerId, uint32_t windowTextId, const std::string& text)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    uint16_t maxTextLength = 0;
    uint32_t internalWindowTextId = 0;

    Item* writeItem = player->getWriteItem(internalWindowTextId, maxTextLength);
    if(text.length() > maxTextLength || windowTextId != internalWindowTextId)
        return false;

    if(!writeItem || writeItem->isRemoved())
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Cylinder* topParent = writeItem->getTopParent();
    Player* owner = dynamic_cast<Player*>(topParent);
    if(owner && owner != player)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    if(!Position::areInRange<1,1,0>(writeItem->getPosition(), player->getPosition()))
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    bool deny = false;
    CreatureEventList textEditEvents = player->getCreatureEvents(CREATURE_EVENT_TEXTEDIT);
    for(CreatureEventList::iterator it = textEditEvents.begin(); it != textEditEvents.end(); ++it)
    {
        if(!(*it)->executeTextEdit(player, writeItem, text))
            deny = true;
    }

    if(deny)
        return false;

    if(!text.empty())
    {
        if(writeItem->getText() != text)
        {
            writeItem->setText(text);
            writeItem->setWriter(player->getName());
            writeItem->setDate(std::time(NULL));
        }
    }
    else
    {
        writeItem->resetText();
        writeItem->resetWriter();
        writeItem->resetDate();
    }

    uint16_t newId = Item::items[writeItem->getID()].writeOnceItemId;
    if(newId != 0)
        transformItem(writeItem, newId);

    player->setWriteItem(NULL);
    return true;
}

bool Game::playerUpdateHouseWindow(uint32_t playerId, uint8_t listId, uint32_t windowTextId, const std::string& text)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    uint32_t internalWindowTextId = 0;
    uint32_t internalListId = 0;

    House* house = player->getEditHouse(internalWindowTextId, internalListId);
    if(house && internalWindowTextId == windowTextId && listId == 0)
    {
        house->setAccessList(internalListId, text);
        player->setEditHouse(NULL);
    }

    return true;
}

bool Game::playerRequestTrade(uint32_t playerId, const Position& pos, int16_t stackpos,
    uint32_t tradePlayerId, uint16_t spriteId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Player* tradePartner = getPlayerByID(tradePlayerId);
    if(!tradePartner || tradePartner == player)
    {
        player->sendTextMessage(MSG_INFO_DESCR, "Sorry, not possible.");
        return false;
    }

    if(!Position::areInRange<2,2,0>(tradePartner->getPosition(), player->getPosition()))
    {
        std::stringstream ss;
        ss << tradePartner->getName() << " tells you to move closer.";
        player->sendTextMessage(MSG_INFO_DESCR, ss.str());
        return false;
    }

    if(!canThrowObjectTo(tradePartner->getPosition(), player->getPosition())
        && !player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
    {
        player->sendCancelMessage(RET_CREATUREISNOTREACHABLE);
        return false;
    }

    Item* tradeItem = dynamic_cast<Item*>(internalGetThing(player, pos, stackpos, spriteId, STACKPOS_USE));
    if(!tradeItem || tradeItem->getClientID() != spriteId || !tradeItem->isPickupable() || (tradeItem->isLoadedFromMap() &&
        (tradeItem->getUniqueId() != 0 || (tradeItem->getActionId() != 0 && tradeItem->getContainer()))))
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    if(player->getPosition().z > tradeItem->getPosition().z)
    {
        player->sendCancelMessage(RET_FIRSTGOUPSTAIRS);
        return false;
    }

    if(player->getPosition().z < tradeItem->getPosition().z)
    {
        player->sendCancelMessage(RET_FIRSTGODOWNSTAIRS);
        return false;
    }

    if(!Position::areInRange<1,1,0>(tradeItem->getPosition(), player->getPosition()))
    {
        std::list<Direction> listDir;
        if(getPathToEx(player, pos, listDir, 0, 1, true, true))
        {
            Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                this, player->getID(), listDir)));

            SchedulerTask* task = createSchedulerTask(400, boost::bind(&Game::playerRequestTrade, this,
                playerId, pos, stackpos, tradePlayerId, spriteId));

            player->setNextWalkActionTask(task);
            return true;
        }

        player->sendCancelMessage(RET_THEREISNOWAY);
        return false;
    }

    const Container* container = NULL;
    for(std::map<Item*, uint32_t>::const_iterator it = tradeItems.begin(); it != tradeItems.end(); it++)
    {
        if(tradeItem == it->first ||
            ((container = dynamic_cast<const Container*>(tradeItem)) && container->isHoldingItem(it->first)) ||
            ((container = dynamic_cast<const Container*>(it->first)) && container->isHoldingItem(tradeItem)))
        {
            player->sendTextMessage(MSG_INFO_DESCR, "This item is already being traded.");
            return false;
        }
    }

    Container* tradeContainer = tradeItem->getContainer();
    if(tradeContainer && tradeContainer->getItemHoldingCount() + 1 > 100)
    {
        player->sendTextMessage(MSG_INFO_DESCR, "You cannot trade more than 100 items.");
        return false;
    }

    bool deny = false;
    CreatureEventList tradeEvents = player->getCreatureEvents(CREATURE_EVENT_TRADE_REQUEST);
    for(CreatureEventList::iterator it = tradeEvents.begin(); it != tradeEvents.end(); ++it)
    {
        if(!(*it)->executeTradeRequest(player, tradePartner, tradeItem))
            deny = true;
    }

    if(deny)
        return false;

    return internalStartTrade(player, tradePartner, tradeItem);
}

bool Game::internalStartTrade(Player* player, Player* tradePartner, Item* tradeItem)
{
    if(player->tradeState != TRADE_NONE && !(player->tradeState == TRADE_ACKNOWLEDGE && player->tradePartner == tradePartner))
    {
        player->sendCancelMessage(RET_YOUAREALREADYTRADING);
        return false;
    }
    else if(tradePartner->tradeState != TRADE_NONE && tradePartner->tradePartner != player)
    {
        player->sendCancelMessage(RET_THISPLAYERISALREADYTRADING);
        return false;
    }

    player->tradePartner = tradePartner;
    player->tradeItem = tradeItem;
    player->tradeState = TRADE_INITIATED;

    tradeItem->addRef();
    tradeItems[tradeItem] = player->getID();

    player->sendTradeItemRequest(player, tradeItem, true);
    if(tradePartner->tradeState == TRADE_NONE)
    {
        char buffer[100];
        sprintf(buffer, "%s wants to trade with you", player->getName().c_str());
        tradePartner->sendTextMessage(MSG_INFO_DESCR, buffer);

        tradePartner->tradeState = TRADE_ACKNOWLEDGE;
        tradePartner->tradePartner = player;
    }
    else
    {
        Item* counterItem = tradePartner->tradeItem;
        player->sendTradeItemRequest(tradePartner, counterItem, false);
        tradePartner->sendTradeItemRequest(player, tradeItem, false);
    }

    return true;
}

bool Game::playerAcceptTrade(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || (player->getTradeState() != TRADE_ACKNOWLEDGE
        && player->getTradeState() != TRADE_INITIATED))
        return false;

    Player* tradePartner = player->tradePartner;
    if(!tradePartner)
        return false;

    if(!canThrowObjectTo(tradePartner->getPosition(), player->getPosition())
        && !player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
    {
        player->sendCancelMessage(RET_CREATUREISNOTREACHABLE);
        return false;
    }

    player->setTradeState(TRADE_ACCEPT);
    if(tradePartner->getTradeState() != TRADE_ACCEPT)
        return false;

    Item* tradeItem1 = player->tradeItem;
    Item* tradeItem2 = tradePartner->tradeItem;

    bool deny = false;
    CreatureEventList tradeEvents = player->getCreatureEvents(CREATURE_EVENT_TRADE_ACCEPT);
    for(CreatureEventList::iterator it = tradeEvents.begin(); it != tradeEvents.end(); ++it)
    {
        if(!(*it)->executeTradeAccept(player, tradePartner, tradeItem1, tradeItem2))
            deny = true;
    }

    if(deny)
        return false;

    player->setTradeState(TRADE_TRANSFER);
    tradePartner->setTradeState(TRADE_TRANSFER);

    std::map<Item*, uint32_t>::iterator it = tradeItems.find(tradeItem1);
    if(it != tradeItems.end())
    {
        freeThing(it->first);
        tradeItems.erase(it);
    }

    it = tradeItems.find(tradeItem2);
    if(it != tradeItems.end())
    {
        freeThing(it->first);
        tradeItems.erase(it);
    }

    ReturnValue ret1 = internalAddItem(player, tradePartner, tradeItem1, INDEX_WHEREEVER, 0, true);
    ReturnValue ret2 = internalAddItem(tradePartner, player, tradeItem2, INDEX_WHEREEVER, 0, true);

    bool success = false;
    if(ret1 == RET_NOERROR && ret2 == RET_NOERROR)
    {
        ret1 = internalRemoveItem(tradePartner, tradeItem1, tradeItem1->getItemCount(), true);
        ret2 = internalRemoveItem(player, tradeItem2, tradeItem2->getItemCount(), true);
        if(ret1 == RET_NOERROR && ret2 == RET_NOERROR)
        {
            Cylinder *cylinder1 = tradeItem1->getParent(), *cylinder2 = tradeItem2->getParent();
            internalMoveItem(player, cylinder1, tradePartner, INDEX_WHEREEVER, tradeItem1, tradeItem1->getItemCount(), NULL);
            internalMoveItem(tradePartner, cylinder2, player, INDEX_WHEREEVER, tradeItem2, tradeItem2->getItemCount(), NULL);

            tradeItem1->onTradeEvent(ON_TRADE_TRANSFER, tradePartner, player);
            tradeItem2->onTradeEvent(ON_TRADE_TRANSFER, player, tradePartner);
            success = true;
        }
    }

    if(!success)
    {
        std::string error;
        if(tradeItem2)
        {
            error = getTradeErrorDescription(ret1, tradeItem1);
            tradePartner->sendTextMessage(MSG_INFO_DESCR, error);
            tradeItem2->onTradeEvent(ON_TRADE_CANCEL, tradePartner, NULL);
        }

        if(tradeItem1)
        {
            error = getTradeErrorDescription(ret2, tradeItem2);
            player->sendTextMessage(MSG_INFO_DESCR, error);
            tradeItem1->onTradeEvent(ON_TRADE_CANCEL, player, NULL);
        }
    }

    player->setTradeState(TRADE_NONE);
    player->tradeItem = NULL;
    player->tradePartner = NULL;

    tradePartner->setTradeState(TRADE_NONE);
    tradePartner->tradeItem = NULL;
    tradePartner->tradePartner = NULL;

    player->sendTradeClose();
    tradePartner->sendTradeClose();
    IOLoginData::getInstance()->savePlayer(player);
    IOLoginData::getInstance()->savePlayer(tradePartner);
    return success;
}

std::string Game::getTradeErrorDescription(ReturnValue ret, Item* item)
{
    if(!item)
        return std::string();

    std::stringstream ss;
    if(ret == RET_NOTENOUGHCAPACITY)
    {
        ss << "You do not have enough capacity to carry";
        if(item->isStackable() && item->getItemCount() > 1)
            ss << " these objects.";
        else
            ss << " this object." ;

        ss << std::endl << " " << item->getWeightDescription();
    }
    else if(ret == RET_NOTENOUGHROOM || ret == RET_CONTAINERNOTENOUGHROOM)
    {
        ss << "You do not have enough room to carry";
        if(item->isStackable() && item->getItemCount() > 1)
            ss << " these objects.";
        else
            ss << " this object.";
    }
    else
        ss << "Trade could not be completed.";

    return ss.str().c_str();
}

bool Game::playerLookInTrade(uint32_t playerId, bool lookAtCounterOffer, int32_t index)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Player* tradePartner = player->tradePartner;
    if(!tradePartner)
        return false;

    Item* tradeItem = NULL;
    if(lookAtCounterOffer)
        tradeItem = tradePartner->getTradeItem();
    else
        tradeItem = player->getTradeItem();

    if(!tradeItem)
        return false;

    std::stringstream ss;
    ss << "You see ";

    int32_t lookDistance = std::max(std::abs(player->getPosition().x - tradeItem->getPosition().x),
        std::abs(player->getPosition().y - tradeItem->getPosition().y));
    if(!index)
    {
        ss << tradeItem->getDescription(lookDistance);
        if(player->hasCustomFlag(PlayerCustomFlag_CanSeeItemDetails))
        {
            ss << std::endl << "ItemID: [" << tradeItem->getID() << "]";
            if(tradeItem->getActionId() > 0)
                ss << ", ActionID: [" << tradeItem->getActionId() << "]";

            if(tradeItem->getUniqueId() > 0)
                ss << ", UniqueID: [" << tradeItem->getUniqueId() << "]";

            ss << ".";
            const ItemType& it = Item::items[tradeItem->getID()];
            if(it.transformEquipTo)
                ss << std::endl << "TransformTo (onEquip): [" << it.transformEquipTo << "]";
            else if(it.transformDeEquipTo)
                ss << std::endl << "TransformTo (onDeEquip): [" << it.transformDeEquipTo << "]";
            else if(it.decayTo != -1)
                ss << std::endl << "DecayTo: [" << it.decayTo << "]";
        }

        player->sendTextMessage(MSG_INFO_DESCR, ss.str());
        return false;
    }

    Container* tradeContainer = tradeItem->getContainer();
    if(!tradeContainer || index > (int32_t)tradeContainer->getItemHoldingCount())
        return false;

    std::list<const Container*> listContainer;
    listContainer.push_back(tradeContainer);

    ItemList::const_iterator it;
    Container* tmpContainer = NULL;
    while(listContainer.size() > 0)
    {
        const Container* container = listContainer.front();
        listContainer.pop_front();
        for(it = container->getItems(); it != container->getEnd(); ++it)
        {
            if((tmpContainer = (*it)->getContainer()))
                listContainer.push_back(tmpContainer);

            --index;
            if(index != 0)
                continue;

            ss << (*it)->getDescription(lookDistance);
            if(player->hasCustomFlag(PlayerCustomFlag_CanSeeItemDetails))
            {
                ss << std::endl << "ItemID: [" << (*it)->getID() << "]";
                if((*it)->getActionId() > 0)
                    ss << ", ActionID: [" << (*it)->getActionId() << "]";

                if((*it)->getUniqueId() > 0)
                    ss << ", UniqueID: [" << (*it)->getUniqueId() << "]";

                ss << ".";
                const ItemType& iit = Item::items[(*it)->getID()];
                if(iit.transformEquipTo)
                    ss << std::endl << "TransformTo: [" << iit.transformEquipTo << "] (onEquip).";
                else if(iit.transformDeEquipTo)
                    ss << std::endl << "TransformTo: [" << iit.transformDeEquipTo << "] (onDeEquip).";
                else if(iit.decayTo != -1)
                    ss << std::endl << "DecayTo: [" << iit.decayTo << "].";
            }

            player->sendTextMessage(MSG_INFO_DESCR, ss.str());
            return true;
        }
    }

    return false;
}

bool Game::playerCloseTrade(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    return internalCloseTrade(player);
}

bool Game::internalCloseTrade(Player* player)
{
    Player* tradePartner = player->tradePartner;
    if((tradePartner && tradePartner->getTradeState() == TRADE_TRANSFER) || player->getTradeState() == TRADE_TRANSFER)
    {
        std::clog << "[Warning - Game::internalCloseTrade] TradeState == TRADE_TRANSFER, " <<
            player->getName() << " " << player->getTradeState() << ", " <<
            tradePartner->getName() << " " << tradePartner->getTradeState() << std::endl;
        return true;
    }

    std::vector<Item*>::iterator it;
    if(player->getTradeItem())
    {
        std::map<Item*, uint32_t>::iterator it = tradeItems.find(player->getTradeItem());
        if(it != tradeItems.end())
        {
            freeThing(it->first);
            tradeItems.erase(it);
        }

        player->tradeItem->onTradeEvent(ON_TRADE_CANCEL, player, NULL);
        player->tradeItem = NULL;
    }

    player->setTradeState(TRADE_NONE);
    player->tradePartner = NULL;

    player->sendTextMessage(MSG_STATUS_SMALL, "Trade cancelled.");
    player->sendTradeClose();
    if(tradePartner)
    {
        if(tradePartner->getTradeItem())
        {
            std::map<Item*, uint32_t>::iterator it = tradeItems.find(tradePartner->getTradeItem());
            if(it != tradeItems.end())
            {
                freeThing(it->first);
                tradeItems.erase(it);
            }

            tradePartner->tradeItem->onTradeEvent(ON_TRADE_CANCEL, tradePartner, NULL);
            tradePartner->tradeItem = NULL;
        }

        tradePartner->setTradeState(TRADE_NONE);
        tradePartner->tradePartner = NULL;

        tradePartner->sendTextMessage(MSG_STATUS_SMALL, "Trade cancelled.");
        tradePartner->sendTradeClose();
    }

    return true;
}

bool Game::playerPurchaseItem(uint32_t playerId, uint16_t spriteId, uint8_t count, uint8_t amount,
    bool ignoreCap/* = false*/, bool inBackpacks/* = false*/)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(player->hasCondition(CONDITION_EXHAUST, EXHAUST_NPC))
    {
        player->sendCancelMessage(RET_YOUHAVETOWAIT);
        return false;
    }

    int32_t onBuy, onSell;
    Npc* merchant = player->getShopOwner(onBuy, onSell);
    if(!merchant)
        return false;

    const ItemType& it = Item::items.getItemIdByClientId(spriteId);
    if(!it.id)
        return false;

    uint8_t subType = count;
    if(it.isFluidContainer() && count < uint8_t(sizeof(reverseFluidMap) / sizeof(int8_t)))
        subType = reverseFluidMap[count];

    if(!player->canShopItem(it.id, subType, SHOPEVENT_BUY))
        return false;

    if(Condition* onBuyExhaust = Condition::createCondition(CONDITIONID_DEFAULT, CONDITION_EXHAUST, g_config.getNumber(ConfigManager::EXHAUST_ONBUY), 0, false, EXHAUST_NPC))
        player->addCondition(onBuyExhaust);

    merchant->onPlayerTrade(player, SHOPEVENT_BUY, onBuy, it.id, subType, amount, ignoreCap, inBackpacks);
    return true;
}

bool Game::playerSellItem(uint32_t playerId, uint16_t spriteId, uint8_t count, uint8_t amount)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(player->hasCondition(CONDITION_EXHAUST, EXHAUST_NPC))
    {
        player->sendCancelMessage(RET_YOUHAVETOWAIT);
        return false;
    }

    int32_t onBuy, onSell;
    Npc* merchant = player->getShopOwner(onBuy, onSell);
    if(!merchant)
        return false;

    const ItemType& it = Item::items.getItemIdByClientId(spriteId);
    if(!it.id)
        return false;

    uint8_t subType = count;
    if(it.isFluidContainer() && count < uint8_t(sizeof(reverseFluidMap) / sizeof(int8_t)))
        subType = reverseFluidMap[count];

    if(!player->canShopItem(it.id, subType, SHOPEVENT_SELL))
        return false;

    if(Condition* onSellExhaust = Condition::createCondition(CONDITIONID_DEFAULT, CONDITION_EXHAUST, g_config.getNumber(ConfigManager::EXHAUST_ONSELL), 0, false, EXHAUST_NPC))
        player->addCondition(onSellExhaust);

    merchant->onPlayerTrade(player, SHOPEVENT_SELL, onSell, it.id, subType, amount);
    return true;
}

bool Game::playerCloseShop(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(player == NULL || player->isRemoved())
        return false;

    player->closeShopWindow();
    return true;
}

bool Game::playerLookInShop(uint32_t playerId, uint16_t spriteId, uint8_t count)
{
    Player* player = getPlayerByID(playerId);
    if(player == NULL || player->isRemoved())
        return false;

    const ItemType& it = Item::items.getItemIdByClientId(spriteId);
    if(it.id == 0)
        return false;

    int32_t subType = count;
    if(it.isFluidContainer())
    {
        if(subType == 3) // FIXME: hack
            subType = 11;
        else if(count < uint8_t(sizeof(reverseFluidMap) / sizeof(int8_t)))
            subType = reverseFluidMap[count];
    }

    std::stringstream ss;
    ss << "You see " << Item::getDescription(it, 1, NULL, subType);
    if(player->hasCustomFlag(PlayerCustomFlag_CanSeeItemDetails))
        ss << std::endl << "ItemID: [" << it.id << "].";

    player->sendTextMessage(MSG_INFO_DESCR, ss.str());
    return true;
}

bool Game::playerLookAt(uint32_t playerId, const Position& pos, uint16_t spriteId, int16_t stackpos)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Thing* thing = internalGetThing(player, pos, stackpos, spriteId, STACKPOS_LOOK);
    if(!thing)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Position thingPos = pos;
    if(pos.x == 0xFFFF)
        thingPos = thing->getPosition();

    if(!player->canSee(thingPos))
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Position playerPos = player->getPosition();
    int32_t lookDistance = -1;
    if(thing != player)
    {
        lookDistance = std::max(std::abs(playerPos.x - thingPos.x), std::abs(playerPos.y - thingPos.y));
        if(playerPos.z != thingPos.z)
            lookDistance = lookDistance + 9 + 6;
    }

    bool deny = false;
    CreatureEventList lookEvents = player->getCreatureEvents(CREATURE_EVENT_LOOK);
    for(CreatureEventList::iterator it = lookEvents.begin(); it != lookEvents.end(); ++it)
    {
        if(!(*it)->executeLook(player, thing, thingPos, stackpos, lookDistance))
            deny = true;
    }

    if(deny)
        return false;

    std::stringstream ss;
    ss << "You see " << thing->getDescription(lookDistance);
    if(player->hasCustomFlag(PlayerCustomFlag_CanSeeItemDetails))
    {
        if(Item* item = thing->getItem())
        {
            ss << std::endl << "ItemID: [" << item->getID() << "]";
            if(item->getActionId() > 0)
                ss << ", ActionID: [" << item->getActionId() << "]";

            if(item->getUniqueId() > 0)
                ss << ", UniqueID: [" << item->getUniqueId() << "]";

            ss << ".";
            const ItemType& it = Item::items[item->getID()];
            if(it.transformEquipTo)
                ss << std::endl << "TransformTo: [" << it.transformEquipTo << "] (onEquip).";
            else if(it.transformDeEquipTo)
                ss << std::endl << "TransformTo: [" << it.transformDeEquipTo << "] (onDeEquip).";
            else if(it.decayTo != -1)
                ss << std::endl << "DecayTo: [" << it.decayTo << "].";
        }
    }

    if(player->hasCustomFlag(PlayerCustomFlag_CanSeeCreatureDetails))
    {
        if(const Creature* creature = thing->getCreature())
        {
            ss << std::endl << "Health: [" << creature->getHealth() << " / " << creature->getMaxHealth() << "]";
            if(creature->getMaxMana() > 0)
                ss << ", Mana: [" << creature->getMana() << " / " << creature->getMaxMana() << "]";

            ss << ".";
            if(const Player* destPlayer = creature->getPlayer())
            {
                ss << std::endl << "IP: " << convertIPAddress(destPlayer->getIP()) << ", Client: " << destPlayer->getClientVersion() << ".";
                if(destPlayer->isGhost())
                    ss << std::endl << "* Ghost mode *";
            }
        }
    }

    if(player->hasCustomFlag(PlayerCustomFlag_CanSeePosition))
        ss << std::endl << "Position: [X: " << thingPos.x << "] [Y: " << thingPos.y << "] [Z: " << thingPos.z << "].";

    player->sendTextMessage(MSG_INFO_DESCR, ss.str());
    return true;
}

bool Game::playerQuests(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->sendQuests();
    return true;
}

bool Game::playerQuestInfo(uint32_t playerId, uint16_t questId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Quest* quest = Quests::getInstance()->getQuestById(questId);
    if(!quest)
        return false;

    player->sendQuestInfo(quest);
    return true;
}

bool Game::playerCancelAttackAndFollow(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    playerSetAttackedCreature(playerId, 0);
    playerFollowCreature(playerId, 0);

    player->stopWalk();
    return true;
}

bool Game::playerSetAttackedCreature(uint32_t playerId, uint32_t creatureId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(player->getAttackedCreature() && !creatureId)
    {
        player->setAttackedCreature(NULL);
        player->sendCancelTarget();
        return true;
    }

    Creature* attackCreature = getCreatureByID(creatureId);
    if(!attackCreature)
    {
        player->setAttackedCreature(NULL);
        player->sendCancelTarget();
        return false;
    }

    ReturnValue ret = Combat::canTargetCreature(player, attackCreature);
    if(ret != RET_NOERROR)
    {
        player->sendCancelMessage(ret);
        player->sendCancelTarget();
        player->setAttackedCreature(NULL);
        return false;
    }

    player->setAttackedCreature(attackCreature);
    Dispatcher::getInstance().addTask(createTask(boost::bind(
        &Game::updateCreatureWalk, this, player->getID())));
    return true;
}

bool Game::playerFollowCreature(uint32_t playerId, uint32_t creatureId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Creature* followCreature = NULL;
    if(creatureId)
        followCreature = getCreatureByID(creatureId);

    player->setAttackedCreature(NULL);
    Dispatcher::getInstance().addTask(createTask(boost::bind(
        &Game::updateCreatureWalk, this, player->getID())));
    return player->setFollowCreature(followCreature);
}

bool Game::playerSetFightModes(uint32_t playerId, fightMode_t fightMode, chaseMode_t chaseMode, secureMode_t secureMode)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->setFightMode(fightMode);
    player->setChaseMode(chaseMode);
    player->setSecureMode(secureMode);

    return true;
}

bool Game::playerRequestAddVip(uint32_t playerId, const std::string& vipName)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    uint32_t guid;
    bool specialVip;

    std::string name = vipName;
    if(!IOLoginData::getInstance()->getGuidByNameEx(guid, specialVip, name))
    {
        player->sendTextMessage(MSG_STATUS_SMALL, "A player with that name does not exist.");
        return false;
    }

    if(specialVip && !player->hasFlag(PlayerFlag_SpecialVIP))
    {
        player->sendTextMessage(MSG_STATUS_SMALL, "You cannot add this player.");
        return false;
    }

    bool online = false;
    if(Player* target = getPlayerByName(name))
        online = player->canSeeCreature(target);

    return player->addVIP(guid, name, online);
}

bool Game::playerRequestRemoveVip(uint32_t playerId, uint32_t guid)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->removeVIP(guid);
    return true;
}

bool Game::playerTurn(uint32_t playerId, Direction dir)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(internalCreatureTurn(player, dir))
    {
        player->setIdleTime(0);
        return true;
    }

    if(player->getDirection() != dir || !player->hasCustomFlag(PlayerCustomFlag_CanTurnhop))
        return false;

    Position pos = getNextPosition(dir, player->getPosition());
    Tile* tile = map->getTile(pos);
    if(!tile || !tile->ground)
        return false;

    player->setIdleTime(0);
    ReturnValue ret = tile->__queryAdd(0, player, 1, FLAG_IGNOREBLOCKITEM);
    if(ret != RET_NOTENOUGHROOM && (ret != RET_NOTPOSSIBLE || player->hasCustomFlag(PlayerCustomFlag_CanMoveAnywhere))
        && (ret != RET_PLAYERISNOTINVITED || player->hasFlag(PlayerFlag_CanEditHouses)))
        return internalTeleport(player, pos, false, FLAG_NOLIMIT, false);

    player->sendCancelMessage(ret);
    return false;
}

bool Game::playerRequestOutfit(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(player->hasCondition(CONDITION_EXHAUST, EXHAUST_OUTFIT))
    {
        player->sendCancelMessage(RET_YOUHAVETOWAIT);
        return false;
    }

    if(Condition* changeOutfitExhaust = Condition::createCondition(CONDITIONID_DEFAULT, CONDITION_EXHAUST, g_config.getNumber(ConfigManager::EXHAUST_CHANGEOUFIT), 0, false, EXHAUST_OUTFIT))
        player->addCondition(changeOutfitExhaust);

    player->sendOutfitWindow();
    return true;
}

bool Game::playerChangeOutfit(uint32_t playerId, Outfit_t outfit)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(!player->changeOutfit(outfit, true))
        return false;

    player->setIdleTime(0);
    if(!player->hasCondition(CONDITION_OUTFIT, -1))
        internalCreatureChangeOutfit(player, outfit);

    return true;
}

bool Game::playerSay(uint32_t playerId, uint16_t channelId, SpeakClasses type, const std::string& receiver, const std::string& text, ProtocolGame* pg)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if (pg != NULL && pg->getIsCast() && !player->isAccountManager())
    {
        if(player->hasCondition(CONDITION_EXHAUST, 64597))
            return false;

        if(Condition* conditionchannel = Condition::createCondition(CONDITIONID_DEFAULT, CONDITION_EXHAUST, 2000, 0, false, 64597))
            player->addCondition(conditionchannel);

        if(g_talkActions->onPlayerSay(player, type == SPEAK_SAY ? (unsigned)CHANNEL_DEFAULT : channelId, text, false, pg))
            return true;

        PlayerCast pc = player->getCast();
        for(std::list<CastBan>::iterator it = pc.muted.begin(); it != pc.muted.end(); ++it)
            if(it->ip == pg->getIP())
            {
                pg->publicSendMessage(player, SPEAK_PRIVATE, "You are muted on this cast.");
                return false;
            }

        if(playerTalkToChannel(player, type, text, channelId, pg))
            return true;
        else
            return false;
    }

    uint32_t muted = 0;
    bool mute = player->isMuted(channelId, type, muted);
    if(muted && mute)
    {
        char buffer[75];
        sprintf(buffer, "You are still muted for %d seconds.", muted);
        player->sendTextMessage(MSG_STATUS_SMALL, buffer);
        return false;
    }

    std::string _text = asLowerCaseString(text);
    for(uint8_t i = 0; i < _text.length(); i++)
    {
        char t = _text[i];
        if(t != '-' && t != '.' && !(t >= 'a' && t <= 'z'))
        {
            _text.erase(i, 1);
            i--;
        }
    }

    const char *strings[] = {"servegame", "no-ip", ".net", ".com", ".org", "biz", ".br", "sytes", ".info", ".online"};
    int i, stringSize;
    stringSize = sizeof(strings) / sizeof(strings[0]);
    for (i = 0; i < stringSize; i++)
    {
        if(int(_text.find(strings[i])) > 0 || _text == strings[i])
        {
            player->sendTextMessage(MSG_STATUS_SMALL, "You can't send this message, forbidden words.");
            return false;
        }
    }

    if(player->isAccountManager())
    {
        if(mute)
            player->removeMessageBuffer();

        return internalCreatureSay(player, SPEAK_SAY, text, false);
    }

    if(g_talkActions->onPlayerSay(player, type == SPEAK_SAY ? (unsigned)CHANNEL_DEFAULT : channelId, text, false))
        return true;

    ReturnValue ret = RET_CANONLYUSEONEWEAPON;
    if(!muted)
    {
        ret = g_spells->onPlayerSay(player, text);
        if(ret == RET_NOERROR || (ret == RET_NEEDEXCHANGE && !g_config.getBool(ConfigManager::BUFFER_SPELL_FAILURE)))
            return true;
    }

    if(mute)
        player->removeMessageBuffer();

    if(ret == RET_NEEDEXCHANGE)
        return true;

    switch(type)
    {
        case SPEAK_SAY:
            return internalCreatureSay(player, SPEAK_SAY, text, false);
        case SPEAK_WHISPER:
            return playerWhisper(player, text);
        case SPEAK_YELL:
            return playerYell(player, text);
        case SPEAK_PRIVATE:
        case SPEAK_PRIVATE_RED:
        case SPEAK_RVR_ANSWER:
            return playerSpeakTo(player, type, receiver, text);
        case SPEAK_CHANNEL_O:
        case SPEAK_CHANNEL_Y:
        case SPEAK_CHANNEL_RN:
        case SPEAK_CHANNEL_RA:
        case SPEAK_CHANNEL_W:
        {
            if(playerTalkToChannel(player, type, text, channelId))
                return true;

            return playerSay(playerId, 0, SPEAK_SAY, receiver, text);
        }
        case SPEAK_PRIVATE_PN:
            return playerSpeakToNpc(player, text);
        case SPEAK_BROADCAST:
            return playerBroadcastMessage(player, SPEAK_BROADCAST, text);
        case SPEAK_RVR_CHANNEL:
            return playerReportRuleViolation(player, text);
        case SPEAK_RVR_CONTINUE:
            return playerContinueReport(player, text);

        default:
            break;
    }

    return false;
}

bool Game::playerWhisper(Player* player, const std::string& text)
{
    SpectatorVec list;
    SpectatorVec::const_iterator it;
    getSpectators(list, player->getPosition(), false, false,
        Map::maxClientViewportX, Map::maxClientViewportX,
        Map::maxClientViewportY, Map::maxClientViewportY);

    //send to client
    Player* tmpPlayer = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureSay(player, SPEAK_WHISPER, text);
    }

    //event method
    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureSay(player, SPEAK_WHISPER, text);

    return true;
}

bool Game::playerYell(Player* player, const std::string& text)
{
    if(player->getLevel() <= 1 && !player->hasFlag(PlayerFlag_CannotBeMuted))
    {
        player->sendTextMessage(MSG_STATUS_SMALL, "You may not yell as long as you are on level 1.");
        return true;
    }

    if(player->hasCondition(CONDITION_MUTED, 1))
    {
        player->sendCancelMessage(RET_YOUAREEXHAUSTED);
        return true;
    }

    if(!player->hasFlag(PlayerFlag_CannotBeMuted))
    {
        if(Condition* condition = Condition::createCondition(CONDITIONID_DEFAULT, CONDITION_MUTED, 30000, 0, false, 1))
            player->addCondition(condition);
    }

    internalCreatureSay(player, SPEAK_YELL, asUpperCaseString(text), false);
    return true;
}

bool Game::playerSpeakTo(Player* player, SpeakClasses type, const std::string& receiver,
    const std::string& text)
{
    Player* toPlayer = getPlayerByName(receiver);
    if(!toPlayer || toPlayer->isRemoved())
    {
        player->sendTextMessage(MSG_STATUS_SMALL, "A player with this name is not online.");
        return false;
    }

    bool canSee = player->canSeeCreature(toPlayer);
    if(toPlayer->hasCondition(CONDITION_GAMEMASTER, GAMEMASTER_IGNORE)
        && !player->hasFlag(PlayerFlag_CannotBeMuted))
    {
        char buffer[70];
        if(!canSee)
            sprintf(buffer, "A player with this name is not online.");
        else
            sprintf(buffer, "Sorry, %s is currently ignoring private messages.", toPlayer->getName().c_str());

        player->sendTextMessage(MSG_STATUS_SMALL, buffer);
        return false;
    }

    if(type == SPEAK_PRIVATE_RED && !player->hasFlag(PlayerFlag_CanTalkRedPrivate))
        type = SPEAK_PRIVATE;

    toPlayer->sendCreatureSay(player, type, text);
    toPlayer->onCreatureSay(player, type, text);
    if(!canSee)
    {
        player->sendTextMessage(MSG_STATUS_SMALL, "A player with this name is not online.");
        return false;
    }

    char buffer[80];
    sprintf(buffer, "Message sent to %s.", toPlayer->getName().c_str());
    player->sendTextMessage(MSG_STATUS_SMALL, buffer);
    return true;
}

bool Game::playerTalkToChannel(Player* player, SpeakClasses type, const std::string& text, uint16_t channelId, ProtocolGame* pg)
{
    switch(type)
    {
        case SPEAK_CHANNEL_Y:
        {
            if(channelId == CHANNEL_HELP && player->hasFlag(PlayerFlag_TalkOrangeHelpChannel))
                type = SPEAK_CHANNEL_O;
                
            if(g_chat.getPrivateChannel(player) != NULL && channelId == g_chat.getPrivateChannel(player)->getId() && (pg == NULL || (pg != NULL && !pg->getIsCast())))
                type = SPEAK_CHANNEL_O;
                
            break;
        }

        case SPEAK_CHANNEL_O:
        {
            if(channelId != CHANNEL_HELP || !player->hasFlag(PlayerFlag_TalkOrangeHelpChannel))
                type = SPEAK_CHANNEL_Y;
            break;
        }

        case SPEAK_CHANNEL_RN:
        {
            if(!player->hasFlag(PlayerFlag_CanTalkRedChannel))
                type = SPEAK_CHANNEL_Y;
            break;
        }

        case SPEAK_CHANNEL_RA:
        {
            if(!player->hasFlag(PlayerFlag_CanTalkRedChannelAnonymous))
                type = SPEAK_CHANNEL_Y;
            break;
        }

        default:
            break;
    }

    return g_chat.talkToChannel(player, type, text, channelId, pg);
}

bool Game::playerSpeakToNpc(Player* player, const std::string& text)
{
    SpectatorVec list;
    SpectatorVec::iterator it;
    getSpectators(list, player->getPosition());

    //send to npcs only
    Npc* tmpNpc = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpNpc = (*it)->getNpc()))
            (*it)->onCreatureSay(player, SPEAK_PRIVATE_PN, text);
    }
    return true;
}

bool Game::playerReportRuleViolation(Player* player, const std::string& text)
{
    //Do not allow reports on multiclones worlds since reports are name-based
    if(g_config.getNumber(ConfigManager::ALLOW_CLONES))
    {
        player->sendTextMessage(MSG_INFO_DESCR, "Rule violation reports are disabled.");
        return false;
    }

    cancelRuleViolation(player);
    boost::shared_ptr<RuleViolation> rvr(new RuleViolation(player, text, time(NULL)));
    ruleViolations[player->getID()] = rvr;

    ChatChannel* channel = g_chat.getChannelById(CHANNEL_RVR);
    if(!channel)
        return false;

    for(UsersMap::const_iterator it = channel->getUsers().begin(); it != channel->getUsers().end(); ++it)
        it->second->sendToChannel(player, SPEAK_RVR_CHANNEL, text, CHANNEL_RVR, rvr->time);

    return true;
}

bool Game::playerContinueReport(Player* player, const std::string& text)
{
    RuleViolationsMap::iterator it = ruleViolations.find(player->getID());
    if(it == ruleViolations.end())
        return false;

    RuleViolation& rvr = *it->second;
    Player* toPlayer = rvr.gamemaster;
    if(!toPlayer)
        return false;

    toPlayer->sendCreatureSay(player, SPEAK_RVR_CONTINUE, text);
    player->sendTextMessage(MSG_STATUS_SMALL, "Message sent to Gamemaster.");
    return true;
}

bool Game::canThrowObjectTo(const Position& fromPos, const Position& toPos, bool checkLineOfSight /*= true*/,
    int32_t rangex/* = Map::maxClientViewportX*/, int32_t rangey/* = Map::maxClientViewportY*/)
{
    return map->canThrowObjectTo(fromPos, toPos, checkLineOfSight, rangex, rangey);
}

bool Game::isSightClear(const Position& fromPos, const Position& toPos, bool floorCheck)
{
    return map->isSightClear(fromPos, toPos, floorCheck);
}

bool Game::internalCreatureTurn(Creature* creature, Direction dir)
{
    bool deny = false;
    CreatureEventList directionEvents = creature->getCreatureEvents(CREATURE_EVENT_DIRECTION);
    for(CreatureEventList::iterator it = directionEvents.begin(); it != directionEvents.end(); ++it)
    {
        if(!(*it)->executeDirection(creature, creature->getDirection(), dir) && !deny)
            deny = true;
    }

    if(deny || creature->getDirection() == dir)
        return false;

    creature->setDirection(dir);
    const SpectatorVec& list = getSpectators(creature->getPosition());
    SpectatorVec::const_iterator it;

    //send to client
    Player* tmpPlayer = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureTurn(creature);
    }

    //event method
    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureTurn(creature);

    return true;
}

bool Game::internalCreatureSay(Creature* creature, SpeakClasses type, const std::string& text,
    bool ghostMode, SpectatorVec* spectators/* = NULL*/, Position* pos/* = NULL*/)
{
    Player* player = creature->getPlayer();
    if(player && player->isAccountManager())
    {
        player->manageAccount(text);
        return true;
    }

    Position destPos = creature->getPosition();
    if(pos)
        destPos = (*pos);

    SpectatorVec list;
    SpectatorVec::const_iterator it;
    if(!spectators || !spectators->size())
    {
        // This somewhat complex construct ensures that the cached SpectatorVec
        // is used if available and if it can be used, else a local vector is
        // used (hopefully the compiler will optimize away the construction of
        // the temporary when it's not used).
        if(type != SPEAK_YELL && type != SPEAK_MONSTER_YELL)
            getSpectators(list, destPos, false, false,
                Map::maxClientViewportX, Map::maxClientViewportX,
                Map::maxClientViewportY, Map::maxClientViewportY);
        else
            getSpectators(list, destPos, false, true, 18, 18, 14, 14);
    }
    else
        list = (*spectators);

    //send to client
    Player* tmpPlayer = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if(!(tmpPlayer = (*it)->getPlayer()))
            continue;

        if(!ghostMode || tmpPlayer->canSeeCreature(creature))
            tmpPlayer->sendCreatureSay(creature, type, text, &destPos);
    }

    //event method
    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureSay(creature, type, text, &destPos);

    return true;
}

bool Game::getPathTo(const Creature* creature, const Position& destPos,
    std::list<Direction>& listDir, int32_t maxSearchDist /*= -1*/)
{
    return map->getPathTo(creature, destPos, listDir, maxSearchDist);
}

bool Game::getPathToEx(const Creature* creature, const Position& targetPos,
    std::list<Direction>& dirList, const FindPathParams& fpp)
{
    return map->getPathMatching(creature, dirList, FrozenPathingConditionCall(targetPos), fpp);
}

bool Game::getPathToEx(const Creature* creature, const Position& targetPos, std::list<Direction>& dirList,
    uint32_t minTargetDist, uint32_t maxTargetDist, bool fullPathSearch /*= true*/,
    bool clearSight /*= true*/, int32_t maxSearchDist /*= -1*/)
{
    FindPathParams fpp;
    fpp.fullPathSearch = fullPathSearch;
    fpp.maxSearchDist = maxSearchDist;
    fpp.clearSight = clearSight;
    fpp.minTargetDist = minTargetDist;
    fpp.maxTargetDist = maxTargetDist;
    return getPathToEx(creature, targetPos, dirList, fpp);
}

void Game::checkCreatureWalk(uint32_t creatureId)
{
    Creature* creature = getCreatureByID(creatureId);
    if(!creature || creature->getHealth() < 1)
        return;

    creature->onWalk();
    cleanup();
}

void Game::updateCreatureWalk(uint32_t creatureId)
{
    Creature* creature = getCreatureByID(creatureId);
    if(creature && creature->getHealth() > 0)
        creature->goToFollowCreature();
}

void Game::checkCreatureAttack(uint32_t creatureId)
{
    Creature* creature = getCreatureByID(creatureId);
    if(creature && creature->getHealth() > 0)
        creature->onAttacking(0);
}

void Game::addCreatureCheck(Creature* creature)
{
    if(creature->isRemoved())
        return;

    creature->checked = true;
    if(creature->checkVector >= 0) //already in a vector, or about to be added
        return;

    toAddCheckCreatureVector.push_back(creature);
    creature->checkVector = random_range(0, EVENT_CREATURECOUNT - 1);
    creature->addRef();
}

void Game::removeCreatureCheck(Creature* creature)
{
    if(creature->checkVector == -1) //not in any vector
        return;

    creature->checked = false;
}

void Game::checkCreatures()
{
    Scheduler::getInstance().addEvent(createSchedulerTask(
        EVENT_CHECK_CREATURE_INTERVAL, boost::bind(&Game::checkCreatures, this)));
    checkCreatureLastIndex++;
    if(checkCreatureLastIndex == EVENT_CREATURECOUNT)
        checkCreatureLastIndex = 0;

    std::vector<Creature*>::iterator it;
    for(it = toAddCheckCreatureVector.begin(); it != toAddCheckCreatureVector.end(); ++it)
        checkCreatureVectors[(*it)->checkVector].push_back(*it);

    toAddCheckCreatureVector.clear();
    std::vector<Creature*>& checkCreatureVector = checkCreatureVectors[checkCreatureLastIndex];
    for(it = checkCreatureVector.begin(); it != checkCreatureVector.end();)
    {
        if((*it)->checked)
        {
            if((*it)->getHealth() > 0 || !(*it)->onDeath())
                (*it)->onThink(EVENT_CREATURE_THINK_INTERVAL);

            ++it;
        }
        else
        {
            (*it)->checkVector = -1;
            freeThing(*it);
            it = checkCreatureVector.erase(it);
        }
    }

    cleanup();
}

void Game::changeSpeed(Creature* creature, int32_t varSpeedDelta)
{
    int32_t varSpeed = creature->getSpeed() - creature->getBaseSpeed();
    varSpeed += varSpeedDelta;
    creature->setSpeed(varSpeed);

    const SpectatorVec& list = getSpectators(creature->getPosition());
    SpectatorVec::const_iterator it;

    //send to client
    Player* tmpPlayer = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendChangeSpeed(creature, creature->getStepSpeed());
    }
}

void Game::internalCreatureChangeOutfit(Creature* creature, const Outfit_t& outfit, bool forced/* = false*/)
{
    if(!forced)
    {
        bool deny = false;
        CreatureEventList outfitEvents = creature->getCreatureEvents(CREATURE_EVENT_OUTFIT);
        for(CreatureEventList::iterator it = outfitEvents.begin(); it != outfitEvents.end(); ++it)
        {
            if(!(*it)->executeOutfit(creature, creature->getCurrentOutfit(), outfit) && !deny)
                deny = true;
        }

        if(deny || creature->getCurrentOutfit() == outfit)
            return;
    }

    creature->setCurrentOutfit(outfit);
    const SpectatorVec& list = getSpectators(creature->getPosition());
    SpectatorVec::const_iterator it;

    //send to client
    Player* tmpPlayer = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureChangeOutfit(creature, outfit);
    }

    //event method
    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureChangeOutfit(creature, outfit);
}

void Game::internalCreatureChangeVisible(Creature* creature, Visible_t visible)
{
    const SpectatorVec& list = getSpectators(creature->getPosition());
    SpectatorVec::const_iterator it;

    //send to client
    Player* tmpPlayer = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureChangeVisible(creature, visible);
    }

    //event method
    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureChangeVisible(creature, visible);
}


void Game::changeLight(const Creature* creature)
{
    const SpectatorVec& list = getSpectators(creature->getPosition());

    //send to client
    Player* tmpPlayer = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureLight(creature);
    }
}

bool Game::combatBlockHit(CombatType_t combatType, Creature* attacker, Creature* target,
    int32_t& healthChange, bool checkDefense, bool checkArmor)
{
    if(healthChange > 0)
        return false;

    const Position& targetPos = target->getPosition();
    const SpectatorVec& list = getSpectators(targetPos);
    if(!target->isAttackable() || Combat::canDoCombat(attacker, target) != RET_NOERROR)
    {
        addMagicEffect(list, targetPos, MAGIC_EFFECT_POFF, target->isGhost());
        return true;
    }

    int32_t damage = -healthChange;
    BlockType_t blockType = target->blockHit(attacker, combatType, damage, checkDefense, checkArmor);

    healthChange = -damage;
    if(blockType == BLOCK_DEFENSE)
    {
        addMagicEffect(list, targetPos, MAGIC_EFFECT_POFF);
        return true;
    }
    else if(blockType == BLOCK_ARMOR)
    {
        addMagicEffect(list, targetPos, MAGIC_EFFECT_BLOCKHIT);
        return true;
    }
    else if(blockType != BLOCK_IMMUNITY)
        return false;

    MagicEffect_t effect = MAGIC_EFFECT_NONE;
    switch(combatType)
    {
        case COMBAT_UNDEFINEDDAMAGE:
            break;

        case COMBAT_ENERGYDAMAGE:
        case COMBAT_FIREDAMAGE:
        case COMBAT_PHYSICALDAMAGE:
        case COMBAT_ICEDAMAGE:
        case COMBAT_DEATHDAMAGE:
        case COMBAT_EARTHDAMAGE:
        case COMBAT_HOLYDAMAGE:
        {
            effect = MAGIC_EFFECT_BLOCKHIT;
            break;
        }

        default:
        {
            effect = MAGIC_EFFECT_POFF;
            break;
        }
    }

    addMagicEffect(list, targetPos, effect);
    return true;
}

bool Game::combatChangeHealth(CombatType_t combatType, Creature* attacker, Creature* target, int32_t healthChange,
    MagicEffect_t hitEffect/* = MAGIC_EFFECT_UNKNOWN*/, Color_t hitColor/* = COLOR_UNKNOWN*/, bool force/* = false*/)
{
    const Position& targetPos = target->getPosition();
    if(healthChange > 0)
    {
        if(!force && target->getHealth() <= 0)
            return false;

        bool deny = false;
        CreatureEventList statsChangeEvents = target->getCreatureEvents(CREATURE_EVENT_STATSCHANGE);
        for(CreatureEventList::iterator it = statsChangeEvents.begin(); it != statsChangeEvents.end(); ++it)
        {
            if(!(*it)->executeStatsChange(target, attacker, STATSCHANGE_HEALTHGAIN, combatType, healthChange))
                deny = true;
        }

        if(deny)
            return false;

        target->gainHealth(attacker, healthChange);
        if(g_config.getBool(ConfigManager::SHOW_HEALING_DAMAGE) && !target->isGhost() &&
            (g_config.getBool(ConfigManager::SHOW_HEALING_DAMAGE_MONSTER) || !target->getMonster()))
        {
            char buffer[20];
            sprintf(buffer, "+%d", healthChange);

            const SpectatorVec& list = getSpectators(targetPos);
            if(combatType != COMBAT_HEALING)
                addMagicEffect(list, targetPos, MAGIC_EFFECT_WRAPS_BLUE);

            addAnimatedText(list, targetPos, g_config.getNumber(ConfigManager::HEALTH_HEALING_COLOR), buffer);
        }
    }
    else
    {
        const SpectatorVec& list = getSpectators(targetPos);
        if(!target->isAttackable() || Combat::canDoCombat(attacker, target) != RET_NOERROR)
        {
            addMagicEffect(list, targetPos, MAGIC_EFFECT_POFF);
            return true;
        }

        int32_t damage = -healthChange;
        if(damage != 0)
        {
            if(target->hasCondition(CONDITION_MANASHIELD) && combatType != COMBAT_UNDEFINEDDAMAGE)
            {
                int32_t manaDamage = std::min(target->getMana(), damage);
                damage = std::max((int32_t)0, damage - manaDamage);
                if(manaDamage != 0)
                {
                    bool deny = false;
                    CreatureEventList statsChangeEvents = target->getCreatureEvents(CREATURE_EVENT_STATSCHANGE);
                    for(CreatureEventList::iterator it = statsChangeEvents.begin(); it != statsChangeEvents.end(); ++it)
                    {
                        if(!(*it)->executeStatsChange(target, attacker, STATSCHANGE_MANALOSS, combatType, manaDamage))
                            deny = true;
                    }

                    if(deny)
                        return false;

                    target->drainMana(attacker, combatType, manaDamage);
                    char buffer[20];
                    sprintf(buffer, "%d", manaDamage);

                    addMagicEffect(list, targetPos, MAGIC_EFFECT_LOSE_ENERGY);
                    addAnimatedText(list, targetPos, COLOR_NEW_BLUEEE, buffer);
                }
            }

            damage = std::min(target->getHealth(), damage);
            if(damage > 0)
            {
                bool deny = false;
                CreatureEventList statsChangeEvents = target->getCreatureEvents(CREATURE_EVENT_STATSCHANGE);
                for(CreatureEventList::iterator it = statsChangeEvents.begin(); it != statsChangeEvents.end(); ++it)
                {
                    if(!(*it)->executeStatsChange(target, attacker, STATSCHANGE_HEALTHLOSS, combatType, damage))
                        deny = true;
                }

                if(deny)
                    return false;

                target->drainHealth(attacker, combatType, damage);
                addCreatureHealth(list, target);

                Color_t textColor = COLOR_NONE;
                MagicEffect_t magicEffect = MAGIC_EFFECT_NONE;
                switch(combatType)
                {
                    case COMBAT_PHYSICALDAMAGE:
                    {
                        Item* splash = NULL;
                        switch(target->getRace())
                        {
                            case RACE_VENOM:
                                textColor = COLOR_LIGHTGREEN;
                                magicEffect = MAGIC_EFFECT_POISON;
                                splash = Item::CreateItem(ITEM_SMALLSPLASH, FLUID_GREEN);
                                break;

                            case RACE_BLOOD:
                                textColor = COLOR_WHITE;
                                magicEffect = MAGIC_EFFECT_SKULLHORIZONTAL;
                                splash = Item::CreateItem(ITEM_SMALLSPLASH, FLUID_BLOOD);
                                break;

                            case RACE_UNDEAD:
                                textColor = COLOR_GREY;
                                magicEffect = MAGIC_EFFECT_HIT_AREA;
                                break;

                            case RACE_FIRE:
                                textColor = COLOR_ORANGE;
                                magicEffect = MAGIC_EFFECT_DRAW_BLOOD;
                                break;

                            case RACE_ENERGY:
                                textColor = COLOR_PURPLE;
                                magicEffect = MAGIC_EFFECT_PURPLEENERGY;
                                break;

                            default:
                                break;
                        }

                        if(splash)
                        {
                            internalAddItem(NULL, target->getTile(), splash, INDEX_WHEREEVER, FLAG_NOLIMIT);
                            startDecay(splash);
                        }
                        break;
                    }

                    case COMBAT_ENERGYDAMAGE:
                    {
                        textColor = COLOR_PURPLE;
                        magicEffect = MAGIC_EFFECT_ENERGY_DAMAGE;
                        break;
                    }

                    case COMBAT_EARTHDAMAGE:
                    {
                        textColor = COLOR_LIGHTGREEN;
                        magicEffect = MAGIC_EFFECT_POISON_RINGS;
                        break;
                    }

                    case COMBAT_DROWNDAMAGE:
                    {
                        textColor = COLOR_LIGHTBLUE;
                        magicEffect = MAGIC_EFFECT_LOSE_ENERGY;
                        break;
                    }

                    case COMBAT_FIREDAMAGE:
                    {
                        textColor = COLOR_ORANGE;
                        magicEffect = MAGIC_EFFECT_HITBY_FIRE;
                        break;
                    }

                    case COMBAT_ICEDAMAGE:
                    {
                        textColor = COLOR_NEW_BLUE;
                        magicEffect = MAGIC_EFFECT_ICEATTACK;
                        break;
                    }

                    case COMBAT_HOLYDAMAGE:
                    {
                        textColor = COLOR_NEW_YELLOW;
                        magicEffect = MAGIC_EFFECT_HOLYDAMAGE;
                        break;
                    }

                    case COMBAT_DEATHDAMAGE:
                    {
                        textColor = COLOR_DARKRED;
                        magicEffect = MAGIC_EFFECT_SMALLCLOUDS;
                        break;
                    }

                    case COMBAT_LIFEDRAIN:
                    {
                        textColor = COLOR_RED;
                        magicEffect = MAGIC_EFFECT_WRAPS_RED;
                        break;
                    }

                    default:
                        break;
                }

                if(hitEffect != MAGIC_EFFECT_UNKNOWN)
                    magicEffect = hitEffect;

                if(hitColor != COLOR_UNKNOWN)
                    textColor = hitColor;

                if(textColor < COLOR_NONE && magicEffect < MAGIC_EFFECT_NONE)
                {
                    char buffer[20];
                    sprintf(buffer, "%d", damage);

                    addMagicEffect(list, targetPos, magicEffect);
                    addAnimatedText(list, targetPos, textColor, buffer);
                }
            }
        }
    }

    return true;
}

bool Game::combatChangeMana(Creature* attacker, Creature* target, int32_t manaChange)
{
    const Position& targetPos = target->getPosition();
    if(manaChange > 0)
    {
        bool deny = false;
        CreatureEventList statsChangeEvents = target->getCreatureEvents(CREATURE_EVENT_STATSCHANGE);
        for(CreatureEventList::iterator it = statsChangeEvents.begin(); it != statsChangeEvents.end(); ++it)
        {
            if(!(*it)->executeStatsChange(target, attacker, STATSCHANGE_MANAGAIN, COMBAT_HEALING, manaChange))
                deny = true;
        }

        if(deny)
            return false;

        target->changeMana(manaChange);
        if(g_config.getBool(ConfigManager::SHOW_HEALING_DAMAGE) && !target->isGhost() &&
            (g_config.getBool(ConfigManager::SHOW_HEALING_DAMAGE_MONSTER) || !target->getMonster()))
        {
            char buffer[20];
            sprintf(buffer, "+%d", manaChange);

            const SpectatorVec& list = getSpectators(targetPos);
            addAnimatedText(list, targetPos, g_config.getNumber(ConfigManager::MANA_HEALING_COLOR), buffer);
        }
    }
    else
    {
        const SpectatorVec& list = getSpectators(targetPos);
        if(!target->isAttackable() || Combat::canDoCombat(attacker, target) != RET_NOERROR)
        {
            addMagicEffect(list, targetPos, MAGIC_EFFECT_POFF);
            return false;
        }

        int32_t manaLoss = std::min(target->getMana(), -manaChange);
        BlockType_t blockType = target->blockHit(attacker, COMBAT_MANADRAIN, manaLoss);
        if(blockType != BLOCK_NONE)
        {
            addMagicEffect(list, targetPos, MAGIC_EFFECT_POFF);
            return false;
        }

        if(manaLoss > 0)
        {
            bool deny = false;
            CreatureEventList statsChangeEvents = target->getCreatureEvents(CREATURE_EVENT_STATSCHANGE);
            for(CreatureEventList::iterator it = statsChangeEvents.begin(); it != statsChangeEvents.end(); ++it)
            {
                if(!(*it)->executeStatsChange(target, attacker, STATSCHANGE_MANALOSS, COMBAT_UNDEFINEDDAMAGE, manaChange))
                    deny = true;
            }

            if(deny)
                return false;

            target->drainMana(attacker, COMBAT_MANADRAIN, manaLoss);
            char buffer[20];
            sprintf(buffer, "%d", manaLoss);

            addAnimatedText(list, targetPos, COLOR_BLUE, buffer);
        }
    }

    return true;
}

void Game::addCreatureHealth(const Creature* target)
{
    const SpectatorVec& list = getSpectators(target->getPosition());
    addCreatureHealth(list, target);
}

void Game::addCreatureHealth(const SpectatorVec& list, const Creature* target)
{
    Player* player = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((player = (*it)->getPlayer()))
            player->sendCreatureHealth(target);
    }
}

void Game::addCreatureSquare(const Creature* target, uint8_t squareColor)
{
    const SpectatorVec& list = getSpectators(target->getPosition());
    addCreatureSquare(list, target, squareColor);
}

void Game::addCreatureSquare(const SpectatorVec& list, const Creature* target, uint8_t squareColor)
{
    Player* player = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((player = (*it)->getPlayer()))
            player->sendCreatureSquare(target, squareColor);
    }
}

void Game::addAnimatedText(const Position& pos, uint8_t textColor, const std::string& text)
{
    const SpectatorVec& list = getSpectators(pos);
    addAnimatedText(list, pos, textColor, text);
}

void Game::addAnimatedText(const SpectatorVec& list, const Position& pos, uint8_t textColor,
    const std::string& text)
{
    Player* player = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((player = (*it)->getPlayer()))
            player->sendAnimatedText(pos, textColor, text);
    }
}

void Game::addMagicEffect(const Position& pos, uint8_t effect, bool ghostMode/* = false*/)
{
    if(ghostMode)
        return;

    const SpectatorVec& list = getSpectators(pos);
    addMagicEffect(list, pos, effect);
}

void Game::addMagicEffect(const SpectatorVec& list, const Position& pos, uint8_t effect,
    bool ghostMode/* = false*/)
{
    if(ghostMode)
        return;

    Player* player = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((player = (*it)->getPlayer()))
            player->sendMagicEffect(pos, effect);
    }
}

void Game::addDistanceEffect(const Position& fromPos, const Position& toPos, uint8_t effect)
{
    SpectatorVec list;
    getSpectators(list, fromPos, false);
    getSpectators(list, toPos, true);
    addDistanceEffect(list, fromPos, toPos, effect);
}

void Game::addDistanceEffect(const SpectatorVec& list, const Position& fromPos,
    const Position& toPos, uint8_t effect)
{
    Player* player = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((player = (*it)->getPlayer()))
            player->sendDistanceShoot(fromPos, toPos, effect);
    }
}

void Game::startDecay(Item* item)
{
    if(!item || !item->canDecay() || item->getDecaying() == DECAYING_TRUE)
        return;

    if(item->getDuration() > 0)
    {
        item->addRef();
        item->setDecaying(DECAYING_TRUE);
        toDecayItems.push_back(item);
    }
    else
        internalDecayItem(item);
}

void Game::internalDecayItem(Item* item)
{
    const ItemType& it = Item::items.getItemType(item->getID());
    if(it.decayTo)
    {
        Item* newItem = transformItem(item, it.decayTo);
        startDecay(newItem);
    }
    else
    {
        ReturnValue ret = internalRemoveItem(NULL, item);
        if(ret != RET_NOERROR)
            std::clog << "> DEBUG: internalDecayItem failed, error code: " << (int32_t)ret << ", item id: " << item->getID() << std::endl;
    }
}

void Game::checkDecay()
{
    Scheduler::getInstance().addEvent(createSchedulerTask(EVENT_DECAYINTERVAL,
        boost::bind(&Game::checkDecay, this)));

    size_t bucket = (lastBucket + 1) % EVENT_DECAYBUCKETS;
    for(DecayList::iterator it = decayItems[bucket].begin(); it != decayItems[bucket].end();)
    {
        Item* item = *it;
        int32_t decreaseTime = EVENT_DECAYINTERVAL * EVENT_DECAYBUCKETS;
        if(item->getDuration() - decreaseTime < 0)
            decreaseTime = item->getDuration();

        item->decreaseDuration(decreaseTime);
        if(!item->canDecay())
        {
            item->setDecaying(DECAYING_FALSE);
            freeThing(item);
            it = decayItems[bucket].erase(it);
            continue;
        }

        int32_t dur = item->getDuration();
        if(dur <= 0)
        {
            it = decayItems[bucket].erase(it);
            internalDecayItem(item);
            freeThing(item);
        }
        else if(dur < EVENT_DECAYINTERVAL * EVENT_DECAYBUCKETS)
        {
            it = decayItems[bucket].erase(it);
            size_t newBucket = (bucket + ((dur + EVENT_DECAYINTERVAL / 2) / 1000)) % EVENT_DECAYBUCKETS;
            if(newBucket == bucket)
            {
                internalDecayItem(item);
                freeThing(item);
            }
            else
                decayItems[newBucket].push_back(item);
        }
        else
            ++it;
    }

    lastBucket = bucket;
    cleanup();
}

void Game::checkLight()
{
    Scheduler::getInstance().addEvent(createSchedulerTask(EVENT_LIGHTINTERVAL,
        boost::bind(&Game::checkLight, this)));

    lightHour = lightHour + lightHourDelta;
    if(lightHour > 1440)
        lightHour = lightHour - 1440;

    if(std::abs(lightHour - SUNRISE) < 2 * lightHourDelta)
        lightState = LIGHT_STATE_SUNRISE;
    else if(std::abs(lightHour - SUNSET) < 2 * lightHourDelta)
        lightState = LIGHT_STATE_SUNSET;

    int32_t newLightLevel = lightLevel;
    bool lightChange = false;
    switch(lightState)
    {
        case LIGHT_STATE_SUNRISE:
        {
            newLightLevel += (LIGHT_LEVEL_DAY - LIGHT_LEVEL_NIGHT) / 30;
            lightChange = true;
            break;
        }
        case LIGHT_STATE_SUNSET:
        {
            newLightLevel -= (LIGHT_LEVEL_DAY - LIGHT_LEVEL_NIGHT) / 30;
            lightChange = true;
            break;
        }
        default:
            break;
    }

    if(newLightLevel <= LIGHT_LEVEL_NIGHT)
    {
        lightLevel = LIGHT_LEVEL_NIGHT;
        lightState = LIGHT_STATE_NIGHT;
    }
    else if(newLightLevel >= LIGHT_LEVEL_DAY)
    {
        lightLevel = LIGHT_LEVEL_DAY;
        lightState = LIGHT_STATE_DAY;
    }
    else
        lightLevel = newLightLevel;

    if(lightChange)
    {
        LightInfo lightInfo;
        getWorldLightInfo(lightInfo);
        for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
            it->second->sendWorldLight(lightInfo);
    }
}

void Game::getWorldLightInfo(LightInfo& lightInfo)
{
    lightInfo.level = lightLevel;
    lightInfo.color = 0xD7;
}

bool Game::cancelRuleViolation(Player* player)
{
    RuleViolationsMap::iterator it = ruleViolations.find(player->getID());
    if(it == ruleViolations.end())
        return false;

    Player* gamemaster = it->second->gamemaster;
    if(!it->second->isOpen && gamemaster) //Send to the responser
        gamemaster->sendRuleViolationCancel(player->getName());
    else if(ChatChannel* channel = g_chat.getChannelById(CHANNEL_RVR))
    {
        UsersMap tmpMap = channel->getUsers();
        for(UsersMap::iterator tit = tmpMap.begin(); tit != tmpMap.end(); ++tit)
            tit->second->sendRemoveReport(player->getName());
    }

    //Now erase it
    ruleViolations.erase(it);
    return true;
}

bool Game::closeRuleViolation(Player* player)
{
    RuleViolationsMap::iterator it = ruleViolations.find(player->getID());
    if(it == ruleViolations.end())
        return false;

    ruleViolations.erase(it);
    player->sendLockRuleViolation();
    if(ChatChannel* channel = g_chat.getChannelById(CHANNEL_RVR))
    {
        UsersMap tmpMap = channel->getUsers();
        for(UsersMap::iterator tit = tmpMap.begin(); tit != tmpMap.end(); ++tit)
            tit->second->sendRemoveReport(player->getName());
    }

    return true;
}

void Game::updateCreatureSkull(Creature* creature)
{
    const SpectatorVec& list = getSpectators(creature->getPosition());

    //send to client
    Player* tmpPlayer = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
         if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureSkull(creature);
    }
}

void Game::updateCreatureShield(Creature* creature)
{
    const SpectatorVec& list = getSpectators(creature->getPosition());

    //send to client
    Player* tmpPlayer = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureShield(creature);
    }
}

void Game::updateCreatureEmblem(Creature* creature)
{
    const SpectatorVec& list = getSpectators(creature->getPosition());

    //send to client
    Player* tmpPlayer = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureEmblem(creature);
    }
}

void Game::updateCreatureImpassable(Creature* creature)
{
    const SpectatorVec& list = getSpectators(creature->getPosition());

    //send to client
    Player* tmpPlayer = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureImpassable(creature);
    }
}

bool Game::playerInviteToParty(uint32_t playerId, uint32_t invitedId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Player* invitedPlayer = getPlayerByID(invitedId);
    if(!invitedPlayer || invitedPlayer->isRemoved() || invitedPlayer->isInviting(player))
        return false;

    if(invitedPlayer->getParty())
    {
        char buffer[90];
        sprintf(buffer, "%s is already in a party.", invitedPlayer->getName().c_str());
        player->sendTextMessage(MSG_INFO_DESCR, buffer);
        return false;
    }

    if(invitedPlayer == player)
        return false;

    Party* party = player->getParty();
    if(!party)
        party = new Party(player);
    else if(party->getLeader() != player)
        return false;

    return party->invitePlayer(invitedPlayer);
}

bool Game::playerJoinParty(uint32_t playerId, uint32_t leaderId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Player* leader = getPlayerByID(leaderId);
    if(!leader || leader->isRemoved() || !leader->isInviting(player))
        return false;

    if(!player->getParty())
        return leader->getParty()->join(player);

    player->sendTextMessage(MSG_INFO_DESCR, "You are already in a party.");
    return false;
}

bool Game::playerRevokePartyInvitation(uint32_t playerId, uint32_t invitedId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || !player->getParty() || player->getParty()->getLeader() != player)
        return false;

    Player* invitedPlayer = getPlayerByID(invitedId);
    if(!invitedPlayer || invitedPlayer->isRemoved() || !player->isInviting(invitedPlayer))
        return false;

    player->getParty()->revokeInvitation(invitedPlayer);
    return true;
}

bool Game::playerPassPartyLeadership(uint32_t playerId, uint32_t newLeaderId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || !player->getParty() || player->getParty()->getLeader() != player)
        return false;

    Player* newLeader = getPlayerByID(newLeaderId);
    if(!newLeader || newLeader->isRemoved() || !newLeader->getParty() || newLeader->getParty() != player->getParty())
        return false;

    return player->getParty()->passLeadership(newLeader);
}

bool Game::playerLeaveParty(uint32_t playerId, bool forced/* = false*/)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || !player->getParty() || (player->hasCondition(CONDITION_INFIGHT) && !forced))
        return false;

    return player->getParty()->leave(player);
}

bool Game::playerSharePartyExperience(uint32_t playerId, bool activate, uint8_t)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(!player->getParty() || (!player->hasFlag(PlayerFlag_NotGainInFight)
        && player->hasCondition(CONDITION_INFIGHT)))
        return false;

    return player->getParty()->setSharedExperience(player, activate);
}

bool Game::playerReportBug(uint32_t playerId, std::string comment)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(!player->hasFlag(PlayerFlag_CanReportBugs))
        return false;

    CreatureEventList reportBugEvents = player->getCreatureEvents(CREATURE_EVENT_REPORTBUG);
    for(CreatureEventList::iterator it = reportBugEvents.begin(); it != reportBugEvents.end(); ++it)
        (*it)->executeReportBug(player, comment);

    return true;
}

bool Game::playerViolationWindow(uint32_t playerId, std::string name, uint8_t reason, ViolationAction_t action,
    std::string comment, std::string statement, uint32_t statementId, bool ipBanishment)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Group* group = player->getGroup();
    if(!group)
        return false;

    std::string::size_type start = comment.find("{"), end = std::string::npos;
    if(start != std::string::npos)
        end = comment.find("}", start + 1);

    time_t length[3] = {0, 0, 0};
    if(end != std::string::npos)
    {
        int32_t i = 0;
        StringVec vec = explodeString(comment.substr(start + 1, end - 1), ",");
        for(StringVec::iterator it = vec.begin(); it != vec.end() && i < 4; ++it, ++i)
        {
            if((*it) == "delete")
            {
                i--;
                action = ACTION_DELETION;
                continue;
            }

            time_t banTime = time(NULL);
            StringVec tec = explodeString((*it), "+");
            for(StringVec::iterator tit = tec.begin(); tit != tec.end(); ++tit)
            {
                std::string tmp = (*tit);
                if(tmp[0] != 's' && tmp[0] != 'm' && tmp[0] != 'h' && tmp[0] != 'd'
                    && tmp[0] != 'w' && tmp[0] != 'o' && tmp[0] != 'y')
                    continue;

                uint32_t count = 1;
                if(tmp.size() > 1)
                {
                    count = atoi(tmp.substr(1).c_str());
                    if(!count)
                        count = 1;
                }

                if(tmp[0] == 's')
                    banTime += count;

                if(tmp[0] == 'm')
                    banTime += count * 60;

                if(tmp[0] == 'h')
                    banTime += count * 3600;

                if(tmp[0] == 'd')
                    banTime += count * 86400;

                if(tmp[0] == 'w')
                    banTime += count * 604800;

                if(tmp[0] == 'o')
                    banTime += count * 2592000;

                if(tmp[0] == 'y')
                    banTime += count * 31536000;

                length[i] = banTime;
            }
        }

        comment = comment.substr(end + 1);
    }

    int16_t nameFlags = group->getNameViolationFlags(), statementFlags = group->getStatementViolationFlags();
    if((ipBanishment && ((nameFlags & IPBAN_FLAG) != IPBAN_FLAG || (statementFlags & IPBAN_FLAG) != IPBAN_FLAG)) ||
        !(nameFlags & (1 << action) || statementFlags & (1 << action)) || reason > group->getViolationReasons())
    {
        player->sendCancel("You do not have authorization for this action.");
        return false;
    }

    uint32_t commentSize = g_config.getNumber(ConfigManager::MAX_VIOLATIONCOMMENT_SIZE);
    if(comment.size() > commentSize)
    {
        char buffer[90];
        sprintf(buffer, "The comment may not exceed limit of %d characters.", commentSize);

        player->sendCancel(buffer);
        return false;
    }

    toLowerCaseString(name);
    Player* target = getPlayerByNameEx(name);
    if(!target || name == "account manager")
    {
        player->sendCancel("A player with this name does not exist.");
        return false;
    }

    if(target->hasFlag(PlayerFlag_CannotBeBanned))
    {
        player->sendCancel("You do not have authorization for this action.");
        return false;
    }

    Account account = IOLoginData::getInstance()->loadAccount(target->getAccount(), true);
    enum KickAction {
        NONE = 1,
        KICK = 2,
        FULL_KICK = 3,
    } kickAction = FULL_KICK;
    switch(action)
    {
        case ACTION_STATEMENT:
        {
            StatementMap::iterator it = g_chat.statementMap.find(statementId);
            if(it == g_chat.statementMap.end())
            {
                player->sendCancel("Statement has been already reported.");
                return false;
            }

            IOBan::getInstance()->addStatement(target->getGUID(), reason, comment,
                player->getGUID(), -1, statement);
            g_chat.statementMap.erase(it);

            kickAction = NONE;
            break;
        }

        case ACTION_NAMEREPORT:
        {
            int64_t banTime = -1;
            PlayerBan_t tmp = (PlayerBan_t)g_config.getNumber(ConfigManager::NAME_REPORT_TYPE);
            if(tmp == PLAYERBAN_BANISHMENT)
            {
                if(!length[0])
                    banTime = time(NULL) + g_config.getNumber(ConfigManager::BAN_LENGTH);
                else
                    banTime = length[0];
            }

            if(!IOBan::getInstance()->addPlayerBanishment(target->getGUID(), banTime, reason, action,
                comment, player->getGUID(), tmp))
            {
                player->sendCancel("Player has been already reported.");
                return false;
            }
            else if(tmp == PLAYERBAN_BANISHMENT)
                account.warnings++;

            kickAction = (KickAction)tmp;
            break;
        }

        case ACTION_NOTATION:
        case ACTION_BANISHMENT:
        case ACTION_BANREPORT:
        {
            if(action == ACTION_NOTATION)
            {
                if(!IOBan::getInstance()->addNotation(account.number, reason,
                    comment, player->getGUID(), target->getGUID()))
                {
                    player->sendCancel("Unable to perform action.");
                    return false;
                }

                if(IOBan::getInstance()->getNotationsCount(account.number) < (uint32_t)
                    g_config.getNumber(ConfigManager::NOTATIONS_TO_BAN))
                {
                    kickAction = NONE;
                    break;
                }

                action = ACTION_BANISHMENT;
            }

            bool deny = action != ACTION_BANREPORT;
            int64_t banTime = -1;

            account.warnings++;
            if(account.warnings >= g_config.getNumber(ConfigManager::WARNINGS_TO_DELETION))
                action = ACTION_DELETION;
            else if(length[0])
                banTime = length[0];
            else if(account.warnings >= g_config.getNumber(ConfigManager::WARNINGS_TO_FINALBAN))
                banTime = time(NULL) + g_config.getNumber(ConfigManager::FINALBAN_LENGTH);
            else
                banTime = time(NULL) + g_config.getNumber(ConfigManager::BAN_LENGTH);

            if(!IOBan::getInstance()->addAccountBanishment(account.number, banTime, reason, action,
                comment, player->getGUID(), target->getGUID()))
            {
                account.warnings--;
                player->sendCancel("Account is already banned.");
                return false;
            }

            if(deny)
                break;

            banTime = -1;
            PlayerBan_t tmp = (PlayerBan_t)g_config.getNumber(ConfigManager::NAME_REPORT_TYPE);
            if(tmp == PLAYERBAN_BANISHMENT)
            {
                if(!length[1])
                    banTime = time(NULL) + g_config.getNumber(ConfigManager::FINALBAN_LENGTH);
                else
                    banTime = length[1];
            }

            IOBan::getInstance()->addPlayerBanishment(target->getGUID(), banTime, reason, action, comment,
                player->getGUID(), tmp);
            break;
        }

        case ACTION_BANFINAL:
        case ACTION_BANREPORTFINAL:
        {
            bool allow = action == ACTION_BANREPORTFINAL;
            int64_t banTime = -1;

            account.warnings++;
            if(account.warnings >= g_config.getNumber(ConfigManager::WARNINGS_TO_DELETION))
                action = ACTION_DELETION;
            else if(length[0])
                banTime = length[0];
            else
                banTime = time(NULL) + g_config.getNumber(ConfigManager::FINALBAN_LENGTH);

            if(!IOBan::getInstance()->addAccountBanishment(account.number, banTime, reason, action,
                comment, player->getGUID(), target->getGUID()))
            {
                account.warnings--;
                player->sendCancel("Account is already banned.");
                return false;
            }

            if(action != ACTION_DELETION)
                account.warnings += (g_config.getNumber(ConfigManager::WARNINGS_TO_FINALBAN) - 1);

            if(allow)
                IOBan::getInstance()->addPlayerBanishment(target->getGUID(), -1, reason, action, comment,
                    player->getGUID(), (PlayerBan_t)g_config.getNumber(
                    ConfigManager::NAME_REPORT_TYPE));

            break;
        }

        case ACTION_DELETION:
        {
            //completely internal
            account.warnings++;
            if(!IOBan::getInstance()->addAccountBanishment(account.number, -1, reason, ACTION_DELETION,
                comment, player->getGUID(), target->getGUID()))
            {
                account.warnings--;
                player->sendCancel("Account is currently banned or already deleted.");
                return false;
            }

            break;
        }

        default:
            // these just shouldn't occur in rvw
            return false;
    }

    if(ipBanishment && target->getIP())
    {
        if(!length[2])
            length[2] = time(NULL) + g_config.getNumber(ConfigManager::IPBANISHMENT_LENGTH);

        IOBan::getInstance()->addIpBanishment(target->getIP(), length[2], reason, comment, player->getGUID(), 0xFFFFFFFF);
    }

    if(kickAction == FULL_KICK)
        IOBan::getInstance()->removeNotations(account.number);

    std::stringstream ss;
    if(g_config.getBool(ConfigManager::BROADCAST_BANISHMENTS))
        ss << player->getName() << " has";
    else
        ss << "You have";

    ss << " taken the action \"" << getAction(action, ipBanishment) << "\"";
    switch(action)
    {
        case ACTION_NOTATION:
        {
            ss << " (" << (g_config.getNumber(ConfigManager::NOTATIONS_TO_BAN) - IOBan::getInstance()->getNotationsCount(
                account.number)) << " left to banishment)";
            break;
        }
        case ACTION_STATEMENT:
        {
            ss << " for the statement: \"" << statement << "\"";
            break;
        }
        default:
            break;
    }

    ss << " against: " << name << " (Warnings: " << account.warnings << "), with reason: \"" << getReason(
        reason) << "\", and comment: \"" << comment << "\".";
    if(g_config.getBool(ConfigManager::BROADCAST_BANISHMENTS))
        broadcastMessage(ss.str(), MSG_STATUS_WARNING);
    else
        player->sendTextMessage(MSG_STATUS_CONSOLE_RED, ss.str());

    if(target->isVirtual())
    {
        delete target;
        target = NULL;
    }
    else if(kickAction > NONE)
    {
        char buffer[30];
        sprintf(buffer, "You have been %s.", (kickAction > KICK ? "banished" : "namelocked"));
        target->sendTextMessage(MSG_INFO_DESCR, buffer);

        addMagicEffect(target->getPosition(), MAGIC_EFFECT_WRAPS_GREEN);
        Scheduler::getInstance().addEvent(createSchedulerTask(1000, boost::bind(
            &Game::kickPlayer, this, target->getID(), false)));
    }

    IOLoginData::getInstance()->saveAccount(account);
    return true;
}

void Game::kickPlayer(uint32_t playerId, bool displayEffect)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return;

    player->kickPlayer(displayEffect, true);
}

bool Game::broadcastMessage(const std::string& text, MessageClasses type)
{
    if(type < MSG_CLASS_FIRST || type > MSG_CLASS_LAST)
        return false;

    std::clog << "> Broadcasted message: \"" << text << "\"." << std::endl;
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
        it->second->sendTextMessage(type, text);

    return true;
}

Position Game::getClosestFreeTile(Creature* creature, Position pos, bool extended/* = false*/, bool ignoreHouse/* = true*/)
{
    PairVector relList;
    relList.push_back(PositionPair(0, 0));
    relList.push_back(PositionPair(-1, -1));
    relList.push_back(PositionPair(-1, 0));
    relList.push_back(PositionPair(-1, 1));
    relList.push_back(PositionPair(0, -1));
    relList.push_back(PositionPair(0, 1));
    relList.push_back(PositionPair(1, -1));
    relList.push_back(PositionPair(1, 0));
    relList.push_back(PositionPair(1, 1));

    if(extended)
    {
        relList.push_back(PositionPair(-2, 0));
        relList.push_back(PositionPair(0, -2));
        relList.push_back(PositionPair(0, 2));
        relList.push_back(PositionPair(2, 0));
    }

    std::random_shuffle(relList.begin() + 1, relList.end());
    if(Player* player = creature->getPlayer())
    {
        for(PairVector::iterator it = relList.begin(); it != relList.end(); ++it)
        {
            Tile* tile = map->getTile(Position((pos.x + it->first), (pos.y + it->second), pos.z));
            if(!tile || !tile->ground)
                continue;

            ReturnValue ret = tile->__queryAdd(0, player, 1, FLAG_IGNOREBLOCKITEM);
            if(ret == RET_NOTENOUGHROOM || (ret == RET_NOTPOSSIBLE && !player->hasCustomFlag(PlayerCustomFlag_CanMoveAnywhere))
                || (ret == RET_PLAYERISNOTINVITED && !ignoreHouse && !player->hasFlag(PlayerFlag_CanEditHouses)))
                continue;

            return tile->getPosition();
        }
    }
    else
    {
        for(PairVector::iterator it = relList.begin(); it != relList.end(); ++it)
        {
            Tile* tile = NULL;
            if((tile = map->getTile(Position((pos.x + it->first), (pos.y + it->second), pos.z)))
                && tile->__queryAdd(0, creature, 1, FLAG_IGNOREBLOCKITEM) == RET_NOERROR)
                return tile->getPosition();
        }
    }

    return Position(0, 0, 0);
}

std::string Game::getSearchString(const Position& fromPos, const Position& toPos, bool fromIsCreature/* = false*/, bool toIsCreature/* = false*/)
{
    /*
     * When the position is on same level and 0 to 4 squares away, they are "[toIsCreature: standing] next to you"
     * When the position is on same level and 5 to 100 squares away they are "to the north/west/south/east."
     * When the position is on any level and 101 to 274 squares away they are "far to the north/west/south/east."
     * When the position is on any level and 275+ squares away they are "very far to the north/west/south/east."
     * When the position is not directly north/west/south/east of you they are "((very) far) to the north-west/south-west/south-east/north-east."
     * When the position is on a lower or higher level and 5 to 100 squares away they are "on a lower (or) higher level to the north/west/south/east."
     * When the position is on a lower or higher level and 0 to 4 squares away they are "below (or) above you."
     */

    enum distance_t
    {
        DISTANCE_BESIDE,
        DISTANCE_CLOSE,
        DISTANCE_FAR,
        DISTANCE_VERYFAR
    };

    enum direction_t
    {
        DIR_N, DIR_S, DIR_E, DIR_W,
        DIR_NE, DIR_NW, DIR_SE, DIR_SW
    };

    enum level_t
    {
        LEVEL_HIGHER,
        LEVEL_LOWER,
        LEVEL_SAME
    };

    distance_t distance;
    direction_t direction;
    level_t level;

    int32_t dx = fromPos.x - toPos.x, dy = fromPos.y - toPos.y, dz = fromPos.z - toPos.z;
    if(dz > 0)
        level = LEVEL_HIGHER;
    else if(dz < 0)
        level = LEVEL_LOWER;
    else
        level = LEVEL_SAME;

    if(std::abs(dx) < 5 && std::abs(dy) < 5)
        distance = DISTANCE_BESIDE;
    else
    {
        int32_t tmp = dx * dx + dy * dy;
        if(tmp < 10000)
            distance = DISTANCE_CLOSE;
        else if(tmp < 75625)
            distance = DISTANCE_FAR;
        else
            distance = DISTANCE_VERYFAR;
    }

    float tan;
    if(dx != 0)
        tan = (float)dy / (float)dx;
    else
        tan = 10.;

    if(std::abs(tan) < 0.4142)
    {
        if(dx > 0)
            direction = DIR_W;
        else
            direction = DIR_E;
    }
    else if(std::abs(tan) < 2.4142)
    {
        if(tan > 0)
        {
            if(dy > 0)
                direction = DIR_NW;
            else
                direction = DIR_SE;
        }
        else
        {
            if(dx > 0)
                direction = DIR_SW;
            else
                direction = DIR_NE;
        }
    }
    else
    {
        if(dy > 0)
            direction = DIR_N;
        else
            direction = DIR_S;
    }

    std::stringstream ss;
    switch(distance)
    {
        case DISTANCE_BESIDE:
        {
            switch(level)
            {
                case LEVEL_SAME:
                {
                    ss << "is ";
                    if(toIsCreature)
                        ss << "standing ";

                    ss << "next to you";
                    break;
                }

                case LEVEL_HIGHER:
                {
                    ss << "is above ";
                    if(fromIsCreature)
                        ss << "you";

                    break;
                }

                case LEVEL_LOWER:
                {
                    ss << "is below ";
                    if(fromIsCreature)
                        ss << "you";

                    break;
                }

                default:
                    break;
            }

            break;
        }

        case DISTANCE_CLOSE:
        {
            switch(level)
            {
                case LEVEL_SAME:
                    ss << "is to the";
                    break;
                case LEVEL_HIGHER:
                    ss << "is on a higher level to the";
                    break;
                case LEVEL_LOWER:
                    ss << "is on a lower level to the";
                    break;
                default:
                    break;
            }

            break;
        }

        case DISTANCE_FAR:
            ss << "is far to the";
            break;

        case DISTANCE_VERYFAR:
            ss << "is very far to the";
            break;

        default:
            break;
    }

    if(distance != DISTANCE_BESIDE)
    {
        ss << " ";
        switch(direction)
        {
            case DIR_N:
                ss << "north";
                break;

            case DIR_S:
                ss << "south";
                break;

            case DIR_E:
                ss << "east";
                break;

            case DIR_W:
                ss << "west";
                break;

            case DIR_NE:
                ss << "north-east";
                break;

            case DIR_NW:
                ss << "north-west";
                break;

            case DIR_SE:
                ss << "south-east";
                break;

            case DIR_SW:
                ss << "south-west";
                break;

            default:
                break;
        }
    }

    return ss.str();
}

double Game::getExperienceStage(uint32_t level, double divider/* = 1.*/)
{
    if(!g_config.getBool(ConfigManager::EXPERIENCE_STAGES))
        return g_config.getDouble(ConfigManager::RATE_EXPERIENCE) * divider;

    if(lastStageLevel && level >= lastStageLevel)
        return stages[lastStageLevel] * divider;

    return stages[level] * divider;
}

bool Game::loadExperienceStages()
{
    if(!g_config.getBool(ConfigManager::EXPERIENCE_STAGES))
        return true;

    xmlDocPtr doc = xmlParseFile(getFilePath(FILE_TYPE_XML, "stages.xml").c_str());
    if(!doc)
    {
        std::clog << "[Warning - Game::loadExperienceStages] Cannot load stages file." << std::endl;
        std::clog << getLastXMLError() << std::endl;
        return false;
    }

    xmlNodePtr q, p, root = xmlDocGetRootElement(doc);
    if(xmlStrcmp(root->name, (const xmlChar*)"stages"))
    {
        std::clog << "[Error - Game::loadExperienceStages] Malformed stages file" << std::endl;
        xmlFreeDoc(doc);
        return false;
    }

    int32_t intValue, low = 0, high = 0;
    float floatValue, mul = 1.0f, defStageMultiplier;
    std::string strValue;

    lastStageLevel = 0;
    stages.clear();

    q = root->children;
    while(q)
    {
        if(!xmlStrcmp(q->name, (const xmlChar*)"world"))
        {
            if(readXMLString(q, "id", strValue))
            {
                IntegerVec intVector;
                if(!parseIntegerVec(strValue, intVector) || std::find(intVector.begin(),
                    intVector.end(), g_config.getNumber(ConfigManager::WORLD_ID)) == intVector.end())
                {
                    q = q->next;
                    continue;
                }
            }

            defStageMultiplier = 1.0f;
            if(readXMLFloat(q, "multiplier", floatValue))
                defStageMultiplier = floatValue;

            p = q->children;
            while(p)
            {
                if(!xmlStrcmp(p->name, (const xmlChar*)"stage"))
                {
                    low = 1;
                    if(readXMLInteger(p, "minlevel", intValue) || readXMLInteger(p, "minLevel", intValue))
                        low = intValue;

                    high = 0;
                    if(readXMLInteger(p, "maxlevel", intValue) || readXMLInteger(p, "maxLevel", intValue))
                        high = intValue;
                    else
                        lastStageLevel = low;

                    mul = 1.0f;
                    if(readXMLFloat(p, "multiplier", floatValue))
                        mul = floatValue;

                    mul *= defStageMultiplier;
                    if(lastStageLevel && lastStageLevel == (uint32_t)low)
                        stages[lastStageLevel] = mul;
                    else
                    {
                        for(int32_t i = low; i <= high; i++)
                            stages[i] = mul;
                    }
                }

                p = p->next;
            }
        }

        if(!xmlStrcmp(q->name, (const xmlChar*)"stage"))
        {
            low = 1;
            if(readXMLInteger(q, "minlevel", intValue))
                low = intValue;
            else

            high = 0;
            if(readXMLInteger(q, "maxlevel", intValue))
                high = intValue;
            else
                lastStageLevel = low;

            mul = 1.0f;
            if(readXMLFloat(q, "multiplier", floatValue))
                mul = floatValue;

            if(lastStageLevel && lastStageLevel == (uint32_t)low)
                stages[lastStageLevel] = mul;
            else
            {
                for(int32_t i = low; i <= high; i++)
                    stages[i] = mul;
            }
        }

        q = q->next;
    }

    xmlFreeDoc(doc);
    return true;
}

bool Game::reloadHighscores()
{
    lastHighscoreCheck = time(NULL);
    for(int16_t i = 0; i < 9; ++i)
        highscoreStorage[i] = getHighscore(i);

    return true;
}

void Game::checkHighscores()
{
    reloadHighscores();
    uint32_t tmp = g_config.getNumber(ConfigManager::HIGHSCORES_UPDATETIME) * 60 * 1000;
    if(tmp <= 0)
        return;

    Scheduler::getInstance().addEvent(createSchedulerTask(tmp, boost::bind(&Game::checkHighscores, this)));
}

std::string Game::getHighscoreString(uint16_t skill)
{
    Highscore hs = highscoreStorage[skill];
    std::stringstream ss;
    ss << "Highscore for " << getSkillName(skill) << "\n\nRank Level - Player Name";
    for(uint32_t i = 0; i < hs.size(); i++)
        ss << "\n" << (i + 1) << ".  " << hs[i].second << "  -  " << hs[i].first;

    ss << "\n\nLast updated on:\n" << std::ctime(&lastHighscoreCheck);
    return ss.str();
}

Highscore Game::getHighscore(uint16_t skill)
{
    Highscore hs;

    Database* db = Database::getInstance();
    DBResult* result;

    DBQuery query;
    if(skill >= SKILL__MAGLEVEL)
    {
        if(skill == SKILL__MAGLEVEL)
            query << "SELECT `maglevel`, `name` FROM `players` ORDER BY `maglevel` DESC, `manaspent` DESC LIMIT " << g_config.getNumber(ConfigManager::HIGHSCORES_TOP);
        else
            query << "SELECT `level`, `name` FROM `players` ORDER BY `level` DESC, `experience` DESC LIMIT " << g_config.getNumber(ConfigManager::HIGHSCORES_TOP);

        if(!(result = db->storeQuery(query.str())))
            return hs;

        do
        {
            uint32_t level;
            if(skill == SKILL__MAGLEVEL)
                level = result->getDataInt("maglevel");
            else
                level = result->getDataInt("level");

            std::string name = result->getDataString("name");
            if(name.length() > 0)
                hs.push_back(std::make_pair(name, level));
        }
        while(result->next());
        result->free();
    }
    else
    {
        query << "SELECT `player_skills`.`value`, `players`.`name` FROM `player_skills`,`players` WHERE `player_skills`.`skillid`=" << skill << " AND `player_skills`.`player_id`=`players`.`id` ORDER BY `player_skills`.`value` DESC, `player_skills`.`count` DESC LIMIT " << g_config.getNumber(ConfigManager::HIGHSCORES_TOP);
        if(!(result = db->storeQuery(query.str())))
            return hs;

        do
        {
            std::string name = result->getDataString("name");
            if(name.length() > 0)
                hs.push_back(std::make_pair(name, result->getDataInt("value")));
        }
        while(result->next());
        result->free();
    }

    return hs;
}

int32_t Game::getMotdId()
{
    if(lastMotd == g_config.getString(ConfigManager::MOTD))
        return lastMotdId;

    lastMotd = g_config.getString(ConfigManager::MOTD);
    Database* db = Database::getInstance();

    DBQuery query;
    query << "INSERT INTO `server_motd` (`id`, `world_id`, `text`) VALUES (" << ++lastMotdId << ", " << g_config.getNumber(ConfigManager::WORLD_ID) << ", " << db->escapeString(lastMotd) << ")";
    if(db->query(query.str()))
        return lastMotdId;

    return --lastMotdId;
}

void Game::loadMotd()
{
    Database* db = Database::getInstance();
    DBQuery query;
    query << "SELECT `id`, `text` FROM `server_motd` WHERE `world_id` = " << g_config.getNumber(ConfigManager::WORLD_ID) << " ORDER BY `id` DESC LIMIT 1";

    DBResult* result;
    if(!(result = db->storeQuery(query.str())))
    {
        std::clog << "> ERROR: Failed to load motd!" << std::endl;
        lastMotdId = random_range(5, 500);
        return;
    }

    lastMotdId = result->getDataInt("id");
    lastMotd = result->getDataString("text");
    result->free();
}

void Game::checkPlayersRecord(Player* player)
{
    uint32_t count = getPlayersOnline();
    if(count <= playersRecord)
        return;

    GlobalEventMap recordEvents = g_globalEvents->getEventMap(GLOBALEVENT_RECORD);
    for(GlobalEventMap::iterator it = recordEvents.begin(); it != recordEvents.end(); ++it)
        it->second->executeRecord(count, playersRecord, player);

    playersRecord = count;
}

void Game::loadPlayersRecord()
{
    Database* db = Database::getInstance();
    DBQuery query;
    query << "SELECT `record` FROM `server_record` WHERE `world_id` = " << g_config.getNumber(ConfigManager::WORLD_ID) << " ORDER BY `timestamp` DESC LIMIT 1";

    DBResult* result;
    if(!(result = db->storeQuery(query.str())))
    {
        std::clog << "> ERROR: Failed to load players record!" << std::endl;
        return;
    }

    playersRecord = result->getDataInt("record");
    result->free();
}

bool Game::reloadInfo(ReloadInfo_t reload, uint32_t playerId/* = 0*/)
{
    bool done = false;
    switch(reload)
    {
        case RELOAD_ACTIONS:
        {
            if(g_actions->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload actions." << std::endl;

            break;
        }

        case RELOAD_CHAT:
        {
            if(g_chat.reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload chat." << std::endl;

            break;
        }

        case RELOAD_CONFIG:
        {
            if(g_config.reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload config." << std::endl;

            break;
        }

        case RELOAD_CREATUREEVENTS:
        {
            if(g_creatureEvents->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload creature events." << std::endl;

            break;
        }

        case RELOAD_GAMESERVERS:
        {
            #ifdef __LOGIN_SERVER__
            if(GameServers::getInstance()->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload game servers." << std::endl;

            #endif
            break;
        }

        case RELOAD_GLOBALEVENTS:
        {
            if(g_globalEvents->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload global events." << std::endl;

            break;
        }

        case RELOAD_GROUPS:
        {
            /*if(Groups::getInstance()->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload groups." << std::endl;*/

            break;
        }

        case RELOAD_HIGHSCORES:
        {
            if(reloadHighscores())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload highscores." << std::endl;

            break;
        }

        case RELOAD_ITEMS:
        {
            //TODO
            std::clog << "[Notice - Game::reloadInfo] Reload type does not work." << std::endl;
            done = true;
            break;
        }

        case RELOAD_MODS:
        {
            if(ScriptManager::getInstance()->reloadMods())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload mods." << std::endl;

            break;
        }

        case RELOAD_MONSTERS:
        {
            if(g_monsters.reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload monsters." << std::endl;

            break;
        }

        case RELOAD_MOVEEVENTS:
        {
            if(g_moveEvents->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload move events." << std::endl;

            break;
        }

        case RELOAD_NPCS:
        {
            g_npcs.reload();
            done = true;
            break;
        }

        case RELOAD_OUTFITS:
        {
            //TODO
            std::clog << "[Notice - Game::reloadInfo] Reload type does not work." << std::endl;
            done = true;
            break;
        }

        case RELOAD_QUESTS:
        {
            if(Quests::getInstance()->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload quests." << std::endl;

            break;
        }

        case RELOAD_RAIDS:
        {
            if(!Raids::getInstance()->reload())
                std::clog << "[Error - Game::reloadInfo] Failed to reload raids." << std::endl;
            else if(!Raids::getInstance()->startup())
                std::clog << "[Error - Game::reloadInfo] Failed to startup raids when reloading." << std::endl;
            else
                done = true;

            break;
        }

        case RELOAD_SPELLS:
        {
            if(!g_spells->reload())
                std::clog << "[Error - Game::reloadInfo] Failed to reload spells." << std::endl;
            else if(!g_monsters.reload())
                std::clog << "[Error - Game::reloadInfo] Failed to reload monsters when reloading spells." << std::endl;
            else
                done = true;

            break;
        }

        case RELOAD_STAGES:
        {
            if(loadExperienceStages())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload stages." << std::endl;

            break;
        }

        case RELOAD_TALKACTIONS:
        {
            if(g_talkActions->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload talk actions." << std::endl;

            break;
        }

        case RELOAD_VOCATIONS:
        {
            if(Vocations::getInstance()->reload())
                done = true;
            else
                std::clog << "[Notice - Game::reloadInfo] Reload type does not work." << std::endl;

            break;
        }

        case RELOAD_WEAPONS:
        {
            //TODO
            std::clog << "[Notice - Game::reloadInfo] Reload type does not work." << std::endl;
            done = true;
            break;
        }

        case RELOAD_ALL:
        {
            done = true;
            for(int32_t i = RELOAD_FIRST; i <= RELOAD_LAST; i++)
            {
                if(!reloadInfo((ReloadInfo_t)i) && done)
                    done = false;
            }

            break;
        }

        default:
        {
            std::clog << "[Warning - Game::reloadInfo] Reload type not found." << std::endl;
            break;
        }
    }

    if(reload != RELOAD_MODS && !ScriptManager::getInstance()->reloadMods())
        std::clog << "[Error - Game::reloadInfo] Failed to reload mods." << std::endl;

    if(!playerId)
        return done;

    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return done;

    if(done)
    {
        player->sendTextMessage(MSG_STATUS_CONSOLE_BLUE, "Reloaded successfully.");
        return true;
    }

    if(reload == RELOAD_ALL)
        player->sendTextMessage(MSG_STATUS_CONSOLE_BLUE, "Failed to reload some parts.");
    else
        player->sendTextMessage(MSG_STATUS_CONSOLE_BLUE, "Failed to reload.");

    return false;
}

void Game::prepareGlobalSave()
{
    if(!globalSaveMessage[0])
    {
        setGameState(GAMESTATE_CLOSING);
        globalSaveMessage[0] = true;

        broadcastMessage("Server is going down for a global save within 5 minutes. Please logout.", MSG_STATUS_WARNING);
        Scheduler::getInstance().addEvent(createSchedulerTask(120000, boost::bind(&Game::prepareGlobalSave, this)));
    }
    else if(!globalSaveMessage[1])
    {
        globalSaveMessage[1] = true;
        broadcastMessage("Server is going down for a global save within 3 minutes. Please logout.", MSG_STATUS_WARNING);
        Scheduler::getInstance().addEvent(createSchedulerTask(120000, boost::bind(&Game::prepareGlobalSave, this)));
    }
    else if(!globalSaveMessage[2])
    {
        globalSaveMessage[2] = true;
        broadcastMessage("Server is going down for a global save in one minute, please logout!", MSG_STATUS_WARNING);
        Scheduler::getInstance().addEvent(createSchedulerTask(60000, boost::bind(&Game::prepareGlobalSave, this)));
    }
    else
        globalSave();
}

void Game::globalSave()
{
    bool close = g_config.getBool(ConfigManager::SHUTDOWN_AT_GLOBALSAVE);
    if(close) // check are we're going to close the server
        setGameState(GAMESTATE_CLOSING);

    // call the global event
    g_globalEvents->execute(GLOBALEVENT_GLOBALSAVE);
    if(close)
    {
        //shutdown server
        Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::setGameState, this, GAMESTATE_SHUTDOWN)));
        return;
    }

    //close server
    Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::setGameState, this, GAMESTATE_CLOSED)));
    //clean map if configured to
    if(g_config.getBool(ConfigManager::CLEAN_MAP_AT_GLOBALSAVE))
        cleanMap();

    //pay houses
    Houses::getInstance()->payHouses();
    //clear temporial and expired bans
    IOBan::getInstance()->clearTemporials();
    //remove premium days globally if configured to
    if(g_config.getBool(ConfigManager::INIT_PREMIUM_UPDATE))
        IOLoginData::getInstance()->updatePremiumDays();

    //reload everything
    reloadInfo(RELOAD_ALL);
    //reset variables
    for(int16_t i = 0; i < 3; i++)
        setGlobalSaveMessage(i, false);

    //prepare for next global save after 24 hours
    Scheduler::getInstance().addEvent(createSchedulerTask(86100000, boost::bind(&Game::prepareGlobalSave, this)));
    //open server
    Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::setGameState, this, GAMESTATE_NORMAL)));
}

void Game::shutdown()
{
    std::clog << "Preparing";
    Scheduler::getInstance().shutdown();
    std::clog << " to";
    Dispatcher::getInstance().shutdown();
    std::clog << " shutdown";
    Spawns::getInstance()->clear();
    std::clog << " the";
    Raids::getInstance()->clear();
    std::clog << " server";
    cleanup();
    std::clog << "- done." << std::endl;
    if(services)
        services->stop();
#ifndef __DONT_FORCE_SHUTDOWN__

    exit(-1);
#endif
}

void Game::cleanup()
{
    //free memory
    for(std::vector<Thing*>::iterator it = releaseThings.begin(); it != releaseThings.end(); ++it)
        (*it)->unRef();

    releaseThings.clear();
    for(DecayList::iterator it = toDecayItems.begin(); it != toDecayItems.end(); ++it)
    {
        int32_t dur = (*it)->getDuration();
        if(dur >= EVENT_DECAYINTERVAL * EVENT_DECAYBUCKETS)
            decayItems[lastBucket].push_back(*it);
        else
            decayItems[(lastBucket + 1 + (*it)->getDuration() / 1000) % EVENT_DECAYBUCKETS].push_back(*it);
    }

    toDecayItems.clear();
}

void Game::freeThing(Thing* thing)
{
    releaseThings.push_back(thing);
}

void Game::showHotkeyUseMessage(Player* player, Item* item)
{
    const ItemType& it = Item::items[item->getID()];
    uint32_t count = player->__getItemTypeCount(item->getID(), item->isFluidContainer() ? item->getFluidType() : -1);

    std::stringstream ss;
    if(count == 1)
        ss << "Voce Usou a(o) " << it.name.c_str() << "...";
    else
        ss << "Using one of " << count << " " << it.pluralName.c_str() << "...";

    player->sendTextMessage(MSG_INFO_DESCR, ss.str());
}

void Game::playerExtendedOpcode(uint32_t playerId, uint8_t opcode, const std::string& buffer)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return;

    CreatureEventList extendedOpcodeEvents = player->getCreatureEvents(CREATURE_EVENT_EXTENDED_OPCODE);
    for(CreatureEventList::iterator it = extendedOpcodeEvents.begin(); it != extendedOpcodeEvents.end(); ++it)
        (*it)->executeExtendedOpcode(player, opcode, buffer);
}
 

 

15 minutos atrás, Rogex Joyz disse:

posta seu game.cpp ai

////////////////////////////////////////////////////////////////////////
// OpenTibia - an opensource roleplaying game
////////////////////////////////////////////////////////////////////////
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program.  If not, see <http://www.gnu.org/licenses/>.
////////////////////////////////////////////////////////////////////////
#include "otpch.h"
#include "game.h"

#include "configmanager.h"
#ifdef __LOGIN_SERVER__
#include "gameservers.h"
#endif
#include "server.h"
#include "chat.h"

#include "luascript.h"
#include "creature.h"
#include "combat.h"
#include "tile.h"

#include "database.h"
#include "iologindata.h"
#include "ioban.h"
#include "ioguild.h"

#include "items.h"
#include "trashholder.h"
#include "container.h"
#include "monsters.h"

#include "house.h"
#include "quests.h"

#include "actions.h"
#include "globalevent.h"
#include "movement.h"
#include "raids.h"
#include "scriptmanager.h"
#include "spells.h"
#include "talkaction.h"
#include "weapons.h"

#include "vocation.h"
#include "group.h"

#ifdef __EXCEPTION_TRACER__
#include "exception.h"
#endif

extern ConfigManager g_config;
extern Actions* g_actions;
extern Monsters g_monsters;
extern Npcs g_npcs;
extern Chat g_chat;
extern TalkActions* g_talkActions;
extern Spells* g_spells;
extern MoveEvents* g_moveEvents;
extern Weapons* g_weapons;
extern CreatureEvents* g_creatureEvents;
extern GlobalEvents* g_globalEvents;

Game::Game()
{
    gameState = GAMESTATE_NORMAL;
    worldType = WORLDTYPE_OPEN;
    map = NULL;
    playersRecord = lastStageLevel = 0;
    for(int32_t i = 0; i < 3; i++)
        globalSaveMessage[i] = false;

    //(1440 minutes/day) * 10 seconds event interval / (3600 seconds/day)
    lightHourDelta = 1440 * 10 / 3600;
    lightHour = SUNRISE + (SUNSET - SUNRISE) / 2;
    lightLevel = LIGHT_LEVEL_DAY;
    lightState = LIGHT_STATE_DAY;

    lastBucket = checkCreatureLastIndex = checkLightEvent = checkCreatureEvent = checkDecayEvent = saveEvent = 0;
}

Game::~Game()
{
    if(map)
        delete map;
}

void Game::start(ServiceManager* servicer)
{
    checkDecayEvent = Scheduler::getInstance().addEvent(createSchedulerTask(EVENT_DECAYINTERVAL,
        boost::bind(&Game::checkDecay, this)));
    checkCreatureEvent = Scheduler::getInstance().addEvent(createSchedulerTask(EVENT_CREATURE_THINK_INTERVAL,
        boost::bind(&Game::checkCreatures, this)));
    checkLightEvent = Scheduler::getInstance().addEvent(createSchedulerTask(EVENT_LIGHTINTERVAL,
        boost::bind(&Game::checkLight, this)));

    services = servicer;
    if(!g_config.getBool(ConfigManager::GLOBALSAVE_ENABLED) || g_config.getNumber(ConfigManager::GLOBALSAVE_H) < 1 ||
        g_config.getNumber(ConfigManager::GLOBALSAVE_H) > 24 || g_config.getNumber(ConfigManager::GLOBALSAVE_M) < 0
        || g_config.getNumber(ConfigManager::GLOBALSAVE_M) > 59)
        return;

    time_t timeNow = time(NULL);
    const tm* theTime = localtime(&timeNow);

    int32_t prepareHour = g_config.getNumber(ConfigManager::GLOBALSAVE_H),
        prepareMinute = g_config.getNumber(ConfigManager::GLOBALSAVE_M) - 5,
        hoursLeft = 0, minutesLeft = 0;
    if(theTime->tm_hour > prepareHour)
    {
        hoursLeft = 23 - (theTime->tm_hour - prepareHour);
        if(theTime->tm_min > prepareMinute)
        {
            minutesLeft = 60 - (theTime->tm_min - prepareMinute);
            hoursLeft--;
        }
        else if(theTime->tm_min != prepareMinute)
            minutesLeft = prepareMinute - theTime->tm_min;
    }
    else if(theTime->tm_hour == prepareHour)
    {
        if(theTime->tm_min > (prepareMinute - 1) && theTime->tm_min < (prepareMinute + 6))
        {
            if(theTime->tm_min > (prepareMinute + 1))
                setGlobalSaveMessage(0, true);

            if(theTime->tm_min > (prepareMinute + 3))
                setGlobalSaveMessage(1, true);

            prepareGlobalSave();
        }
        else if(theTime->tm_min > prepareMinute)
        {
            minutesLeft = 60 - (theTime->tm_min - prepareMinute);
            hoursLeft = 23;
        }
        else
            minutesLeft = prepareMinute - theTime->tm_min;
    }
    else
    {
        hoursLeft = prepareHour - theTime->tm_hour;
        if(theTime->tm_min > prepareMinute)
        {
            minutesLeft = 60 - (theTime->tm_min - prepareMinute);
            hoursLeft--;
        }
        else if(theTime->tm_min != prepareMinute)
            minutesLeft = prepareMinute - theTime->tm_min;
    }

    if(!hoursLeft || !minutesLeft)
        return;

    uint32_t timeLeft = (hoursLeft * 3600000) + minutesLeft * 60000;
    saveEvent = Scheduler::getInstance().addEvent(createSchedulerTask(timeLeft,
        boost::bind(&Game::prepareGlobalSave, this)));
}

void Game::loadGameState()
{
    ScriptEnviroment::loadGameState();
    loadMotd();
    loadPlayersRecord();
    checkHighscores();
}

void Game::setGameState(GameState_t newState)
{
    if(gameState == GAMESTATE_SHUTDOWN)
        return; //this cannot be stopped

    if(gameState != newState)
    {
        gameState = newState;
        switch(newState)
        {
            case GAMESTATE_INIT:
            {
                Spawns::getInstance()->startup();
                Raids::getInstance()->loadFromXml();
                Raids::getInstance()->startup();
                Quests::getInstance()->loadFromXml();

                loadGameState();
                g_globalEvents->startup();

                IOBan::getInstance()->clearTemporials();
                if(g_config.getBool(ConfigManager::INIT_PREMIUM_UPDATE))
                    IOLoginData::getInstance()->updatePremiumDays();
                break;
            }

            case GAMESTATE_SHUTDOWN:
            {
                g_globalEvents->execute(GLOBALEVENT_SHUTDOWN);
                AutoList<Player>::iterator it = Player::autoList.begin();
                while(it != Player::autoList.end()) //kick all players that are still online
                {
                    it->second->kickPlayer(true, true);
                    it = Player::autoList.begin();
                }

                Houses::getInstance()->payHouses();
                saveGameState(false);
                Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::shutdown, this)));

                Scheduler::getInstance().stop();
                Dispatcher::getInstance().stop();
                break;
            }

            case GAMESTATE_CLOSED:
            {
                AutoList<Player>::iterator it = Player::autoList.begin();
                while(it != Player::autoList.end()) //kick all players who not allowed to stay
                {
                    if(!it->second->hasFlag(PlayerFlag_CanAlwaysLogin))
                    {
                        it->second->kickPlayer(true, true);
                        it = Player::autoList.begin();
                    }
                    else
                        ++it;
                }

                saveGameState(false);
                break;
            }

            case GAMESTATE_NORMAL:
            case GAMESTATE_MAINTAIN:
            case GAMESTATE_STARTUP:
            case GAMESTATE_CLOSING:
            default:
                break;
        }
    }
}

void Game::saveGameState(bool shallow)
{
    std::clog << "> Saving server..." << std::endl;
    uint64_t start = OTSYS_TIME();
    if(gameState == GAMESTATE_NORMAL)
        setGameState(GAMESTATE_MAINTAIN);

    IOLoginData* io = IOLoginData::getInstance();
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        it->second->loginPosition = it->second->getPosition();
        io->savePlayer(it->second, false, shallow);
    }

    std::string storage = "relational";
    if(g_config.getBool(ConfigManager::HOUSE_STORAGE))
        storage = "binary";

    map->saveMap();
    ScriptEnviroment::saveGameState();
    if(gameState == GAMESTATE_MAINTAIN)
        setGameState(GAMESTATE_NORMAL);

    std::clog << "> SAVE: Complete in " << (OTSYS_TIME() - start) / (1000.) << " seconds using "
        << storage << " house storage." << std::endl;
}

int32_t Game::loadMap(std::string filename)
{
    if(!map)
        map = new Map;

    std::string file = getFilePath(FILE_TYPE_CONFIG, "world/" + filename);
    if(!fileExists(file.c_str()))
        file = getFilePath(FILE_TYPE_OTHER, "world/" + filename);

    return map->loadMap(file);
}

void Game::cleanMapEx(uint32_t& count)
{
    uint64_t start = OTSYS_TIME();
    uint32_t tiles = 0; count = 0;

    int32_t marked = -1;
    if(gameState == GAMESTATE_NORMAL)
        setGameState(GAMESTATE_MAINTAIN);

    Tile* tile = NULL;
    ItemVector::iterator tit;
    if(g_config.getBool(ConfigManager::STORE_TRASH))
    {
        marked = trash.size();
        Trash::iterator it = trash.begin();
        if(g_config.getBool(ConfigManager::CLEAN_PROTECTED_ZONES))
        {
            for(; it != trash.end(); ++it)
            {
                if(!(tile = getTile(*it)))
                    continue;

                tile->resetFlag(TILESTATE_TRASHED);
                if(tile->hasFlag(TILESTATE_HOUSE) || !tile->getItemList())
                    continue;

                ++tiles;
                tit = tile->getItemList()->begin();
                while(tile->getItemList() && tit != tile->getItemList()->end())
                {
                    if((*tit)->isMoveable() && !(*tit)->isLoadedFromMap()
                        && !(*tit)->isScriptProtected())
                    {
                        internalRemoveItem(NULL, *tit);
                        if(tile->getItemList())
                            tit = tile->getItemList()->begin();

                        ++count;
                    }
                    else
                        ++tit;
                }
            }

            trash.clear();
        }
        else
        {
            for(; it != trash.end(); ++it)
            {
                if(!(tile = getTile(*it)))
                    continue;

                tile->resetFlag(TILESTATE_TRASHED);
                if(tile->hasFlag(TILESTATE_PROTECTIONZONE) || !tile->getItemList())
                    continue;

                ++tiles;
                tit = tile->getItemList()->begin();
                while(tile->getItemList() && tit != tile->getItemList()->end())
                {
                    if((*tit)->isMoveable() && !(*tit)->isLoadedFromMap()
                        && !(*tit)->isScriptProtected())
                    {
                        internalRemoveItem(NULL, *tit);
                        if(tile->getItemList())
                            tit = tile->getItemList()->begin();

                        ++count;
                    }
                    else
                        ++tit;
                }
            }

            trash.clear();
        }
    }
    else if(g_config.getBool(ConfigManager::CLEAN_PROTECTED_ZONES))
    {
        for(uint16_t z = 0; z < (uint16_t)MAP_MAX_LAYERS; z++)
        {
            for(uint16_t y = 1; y <= map->mapHeight; y++)
            {
                for(uint16_t x = 1; x <= map->mapWidth; x++)
                {
                    if(!(tile = getTile(x, y, z)) || tile->hasFlag(TILESTATE_HOUSE) || !tile->getItemList())
                        continue;

                    ++tiles;
                    tit = tile->getItemList()->begin();
                    while(tile->getItemList() && tit != tile->getItemList()->end())
                    {
                        if((*tit)->isMoveable() && !(*tit)->isLoadedFromMap()
                            && !(*tit)->isScriptProtected())
                        {
                            internalRemoveItem(NULL, *tit);
                            if(tile->getItemList())
                                tit = tile->getItemList()->begin();

                            ++count;
                        }
                        else
                            ++tit;
                    }
                }
            }
        }
    }
    else
    {
        for(uint16_t z = 0; z < (uint16_t)MAP_MAX_LAYERS; z++)
        {
            for(uint16_t y = 1; y <= map->mapHeight; y++)
            {
                for(uint16_t x = 1; x <= map->mapWidth; x++)
                {
                    if(!(tile = getTile(x, y, z)) || tile->hasFlag(TILESTATE_PROTECTIONZONE) || !tile->getItemList())
                        continue;

                    ++tiles;
                    tit = tile->getItemList()->begin();
                    while(tile->getItemList() && tit != tile->getItemList()->end())
                    {
                        if((*tit)->isMoveable() && !(*tit)->isLoadedFromMap()
                            && !(*tit)->isScriptProtected())
                        {
                            internalRemoveItem(NULL, *tit);
                            if(tile->getItemList())
                                tit = tile->getItemList()->begin();

                            ++count;
                        }
                        else
                            ++tit;
                    }
                }
            }
        }
    }

    if(gameState == GAMESTATE_MAINTAIN)
        setGameState(GAMESTATE_NORMAL);

    std::clog << "> CLEAN: Removed " << count << " item" << (count != 1 ? "s" : "")
        << " from " << tiles << " tile" << (tiles != 1 ? "s" : "");
    if(marked >= 0)
        std::clog << " (" << marked << " were marked)";

    std::clog << " in " << (OTSYS_TIME() - start) / (1000.) << " seconds." << std::endl;
}

void Game::cleanMap()
{
    uint32_t dummy;
    cleanMapEx(dummy);
}

void Game::proceduralRefresh(RefreshTiles::iterator* it/* = NULL*/)
{
    if(!it)
        it = new RefreshTiles::iterator(refreshTiles.begin());

    // Refresh 250 tiles each cycle
    refreshMap(it, 250);
    if((*it) != refreshTiles.end())
    {
        delete it;
        return;
    }

    // Refresh some items every 100 ms until all tiles has been checked
    // For 100k tiles, this would take 100000/2500 = 40s = half a minute
    Scheduler::getInstance().addEvent(createSchedulerTask(100,
        boost::bind(&Game::proceduralRefresh, this, it)));
}

void Game::refreshMap(RefreshTiles::iterator* it/* = NULL*/, uint32_t limit/* = 0*/)
{
    RefreshTiles::iterator end = refreshTiles.end();
    if(!it)
    {
        RefreshTiles::iterator begin = refreshTiles.begin();
        it = &begin;
    }

    Tile* tile = NULL;
    TileItemVector* items = NULL;

    Item* item = NULL;
    for(uint32_t cleaned = 0, downItemsSize = 0; (*it) != end &&
        (limit ? (cleaned < limit) : true); ++(*it), ++cleaned)
    {
        if(!(tile = (*it)->first))
            continue;

        if((items = tile->getItemList()))
        {
            downItemsSize = tile->getDownItemCount();
            for(uint32_t i = downItemsSize - 1; i; --i)
            {
                if((item = items->at(i)))
                {
                    #ifndef __DEBUG__
                    internalRemoveItem(NULL, item);
                    #else
                    if(internalRemoveItem(NULL, item) != RET_NOERROR)
                    {
                        std::clog << "> WARNING: Could not refresh item: " << item->getID();
                        std::clog << " at position: " << tile->getPosition() << std::endl;
                    }
                    #endif
                }
            }
        }

        cleanup();
        TileItemVector list = (*it)->second.list;
        for(ItemVector::reverse_iterator it = list.rbegin(); it != list.rend(); ++it)
        {
            Item* item = (*it)->clone();
            if(internalAddItem(NULL, tile, item , INDEX_WHEREEVER, FLAG_NOLIMIT) == RET_NOERROR)
            {
                if(item->getUniqueId() != 0)
                    ScriptEnviroment::addUniqueThing(item);

                startDecay(item);
            }
            else
            {
                std::clog << "> WARNING: Could not refresh item: " << item->getID()
                    << " at position: " << tile->getPosition() << std::endl;
                delete item;
            }
        }
    }
}

bool Game::isSwimmingPool(Item* item, const Tile* tile, bool checkProtection) const
{
    if(!tile)
        return false;

    TrashHolder* trashHolder = NULL;
    if(!item)
        trashHolder = tile->getTrashHolder();
    else
        trashHolder = item->getTrashHolder();

    return trashHolder && trashHolder->getEffect() == MAGIC_EFFECT_LOSE_ENERGY && (!checkProtection
        || tile->getZone() == ZONE_PROTECTION || tile->getZone() == ZONE_OPTIONAL);
}

Cylinder* Game::internalGetCylinder(Player* player, const Position& pos)
{
    if(pos.x != 0xFFFF)
        return getTile(pos);

    //container
    if(pos.y & 0x40)
        return player->getContainer((uint8_t)(pos.y & 0x0F));

    return player;
}

Thing* Game::internalGetThing(Player* player, const Position& pos, int32_t index,
    uint32_t spriteId/* = 0*/, stackposType_t type/* = STACKPOS_NORMAL*/)
{
    if(pos.x != 0xFFFF)
    {
        Tile* tile = getTile(pos);
        if(!tile)
            return NULL;

        if(type == STACKPOS_LOOK)
            return tile->getTopVisibleThing(player);

        Thing* thing = NULL;
        switch(type)
        {
            case STACKPOS_MOVE:
            {
                Item* item = tile->getTopDownItem();
                if(item && item->isMoveable())
                    thing = item;
                else
                    thing = tile->getTopVisibleCreature(player);

                break;
            }

            case STACKPOS_USE:
            {
                thing = tile->getTopDownItem();
                break;
            }

            case STACKPOS_USEITEM:
            {
                Item* downItem = tile->getTopDownItem();
                Item* item = tile->getItemByTopOrder(2);
                if(item && g_actions->hasAction(item))
                {
                    const ItemType& it = Item::items[item->getID()];
                    if(!downItem || (!it.hasHeight && !it.allowPickupable))
                        thing = item;
                }

                if(!thing)
                    thing = downItem;

                if(!thing)
                    thing = tile->getTopTopItem();

                if(!thing)
                    thing = tile->ground;

                break;
            }

            default:
                thing = tile->__getThing(index);
                break;
        }

        if(player && thing && thing->getItem())
        {
            if(tile->hasProperty(ISVERTICAL))
            {
                if(player->getPosition().x + 1 == tile->getPosition().x)
                    thing = NULL;
            }
            else if(tile->hasProperty(ISHORIZONTAL) && player->getPosition().y + 1 == tile->getPosition().y)
                thing = NULL;
        }

        return thing;
    }
    else if(pos.y & 0x40)
    {
        uint8_t fromCid = pos.y & 0x0F, slot = pos.z;
        if(Container* parentcontainer = player->getContainer(fromCid))
            return parentcontainer->getItem(slot);
    }
    else if(!pos.y && !pos.z)
    {
        const ItemType& it = Item::items.getItemIdByClientId(spriteId);
        if(!it.id)
            return NULL;

        int32_t subType = -1;
        if(it.isFluidContainer() && index < int32_t(sizeof(reverseFluidMap) / sizeof(int8_t)))
            subType = reverseFluidMap[index];

        return findItemOfType(player, it.id, true, subType);
    }

    return player->getInventoryItem((slots_t)static_cast<uint8_t>(pos.y));
}

void Game::internalGetPosition(Item* item, Position& pos, int16_t& stackpos)
{
    pos.x = pos.y = pos.z = stackpos = 0;
    if(Cylinder* topParent = item->getTopParent())
    {
        if(Player* player = dynamic_cast<Player*>(topParent))
        {
            pos.x = 0xFFFF;

            Container* container = dynamic_cast<Container*>(item->getParent());
            if(container)
            {
                pos.y = ((uint16_t) ((uint16_t)0x40) | ((uint16_t)player->getContainerID(container)) );
                pos.z = container->__getIndexOfThing(item);
                stackpos = pos.z;
            }
            else
            {
                pos.y = player->__getIndexOfThing(item);
                stackpos = pos.y;
            }
        }
        else if(Tile* tile = topParent->getTile())
        {
            pos = tile->getPosition();
            stackpos = tile->__getIndexOfThing(item);
        }
    }
}

Creature* Game::getCreatureByID(uint32_t id)
{
    if(!id)
        return NULL;

    AutoList<Creature>::iterator it = autoList.find(id);
    if(it != autoList.end() && !it->second->isRemoved())
        return it->second;

    return NULL; //just in case the player doesnt exist
}

Player* Game::getPlayerByID(uint32_t id)
{
    if(!id)
        return NULL;

    AutoList<Player>::iterator it = Player::autoList.find(id);
    if(it != Player::autoList.end() && !it->second->isRemoved())
        return it->second;

    return NULL; //just in case the player doesnt exist
}

Creature* Game::getCreatureByName(std::string s)
{
    if(s.empty())
        return NULL;

    toLowerCaseString(s);
    for(AutoList<Creature>::iterator it = autoList.begin(); it != autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && asLowerCaseString(it->second->getName()) == s)
            return it->second;
    }

    return NULL; //just in case the creature doesnt exist
}

Player* Game::getPlayerByName(std::string s)
{
    if(s.empty())
        return NULL;

    toLowerCaseString(s);
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && asLowerCaseString(it->second->getName()) == s)
            return it->second;
    }

    return NULL;
}

Player* Game::getPlayerByNameEx(const std::string& s)
{
    Player* player = getPlayerByName(s);
    if(player)
        return player;

    std::string name = s;
    if(!IOLoginData::getInstance()->playerExists(name))
        return NULL;

    player = new Player(name, NULL);
    if(IOLoginData::getInstance()->loadPlayer(player, name))
        return player;

#ifdef __DEBUG__
    std::clog << "[Failure - Game::getPlayerByNameEx] Cannot load player: " << name << std::endl;
#endif
    delete player;
    return NULL;
}

Player* Game::getPlayerByGuid(uint32_t guid)
{
    if(!guid)
        return NULL;

    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && it->second->getGUID() == guid)
            return it->second;
    }

    return NULL;
}

Player* Game::getPlayerByGuidEx(uint32_t guid)
{
    Player* player = getPlayerByGuid(guid);
    if(player)
        return player;

    std::string name;
    if(!IOLoginData::getInstance()->getNameByGuid(guid, name))
        return NULL;

    player = new Player(name, NULL);
    if(IOLoginData::getInstance()->loadPlayer(player, name))
        return player;

#ifdef __DEBUG__
    std::clog << "[Failure - Game::getPlayerByGuidEx] Cannot load player: " << name << std::endl;
#endif
    delete player;
    return NULL;
}

ReturnValue Game::getPlayerByNameWildcard(std::string s, Player*& player)
{
    player = NULL;
    if(s.empty())
        return RET_PLAYERWITHTHISNAMEISNOTONLINE;

    char tmp = *s.rbegin();
    if(tmp != '~' && tmp != '*')
    {
        player = getPlayerByName(s);
        if(!player)
            return RET_PLAYERWITHTHISNAMEISNOTONLINE;

        return RET_NOERROR;
    }

    Player* last = NULL;
    s = s.substr(0, s.length() - 1);

    toLowerCaseString(s);
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(it->second->isRemoved())
            continue;

        std::string name = asLowerCaseString(it->second->getName());
        if(name.substr(0, s.length()) != s)
            continue;

        if(last)
            return RET_NAMEISTOOAMBIGUOUS;

        last = it->second;
    }

    if(!last)
        return RET_PLAYERWITHTHISNAMEISNOTONLINE;

    player = last;
    return RET_NOERROR;
}

Player* Game::getPlayerByAccount(uint32_t acc)
{
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && it->second->getAccount() == acc)
            return it->second;
    }

    return NULL;
}

PlayerVector Game::getPlayersByName(std::string s)
{
    toLowerCaseString(s);
    PlayerVector players;
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && asLowerCaseString(it->second->getName()) == s)
            players.push_back(it->second);
    }

    return players;
}

PlayerVector Game::getPlayersByAccount(uint32_t acc)
{
    PlayerVector players;
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && it->second->getAccount() == acc)
            players.push_back(it->second);
    }

    return players;
}

PlayerVector Game::getPlayersByIP(uint32_t ip, uint32_t mask)
{
    PlayerVector players;
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
    {
        if(!it->second->isRemoved() && (it->second->getIP() & mask) == (ip & mask))
            players.push_back(it->second);
    }

    return players;
}

bool Game::internalPlaceCreature(Creature* creature, const Position& pos, bool extendedPos /*= false*/, bool forced /*= false*/)
{
    if(creature->getParent())
        return false;

    if(!map->placeCreature(pos, creature, extendedPos, forced))
        return false;

    creature->addRef();
    creature->setID();

    autoList[creature->getID()] = creature;
    creature->addList();
    return true;
}

bool Game::placeCreature(Creature* creature, const Position& pos, bool extendedPos /*= false*/, bool forced /*= false*/)
{
    if(!internalPlaceCreature(creature, pos, extendedPos, forced))
        return false;

    Player* tmpPlayer = NULL;
    if((tmpPlayer = creature->getPlayer()) && !tmpPlayer->storedConditionList.empty())
    {
        for(ConditionList::iterator it = tmpPlayer->storedConditionList.begin(); it != tmpPlayer->storedConditionList.end(); ++it)
        {
            if((*it)->getType() == CONDITION_MUTED && ((*it)->getTicks() - (
                (time(NULL) - tmpPlayer->getLastLogout()) * 1000)) <= 0)
                continue;

            tmpPlayer->addCondition(*it);
        }

        tmpPlayer->storedConditionList.clear();
    }

    SpectatorVec::iterator it;
    SpectatorVec list;

    getSpectators(list, creature->getPosition(), false, true);
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureAppear(creature);
    }

    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureAppear(creature);

    creature->setLastPosition(pos);
    creature->getParent()->postAddNotification(NULL, creature, NULL, creature->getParent()->__getIndexOfThing(creature));
    addCreatureCheck(creature);

    creature->onPlacedCreature();
    return true;
}

ReturnValue Game::placeSummon(Creature* creature, const std::string& name)
{
    Monster* monster = Monster::createMonster(name);
    if(!monster)
        return RET_NOTPOSSIBLE;

    // Place the monster
    creature->addSummon(monster);
    if(placeCreature(monster, creature->getPosition(), true))
    {
        addMagicEffect(monster->getPosition(), MAGIC_EFFECT_TELEPORT);
        return RET_NOERROR;
    }

    creature->removeSummon(monster);
    return RET_NOTENOUGHROOM;
}

bool Game::removeCreature(Creature* creature, bool isLogout /*= true*/)
{
    if(creature->isRemoved())
        return false;

    Tile* tile = creature->getTile();
    SpectatorVec list;
    getSpectators(list, tile->getPosition(), false, true);

    SpectatorVec::iterator it;
    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureDisappear(creature, isLogout);

    if(tile != creature->getTile())
    {
        list.clear();
        tile = creature->getTile();
        getSpectators(list, tile->getPosition(), false, true);
    }

    Player* player = NULL;
    std::vector<uint32_t> oldStackPosVector;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((player = (*it)->getPlayer()) && player->canSeeCreature(creature))
            oldStackPosVector.push_back(tile->getClientIndexOfThing(player, creature));
    }

    int32_t oldIndex = tile->__getIndexOfThing(creature);
    if(!map->removeCreature(creature))
        return false;

    //send to client
    uint32_t i = 0;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if(creature != (*it))
            (*it)->updateTileCache(tile);

        if(!(player = (*it)->getPlayer()) || !player->canSeeCreature(creature))
            continue;

        player->sendCreatureDisappear(creature, oldStackPosVector[i]);
        ++i;
    }

    creature->getParent()->postRemoveNotification(NULL, creature, NULL, oldIndex, true);
    creature->onRemovedCreature();

    autoList.erase(creature->getID());
    freeThing(creature);

    removeCreatureCheck(creature);
    for(std::list<Creature*>::iterator it = creature->summons.begin(); it != creature->summons.end(); ++it)
        removeCreature(*it);

    return true;
}

bool Game::playerMoveThing(uint32_t playerId, const Position& fromPos,
    uint16_t spriteId, int16_t fromStackpos, const Position& toPos, uint8_t count)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    uint8_t fromIndex = 0;
    if(fromPos.x == 0xFFFF)
    {
        if(fromPos.y & 0x40)
            fromIndex = static_cast<uint8_t>(fromPos.z);
        else
            fromIndex = static_cast<uint8_t>(fromPos.y);
    }
    else
        fromIndex = fromStackpos;

    Thing* thing = internalGetThing(player, fromPos, fromIndex, spriteId, STACKPOS_MOVE);
    Cylinder* toCylinder = internalGetCylinder(player, toPos);
    if(!thing || !toCylinder)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    if(Creature* movingCreature = thing->getCreature())
    {
        uint32_t delay = g_config.getNumber(ConfigManager::PUSH_CREATURE_DELAY);
        if(Position::areInRange<1,1,0>(movingCreature->getPosition(), player->getPosition()) && delay > 0
            && !player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
        {
            SchedulerTask* task = createSchedulerTask(delay, boost::bind(&Game::playerMoveCreature, this,
                player->getID(), movingCreature->getID(), movingCreature->getPosition(), toCylinder->getPosition()));
            player->setNextActionTask(task);
        }
        else
            playerMoveCreature(playerId, movingCreature->getID(), movingCreature->getPosition(), toCylinder->getPosition());
    }
    else if(thing->getItem())
        playerMoveItem(playerId, fromPos, spriteId, fromStackpos, toPos, count);

    return true;
}

bool Game::playerMoveCreature(uint32_t playerId, uint32_t movingCreatureId,
    const Position& movingCreaturePos, const Position& toPos)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || player->hasFlag(PlayerFlag_CannotMoveCreatures))
        return false;

    if(!player->canDoAction())
    {
        uint32_t delay = player->getNextActionTime();
        SchedulerTask* task = createSchedulerTask(delay, boost::bind(&Game::playerMoveCreature,
            this, playerId, movingCreatureId, movingCreaturePos, toPos));

        player->setNextActionTask(task);
        return false;
    }

    Creature* movingCreature = getCreatureByID(movingCreatureId);
    if(!movingCreature || movingCreature->isRemoved() || movingCreature->getNoMove())
        return false;

    player->setNextActionTask(NULL);
    if(!Position::areInRange<1,1,0>(movingCreaturePos, player->getPosition()) && !player->hasCustomFlag(PlayerCustomFlag_CanMoveFromFar))
    {
        //need to walk to the creature first before moving it
        std::list<Direction> listDir;
        if(getPathToEx(player, movingCreaturePos, listDir, 0, 1, true, true))
        {
            Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                this, player->getID(), listDir)));
            SchedulerTask* task = createSchedulerTask(player->getStepDuration(),
                boost::bind(&Game::playerMoveCreature, this, playerId, movingCreatureId, movingCreaturePos, toPos));

            player->setNextWalkActionTask(task);
            return true;
        }

        player->sendCancelMessage(RET_THEREISNOWAY);
        return false;
    }

    Tile* toTile = map->getTile(toPos);
    if(!toTile)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    if((!movingCreature->isPushable() && !player->hasFlag(PlayerFlag_CanPushAllCreatures)) || !player->canSeeCreature(movingCreature))
    {
        player->sendCancelMessage(RET_NOTMOVEABLE);
        return false;
    }

    //check throw distance
    const Position& pos = movingCreature->getPosition();
    if(!player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere) && ((std::abs(pos.x - toPos.x) > movingCreature->getThrowRange()) ||
        (std::abs(pos.y - toPos.y) > movingCreature->getThrowRange()) || (std::abs(pos.z - toPos.z) * 4 > movingCreature->getThrowRange())))
    {
        player->sendCancelMessage(RET_DESTINATIONOUTOFREACH);
        return false;
    }

    if(player != movingCreature)
    {
        if(toTile->hasProperty(BLOCKPATH))
        {
            player->sendCancelMessage(RET_NOTENOUGHROOM);
            return false;
        }

        if((movingCreature->getZone() == ZONE_PROTECTION || movingCreature->getZone() == ZONE_OPTIONAL)
            && !toTile->hasFlag(TILESTATE_OPTIONALZONE) && !toTile->hasFlag(TILESTATE_PROTECTIONZONE)
            && !player->hasFlag(PlayerFlag_IgnoreProtectionZone))
        {
            player->sendCancelMessage(RET_NOTPOSSIBLE);
            return false;
        }

        if(!player->hasFlag(PlayerFlag_CanPushAllCreatures))
        {
            if(toTile->getCreatures() && !toTile->getCreatures()->empty())
            {
                player->sendCancelMessage(RET_NOTPOSSIBLE);
                return false;
            }

            uint32_t protectionLevel = g_config.getNumber(ConfigManager::PROTECTION_LEVEL);
            if(player->getLevel() < protectionLevel && player->getVocation()->isAttackable())
            {
                Player* movingPlayer = movingCreature->getPlayer();
                if(movingPlayer && movingPlayer->getLevel() >= protectionLevel
                    && movingPlayer->getVocation()->isAttackable())
                {
                    player->sendCancelMessage(RET_PLAYERISNOTREACHABLE);
                    return false;
                }
            }
        }
    }

    bool deny = false;
    CreatureEventList pushEvents = player->getCreatureEvents(CREATURE_EVENT_PUSH);
    for(CreatureEventList::iterator it = pushEvents.begin(); it != pushEvents.end(); ++it)
    {
        if(!(*it)->executePush(player, movingCreature) && !deny)
            deny = true;
    }

    if(deny)
        return false;

    ReturnValue ret = internalMoveCreature(player, movingCreature, movingCreature->getTile(), toTile);
    if(ret != RET_NOERROR)
    {
        if(!player->hasCustomFlag(PlayerCustomFlag_CanMoveFromFar) || !player->hasCustomFlag(PlayerCustomFlag_CanMoveAnywhere))
        {
            player->sendCancelMessage(ret);
            return false;
        }

        if(!toTile->ground)
        {
            player->sendCancelMessage(RET_NOTPOSSIBLE);
            return true;
        }

        internalTeleport(movingCreature, toTile->getPosition(), false);
        return true;
    }

    if(Player* movingPlayer = movingCreature->getPlayer())
    {
        uint64_t delay = OTSYS_TIME() + movingPlayer->getStepDuration();
        if(delay > movingPlayer->getNextActionTime())
            movingPlayer->setNextAction(delay);
    }

    return true;
}

ReturnValue Game::internalMoveCreature(Creature* creature, Direction direction, uint32_t flags/* = 0*/)
{
    const Position& currentPos = creature->getPosition();
    Cylinder* fromTile = creature->getTile();
    Cylinder* toTile = NULL;

    Position destPos = getNextPosition(direction, currentPos);
    if(direction < SOUTHWEST && creature->getPlayer())
    {
        Tile* tmpTile = NULL;
        if(currentPos.z != 8 && creature->getTile()->hasHeight(3)) //try go up
        {
            if((!(tmpTile = map->getTile(Position(currentPos.x, currentPos.y, currentPos.z - 1)))
                || (!tmpTile->ground && !tmpTile->hasProperty(BLOCKSOLID))) &&
                (tmpTile = map->getTile(Position(destPos.x, destPos.y, destPos.z - 1)))
                && tmpTile->ground && !tmpTile->hasProperty(BLOCKSOLID))
            {
                flags = flags | FLAG_IGNOREBLOCKITEM | FLAG_IGNOREBLOCKCREATURE;
                if(!tmpTile->floorChange())
                    destPos.z--;
            }
        }
        else if(currentPos.z != 7 && (!(tmpTile = map->getTile(destPos)) || (!tmpTile->ground &&
            !tmpTile->hasProperty(BLOCKSOLID))) && (tmpTile = map->getTile(Position(
            destPos.x, destPos.y, destPos.z + 1))) && tmpTile->hasHeight(3)) //try go down
        {
            flags = flags | FLAG_IGNOREBLOCKITEM | FLAG_IGNOREBLOCKCREATURE;
            destPos.z++;
        }
    }

    ReturnValue ret = RET_NOTPOSSIBLE;
    if((toTile = map->getTile(destPos)))
        ret = internalMoveCreature(NULL, creature, fromTile, toTile, flags);

    if(ret == RET_NOERROR)
        return RET_NOERROR;

    Player* player = creature->getPlayer();
    if(!player)
        return ret;

    player->sendCancelMessage(ret);
    player->sendCancelWalk();
    return ret;
}

ReturnValue Game::internalMoveCreature(Creature* actor, Creature* creature, Cylinder* fromCylinder,
    Cylinder* toCylinder, uint32_t flags/* = 0*/, bool forceTeleport/* = false*/)
{
    //check if we can move the creature to the destination
    ReturnValue ret = toCylinder->__queryAdd(0, creature, 1, flags);
    if(ret != RET_NOERROR)
        return ret;

    fromCylinder->getTile()->moveCreature(actor, creature, toCylinder, forceTeleport);
    if(creature->getParent() != toCylinder)
        return RET_NOERROR;

    Item* toItem = NULL;
    Cylinder* subCylinder = NULL;

    int32_t n = 0, tmp = 0;
    while((subCylinder = toCylinder->__queryDestination(tmp, creature, &toItem, flags)) != toCylinder)
    {
        toCylinder->getTile()->moveCreature(actor, creature, subCylinder);
        if(creature->getParent() != subCylinder) //could happen if a script move the creature
             break;

        toCylinder = subCylinder;
        flags = 0;
        if(++n >= MAP_MAX_LAYERS) //to prevent infinite loop
            break;
    }

    return RET_NOERROR;
}

bool Game::playerMoveItem(uint32_t playerId, const Position& fromPos,
    uint16_t spriteId, int16_t fromStackpos, const Position& toPos, uint8_t count)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || player->hasFlag(PlayerFlag_CannotMoveItems))
        return false;

    if(!player->canDoAction())
    {
        uint32_t delay = player->getNextActionTime();
        SchedulerTask* task = createSchedulerTask(delay, boost::bind(&Game::playerMoveItem, this,
            playerId, fromPos, spriteId, fromStackpos, toPos, count));

        player->setNextActionTask(task);
        return false;
    }

    player->setNextActionTask(NULL);
    Cylinder* fromCylinder = internalGetCylinder(player, fromPos);

    uint8_t fromIndex = 0;
    if(fromPos.x == 0xFFFF)
    {
        if(fromPos.y & 0x40)
            fromIndex = static_cast<uint8_t>(fromPos.z);
        else
            fromIndex = static_cast<uint8_t>(fromPos.y);
    }
    else
        fromIndex = fromStackpos;

    Thing* thing = internalGetThing(player, fromPos, fromIndex, spriteId, STACKPOS_MOVE);
    if(!thing || !thing->getItem())
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Item* item = thing->getItem();
    Cylinder* toCylinder = internalGetCylinder(player, toPos);

    uint8_t toIndex = 0;
    if(toPos.x == 0xFFFF)
    {
        if(toPos.y & 0x40)
            toIndex = static_cast<uint8_t>(toPos.z);
        else
            toIndex = static_cast<uint8_t>(toPos.y);
    }

    if(!fromCylinder || !toCylinder || !item || item->getClientID() != spriteId)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    if(!player->hasCustomFlag(PlayerCustomFlag_CanPushAllItems) && (!item->isPushable() || (item->isLoadedFromMap() &&
        (item->getUniqueId() != 0 || (item->getActionId() != 0 && item->getContainer())))))
    {
        player->sendCancelMessage(RET_NOTMOVEABLE);
        return false;
    }

    const Position &mapToPos = toCylinder->getTile()->getPosition(), &playerPos = player->getPosition(),
        &mapFromPos = fromCylinder->getTile()->getPosition();
    if(playerPos.z > mapFromPos.z && !player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
    {
        player->sendCancelMessage(RET_FIRSTGOUPSTAIRS);
        return false;
    }

    if(playerPos.z < mapFromPos.z && !player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
    {
        player->sendCancelMessage(RET_FIRSTGODOWNSTAIRS);
        return false;
    }

    if(!Position::areInRange<1,1,0>(playerPos, mapFromPos) && !player->hasCustomFlag(PlayerCustomFlag_CanMoveFromFar))
    {
        //need to walk to the item first before using it
        std::list<Direction> listDir;
        if(getPathToEx(player, item->getPosition(), listDir, 0, 1, true, true))
        {
            Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                this, player->getID(), listDir)));
            SchedulerTask* task = createSchedulerTask(player->getStepDuration(),
                boost::bind(&Game::playerMoveItem, this, playerId, fromPos, spriteId, fromStackpos, toPos, count));

            player->setNextWalkActionTask(task);
            return true;
        }

        player->sendCancelMessage(RET_THEREISNOWAY);
        return false;
    }

    //hangable item specific code
    if(item->isHangable() && toCylinder->getTile()->hasProperty(SUPPORTHANGABLE))
    {
        //destination supports hangable objects so need to move there first
        if(toCylinder->getTile()->hasProperty(ISVERTICAL))
        {
            if(player->getPosition().x + 1 == mapToPos.x)
            {
                player->sendCancelMessage(RET_NOTPOSSIBLE);
                return false;
            }
        }
        else if(toCylinder->getTile()->hasProperty(ISHORIZONTAL))
        {
            if(player->getPosition().y + 1 == mapToPos.y)
            {
                player->sendCancelMessage(RET_NOTPOSSIBLE);
                return false;
            }
        }

        if(!Position::areInRange<1,1,0>(playerPos, mapToPos) && !player->hasCustomFlag(PlayerCustomFlag_CanMoveFromFar))
        {
            Position walkPos = mapToPos;
            if(toCylinder->getTile()->hasProperty(ISVERTICAL))
                walkPos.x -= -1;

            if(toCylinder->getTile()->hasProperty(ISHORIZONTAL))
                walkPos.y -= -1;

            Position itemPos = fromPos;
            int16_t itemStackpos = fromStackpos;
            if(fromPos.x != 0xFFFF && Position::areInRange<1,1,0>(mapFromPos, player->getPosition())
                && !Position::areInRange<1,1,0>(mapFromPos, walkPos))
            {
                //need to pickup the item first
                Item* moveItem = NULL;
                ReturnValue ret = internalMoveItem(player, fromCylinder, player, INDEX_WHEREEVER, item, count, &moveItem);
                if(ret != RET_NOERROR)
                {
                    player->sendCancelMessage(ret);
                    return false;
                }

                //changing the position since its now in the inventory of the player
                internalGetPosition(moveItem, itemPos, itemStackpos);
            }

            std::list<Direction> listDir;
            if(map->getPathTo(player, walkPos, listDir))
            {
                Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                    this, player->getID(), listDir)));
                SchedulerTask* task = createSchedulerTask(player->getStepDuration(),
                    boost::bind(&Game::playerMoveItem, this, playerId, itemPos, spriteId, itemStackpos, toPos, count));

                player->setNextWalkActionTask(task);
                return true;
            }

            player->sendCancelMessage(RET_THEREISNOWAY);
            return false;
        }
    }

    if(!player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
    {
        if((std::abs(playerPos.x - mapToPos.x) > item->getThrowRange()) ||
            (std::abs(playerPos.y - mapToPos.y) > item->getThrowRange()) ||
            (std::abs(mapFromPos.z - mapToPos.z) * 4 > item->getThrowRange()))
        {
            player->sendCancelMessage(RET_DESTINATIONOUTOFREACH);
            return false;
        }
    }

    if(!canThrowObjectTo(mapFromPos, mapToPos) && !player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
    {
        player->sendCancelMessage(RET_CANNOTTHROW);
        return false;
    }

    if(!g_creatureEvents->executeMoveItems(player, item, mapFromPos, mapToPos))
        return false;

    ReturnValue ret = internalMoveItem(player, fromCylinder, toCylinder, toIndex, item, count, NULL);
    if(ret == RET_NOERROR)
        return true;

    player->sendCancelMessage(ret);
    return false;
}

ReturnValue Game::internalMoveItem(Creature* actor, Cylinder* fromCylinder, Cylinder* toCylinder,
    int32_t index, Item* item, uint32_t count, Item** _moveItem, uint32_t flags /*= 0*/)
{
    if(!toCylinder)
        return RET_NOTPOSSIBLE;

    if(!item->getParent())
    {
        assert(fromCylinder == item->getParent());
        return internalAddItem(actor, toCylinder, item, INDEX_WHEREEVER, FLAG_NOLIMIT);
    }

    Item* toItem = NULL;
    Cylinder* subCylinder = NULL;

    int32_t floor = 0;
    while((subCylinder = toCylinder->__queryDestination(index, item, &toItem, flags)) != toCylinder)
    {
        toCylinder = subCylinder;
        flags = 0;
        //to prevent infinite loop
        if(++floor >= MAP_MAX_LAYERS)
            break;
    }

    //destination is the same as the source?
    if(item == toItem)
        return RET_NOERROR; //silently ignore move

    //check if we can add this item
    ReturnValue ret = toCylinder->__queryAdd(index, item, count, flags);
    if(ret == RET_NEEDEXCHANGE)
    {
        //check if we can add it to source cylinder
        int32_t fromIndex = fromCylinder->__getIndexOfThing(item);

        ret = fromCylinder->__queryAdd(fromIndex, toItem, toItem->getItemCount(), 0);
        if(ret == RET_NOERROR)
        {
            //check how much we can move
            uint32_t maxExchangeQueryCount = 0;
            ReturnValue retExchangeMaxCount = fromCylinder->__queryMaxCount(-1, toItem, toItem->getItemCount(), maxExchangeQueryCount, 0);

            if(retExchangeMaxCount != RET_NOERROR && maxExchangeQueryCount == 0)
                return retExchangeMaxCount;

            if((toCylinder->__queryRemove(toItem, toItem->getItemCount(), flags) == RET_NOERROR) && ret == RET_NOERROR)
            {
                int32_t oldToItemIndex = toCylinder->__getIndexOfThing(toItem);
                toCylinder->__removeThing(toItem, toItem->getItemCount());

                fromCylinder->__addThing(actor, toItem);
                if(oldToItemIndex != -1)
                    toCylinder->postRemoveNotification(actor, toItem, fromCylinder, oldToItemIndex, true);

                int32_t newToItemIndex = fromCylinder->__getIndexOfThing(toItem);
                if(newToItemIndex != -1)
                    fromCylinder->postAddNotification(actor, toItem, toCylinder, newToItemIndex);

                ret = toCylinder->__queryAdd(index, item, count, flags);
                toItem = NULL;
            }
        }
    }

    if(ret != RET_NOERROR)
        return ret;

    //check how much we can move
    uint32_t maxQueryCount = 0;
    ReturnValue retMaxCount = toCylinder->__queryMaxCount(index, item, count, maxQueryCount, flags);
    if(retMaxCount != RET_NOERROR && !maxQueryCount)
        return retMaxCount;

    uint32_t m = maxQueryCount, n = 0;
    if(item->isStackable())
        m = std::min((uint32_t)count, m);

    Item* moveItem = item;
    //check if we can remove this item
    ret = fromCylinder->__queryRemove(item, m, flags);
    if(ret != RET_NOERROR)
        return ret;

    //remove the item
    int32_t itemIndex = fromCylinder->__getIndexOfThing(item);
    fromCylinder->__removeThing(item, m);

    bool isCompleteRemoval = item->isRemoved();
    Item* updateItem = NULL;
    //update item(s)
    if(item->isStackable())
    {
        if(toItem && toItem->getID() == item->getID())
        {
            n = std::min((uint32_t)100 - toItem->getItemCount(), m);
            toCylinder->__updateThing(toItem, toItem->getID(), toItem->getItemCount() + n);
            updateItem = toItem;
        }

        if(m - n > 0)
            moveItem = Item::CreateItem(item->getID(), m - n);
        else
            moveItem = NULL;

        if(item->isRemoved())
            freeThing(item);
    }

    //add item
    if(moveItem /*m - n > 0*/)
        toCylinder->__addThing(actor, index, moveItem);

    if(itemIndex != -1)
        fromCylinder->postRemoveNotification(actor, item, toCylinder, itemIndex, isCompleteRemoval);

    if(moveItem)
    {
        int32_t moveItemIndex = toCylinder->__getIndexOfThing(moveItem);
        if(moveItemIndex != -1)
            toCylinder->postAddNotification(actor, moveItem, fromCylinder, moveItemIndex);
    }

    if(updateItem)
    {
        int32_t updateItemIndex = toCylinder->__getIndexOfThing(updateItem);
        if(updateItemIndex != -1)
            toCylinder->postAddNotification(actor, updateItem, fromCylinder, updateItemIndex);
    }

    if(_moveItem)
    {
        if(moveItem)
            *_moveItem = moveItem;
        else
            *_moveItem = item;
    }

    //we could not move all, inform the player
    if(item->isStackable() && maxQueryCount < count)
        return retMaxCount;

    return ret;
}

ReturnValue Game::internalAddItem(Creature* actor, Cylinder* toCylinder, Item* item, int32_t index /*= INDEX_WHEREEVER*/,
    uint32_t flags/* = 0*/, bool test/* = false*/)
{
    uint32_t remainderCount = 0;
    return internalAddItem(actor, toCylinder, item, index, flags, test, remainderCount);
}

ReturnValue Game::internalAddItem(Creature* actor, Cylinder* toCylinder, Item* item, int32_t index,
    uint32_t flags, bool test, uint32_t& remainderCount)
{
    Item* stackItem = NULL;
    return internalAddItem(actor, toCylinder, item, index, flags, test, remainderCount, &stackItem);
}

ReturnValue Game::internalAddItem(Creature* actor, Cylinder* toCylinder, Item* item, int32_t index,
    uint32_t flags, bool test, uint32_t& remainderCount, Item** stackItem)
{
    *stackItem = NULL;
    remainderCount = 0;
    if(!toCylinder || !item)
        return RET_NOTPOSSIBLE;

    Cylinder* destCylinder = toCylinder;
    toCylinder = toCylinder->__queryDestination(index, item, stackItem, flags);

    //check if we can add this item
    ReturnValue ret = toCylinder->__queryAdd(index, item, item->getItemCount(), flags);
    if(ret != RET_NOERROR)
        return ret;

    uint32_t maxQueryCount = 0;
    ret = destCylinder->__queryMaxCount(INDEX_WHEREEVER, item, item->getItemCount(), maxQueryCount, flags);
    if(ret != RET_NOERROR)
        return ret;

    if(test)
        return RET_NOERROR;

    Item* toItem = *stackItem;
    if(item->isStackable() && toItem)
    {
        uint32_t m = std::min((uint32_t)item->getItemCount(), maxQueryCount), n = 0;
        if(toItem->getID() == item->getID())
        {
            n = std::min((uint32_t)100 - toItem->getItemCount(), m);
            toCylinder->__updateThing(toItem, toItem->getID(), toItem->getItemCount() + n);
        }

        uint32_t count = m - n;
        if(count > 0)
        {
            if(item->getItemCount() != count)
            {
                Item* remainderItem = Item::CreateItem(item->getID(), count);
                if((ret = internalAddItem(NULL, destCylinder, remainderItem, INDEX_WHEREEVER, flags, false)) == RET_NOERROR)
                {
                    if(item->getParent() != VirtualCylinder::virtualCylinder)
                    {
                        item->onRemoved();
                        freeThing(item);
                    }

                    return RET_NOERROR;
                }

                delete remainderItem;
                remainderCount = count;
                return ret;
            }
        }
        else
        {
            if(item->getParent() != VirtualCylinder::virtualCylinder)
            {
                item->onRemoved();
                freeThing(item);
            }

            return RET_NOERROR;
        }
    }

    toCylinder->__addThing(NULL, index, item);
    int32_t itemIndex = toCylinder->__getIndexOfThing(item);
    if(itemIndex != -1)
        toCylinder->postAddNotification(actor, item, NULL, itemIndex);

    return RET_NOERROR;
}

ReturnValue Game::internalRemoveItem(Creature* actor, Item* item, int32_t count /*= -1*/, bool test /*= false*/, uint32_t flags /*= 0*/)
{
    Cylinder* cylinder = item->getParent();
    if(!cylinder)
        return RET_NOTPOSSIBLE;

    if(count == -1)
        count = item->getItemCount();

    //check if we can remove this item
    ReturnValue ret = cylinder->__queryRemove(item, count, flags | FLAG_IGNORENOTMOVEABLE);
    if(ret != RET_NOERROR)
        return ret;

    if(!item->canRemove())
        return RET_NOTPOSSIBLE;

    if(!test)
    {
        //remove the item
        int32_t index = cylinder->__getIndexOfThing(item);
        cylinder->__removeThing(item, count);

        cylinder->postRemoveNotification(actor, item, NULL, index, item->isRemoved());
        if(item->isRemoved())
            freeThing(item);
    }

    item->onRemoved();
    return RET_NOERROR;
}

ReturnValue Game::internalPlayerAddItem(Creature* actor, Player* player, Item* item,
    bool dropOnMap/* = true*/, slots_t slot/* = SLOT_WHEREEVER*/)
{
    Item* toItem = NULL;
    uint32_t remainderCount = 0, count = item->getItemCount();

    ReturnValue ret = internalAddItem(actor, player, item, (int32_t)slot, 0, false, remainderCount, &toItem);
    if(ret == RET_NOERROR)
        return RET_NOERROR;

    if(dropOnMap)
    {
        if(!remainderCount)
            return internalAddItem(actor, player->getTile(), item, (int32_t)slot, FLAG_NOLIMIT);

        Item* remainderItem = Item::CreateItem(item->getID(), remainderCount);
        ReturnValue remainderRet = internalAddItem(actor, player->getTile(), remainderItem, INDEX_WHEREEVER, FLAG_NOLIMIT);
        if(remainderRet == RET_NOERROR)
            return RET_NOERROR;

        delete remainderItem;
    }

    if(remainderCount && toItem)
        transformItem(toItem, toItem->getID(), (toItem->getItemCount() - (count - remainderCount)));

    return ret;
}
Item* Game::findItemOfType(Cylinder* cylinder, uint16_t itemId,
    bool depthSearch /*= true*/, int32_t subType /*= -1*/)
{
    if(!cylinder)
        return NULL;

    std::list<Container*> listContainer;
    Container* tmpContainer = NULL;

    Thing* thing = NULL;
    Item* item = NULL;
    for(int32_t i = cylinder->__getFirstIndex(); i < cylinder->__getLastIndex();)
    {
        if((thing = cylinder->__getThing(i)) && (item = thing->getItem()))
        {
            if(item->getID() == itemId && (subType == -1 || subType == item->getSubType()))
                return item;
            else
            {
                ++i;
                if(depthSearch && (tmpContainer = item->getContainer()))
                    listContainer.push_back(tmpContainer);
            }
        }
        else
            ++i;
    }

    while(listContainer.size() > 0)
    {
        Container* container = listContainer.front();
        listContainer.pop_front();
        for(int32_t i = 0; i < (int32_t)container->size();)
        {
            Item* item = container->getItem(i);
            if(item->getID() == itemId && (subType == -1 || subType == item->getSubType()))
                return item;
            else
            {
                ++i;
                if((tmpContainer = item->getContainer()))
                    listContainer.push_back(tmpContainer);
            }
        }
    }

    return NULL;
}

bool Game::removeItemOfType(Cylinder* cylinder, uint16_t itemId, int32_t count, int32_t subType /*= -1*/)
{
    if(!cylinder || ((int32_t)cylinder->__getItemTypeCount(itemId, subType) < count))
        return false;

    if(count <= 0)
        return true;

    std::list<Container*> listContainer;
    Container* tmpContainer = NULL;
    Item* item = NULL;

    Thing* thing = NULL;
    for(int32_t i = cylinder->__getFirstIndex(); i < cylinder->__getLastIndex() && count > 0;)
    {
        if((thing = cylinder->__getThing(i)) && (item = thing->getItem()))
        {
            if(item->getID() == itemId)
            {
                if(item->isStackable())
                {
                    if(item->getItemCount() > count)
                    {
                        internalRemoveItem(NULL, item, count);
                        count = 0;
                    }
                    else
                    {
                        count -= item->getItemCount();
                        internalRemoveItem(NULL, item);
                    }
                }
                else if(subType == -1 || subType == item->getSubType())
                {
                    --count;
                    internalRemoveItem(NULL, item);
                }
                else
                    ++i;
            }
            else
            {
                ++i;
                if((tmpContainer = item->getContainer()))
                    listContainer.push_back(tmpContainer);
            }
        }
        else
            ++i;
    }

    while(listContainer.size() > 0 && count > 0)
    {
        Container* container = listContainer.front();
        listContainer.pop_front();
        for(int32_t i = 0; i < (int32_t)container->size() && count > 0;)
        {
            Item* item = container->getItem(i);
            if(item->getID() == itemId)
            {
                if(item->isStackable())
                {
                    if(item->getItemCount() > count)
                    {
                        internalRemoveItem(NULL, item, count);
                        count = 0;
                    }
                    else
                    {
                        count-= item->getItemCount();
                        internalRemoveItem(NULL, item);
                    }
                }
                else if(subType == -1 || subType == item->getSubType())
                {
                    --count;
                    internalRemoveItem(NULL, item);
                }
                else
                    ++i;
            }
            else
            {
                ++i;
                if((tmpContainer = item->getContainer()))
                    listContainer.push_back(tmpContainer);
            }
        }
    }

    return (count == 0);
}

uint64_t Game::getMoney(const Cylinder* cylinder)
{
    if(!cylinder)
        return 0;

    std::list<Container*> listContainer;
    Container* tmpContainer = NULL;
    Item* item = NULL;

    Thing* thing = NULL;
    uint64_t moneyCount = 0;
    for(int32_t i = cylinder->__getFirstIndex(); i < cylinder->__getLastIndex(); ++i)
    {
        if(!(thing = cylinder->__getThing(i)) || !(item = thing->getItem()))
            continue;

        if((tmpContainer = item->getContainer()))
            listContainer.push_back(tmpContainer);
        else if(item->getWorth() != 0)
            moneyCount += item->getWorth();
    }

    while(listContainer.size() > 0)
    {
        Container* container = listContainer.front();
        listContainer.pop_front();
        for(ItemList::const_iterator it = container->getItems(); it != container->getEnd(); ++it)
        {
            item = *it;
            if((tmpContainer = item->getContainer()))
                listContainer.push_back(tmpContainer);
            else if(item->getWorth() != 0)
                moneyCount += item->getWorth();
        }
    }

    return moneyCount;
}

bool Game::removeMoney(Cylinder* cylinder, int64_t money, uint32_t flags /*= 0*/)
{
    if(!cylinder)
        return false;

    if(money <= 0)
        return true;

    typedef std::multimap<int32_t, Item*, std::less<int32_t> > MoneyMultiMap;
    MoneyMultiMap moneyMap;

    std::list<Container*> listContainer;
    Container* tmpContainer = NULL;

    Thing* thing = NULL;
    Item* item = NULL;

    int64_t moneyCount = 0;
    for(int32_t i = cylinder->__getFirstIndex(); i < cylinder->__getLastIndex() && money > 0; ++i)
    {
        if(!(thing = cylinder->__getThing(i)) || !(item = thing->getItem()))
            continue;

        if((tmpContainer = item->getContainer()))
            listContainer.push_back(tmpContainer);
        else if(item->getWorth() != 0)
        {
            moneyCount += item->getWorth();
            moneyMap.insert(std::make_pair(item->getWorth(), item));
        }
    }

    while(listContainer.size() > 0 && money > 0)
    {
        Container* container = listContainer.front();
        listContainer.pop_front();
        for(int32_t i = 0; i < (int32_t)container->size() && money > 0; i++)
        {
            Item* item = container->getItem(i);
            if((tmpContainer = item->getContainer()))
                listContainer.push_back(tmpContainer);
            else if(item->getWorth() != 0)
            {
                moneyCount += item->getWorth();
                moneyMap.insert(std::make_pair(item->getWorth(), item));
            }
        }
    }

    // Not enough money
    if(moneyCount < money)
        return false;

    for(MoneyMultiMap::iterator mit = moneyMap.begin(); mit != moneyMap.end() && money > 0; ++mit)
    {
        Item* item = mit->second;
        if(!item)
            continue;

        internalRemoveItem(NULL, item);
        if(mit->first > money)
        {
            // Remove a monetary value from an item
            addMoney(cylinder, (int64_t)(item->getWorth() - money), flags);
            money = 0;
        }
        else
            money -= mit->first;

        mit->second = NULL;
    }

    moneyMap.clear();
    return money == 0;
}

void Game::addMoney(Cylinder* cylinder, int64_t money, uint32_t flags /*= 0*/)
{
    IntegerMap moneyMap = Item::items.getMoneyMap();
    for(IntegerMap::reverse_iterator it = moneyMap.rbegin(); it != moneyMap.rend(); ++it)
    {
        int64_t tmp = money / it->first;
        money -= tmp * it->first;
        if(!tmp)
            continue;

        do
        {
            Item* remainItem = Item::CreateItem(it->second, std::min((int64_t)100, tmp));
            if(internalAddItem(NULL, cylinder, remainItem, INDEX_WHEREEVER, flags) != RET_NOERROR)
                internalAddItem(NULL, cylinder->getTile(), remainItem, INDEX_WHEREEVER, FLAG_NOLIMIT);

            tmp -= std::min((int64_t)100, tmp);
        }
        while(tmp > 0);
    }
}

Item* Game::transformItem(Item* item, uint16_t newId, int32_t newCount /*= -1*/)
{
    if(item->getID() == newId && (newCount == -1 || (newCount == item->getSubType() && newCount != 0)))
        return item;

    Cylinder* cylinder = item->getParent();
    if(!cylinder)
        return NULL;

    int32_t itemIndex = cylinder->__getIndexOfThing(item);
    if(itemIndex == -1)
    {
#ifdef __DEBUG__
        std::clog << "Error: transformItem, itemIndex == -1" << std::endl;
#endif
        return item;
    }

    if(!item->canTransform())
        return item;

    const ItemType& curType = Item::items[item->getID()];
    const ItemType& newType = Item::items[newId];
    if(curType.alwaysOnTop != newType.alwaysOnTop)
    {
        //This only occurs when you transform items on tiles from a downItem to a topItem (or vice versa)
        //Remove the old, and add the new
        ReturnValue ret = internalRemoveItem(NULL, item);
        if(ret != RET_NOERROR)
            return item;

        Item* newItem = NULL;
        if(newCount == -1)
            newItem = Item::CreateItem(newId);
        else
            newItem = Item::CreateItem(newId, newCount);

        if(!newItem)
            return NULL;

        newItem->copyAttributes(item);
        if(internalAddItem(NULL, cylinder, newItem, INDEX_WHEREEVER, FLAG_NOLIMIT) == RET_NOERROR)
            return newItem;

        delete newItem;
        return NULL;
    }

    if(curType.type == newType.type)
    {
        //Both items has the same type so we can safely change id/subtype
        if(!newCount && (item->isStackable() || (curType.charges > 0)))
        {
            if(!item->isStackable() && (!item->getDefaultDuration() || item->getDuration() <= 0))
            {
                int32_t tmpId = newId;
                if(curType.id == newType.id)
                    tmpId = curType.decayTo;

                if(tmpId != -1)
                {
                    item = transformItem(item, tmpId);
                    return item;
                }
            }

            internalRemoveItem(NULL, item);
            return NULL;
        }

        uint16_t itemId = item->getID();
        int32_t count = item->getSubType();

        cylinder->postRemoveNotification(NULL, item, cylinder, itemIndex, false);
        if(curType.id != newType.id)
        {
            itemId = newId;
            if(newType.group != curType.group)
                item->setDefaultSubtype();
        }

        if(newCount != -1 && newType.hasSubType())
            count = newCount;

        cylinder->__updateThing(item, itemId, count);
        cylinder->postAddNotification(NULL, item, cylinder, itemIndex);
        return item;
    }

    //Replacing the the old item with the new while maintaining the old position
    Item* newItem = NULL;
    if(newCount == -1)
        newItem = Item::CreateItem(newId);
    else
        newItem = Item::CreateItem(newId, newCount);

    if(!newItem)
    {
        #ifdef __DEBUG__
        std::clog << "Error: [Game::transformItem] Item of type " << item->getID() << " transforming into invalid type " << newId << std::endl;
        #endif
        return NULL;
    }

    cylinder->__replaceThing(itemIndex, newItem);
    cylinder->postAddNotification(NULL, newItem, cylinder, itemIndex);

    item->setParent(NULL);
    cylinder->postRemoveNotification(NULL, item, cylinder, itemIndex, true);

    freeThing(item);
    return newItem;
}

ReturnValue Game::internalTeleport(Thing* thing, const Position& newPos, bool forceTeleport, uint32_t flags/* = 0*/, bool fullTeleport/* = true*/)
{
    if(newPos == thing->getPosition())
        return RET_NOERROR;

    if(thing->isRemoved())
        return RET_NOTPOSSIBLE;

    if(Tile* toTile = map->getTile(newPos))
    {
        if(Creature* creature = thing->getCreature())
        {
            if(fullTeleport)
                return internalMoveCreature(NULL, creature, creature->getParent(), toTile, flags, forceTeleport);

            creature->getTile()->moveCreature(NULL, creature, toTile, forceTeleport);
            return RET_NOERROR;
        }

        if(Item* item = thing->getItem())
            return internalMoveItem(NULL, item->getParent(), toTile, INDEX_WHEREEVER, item, item->getItemCount(), NULL, flags);
    }

    return RET_NOTPOSSIBLE;
}

//Implementation of player invoked events
bool Game::playerMove(uint32_t playerId, Direction dir)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->setIdleTime(0);
    if(player->getNoMove())
    {
        player->sendCancelWalk();
        return false;
    }

    std::list<Direction> dirs;
    dirs.push_back(dir);
      
    if(!g_config.getBool(ConfigManager::PUSH_CRUZADO))
        player->setNextWalkActionTask(NULL);
   
    return player->startAutoWalk(dirs);
}

bool Game::playerBroadcastMessage(Player* player, SpeakClasses type, const std::string& text)
{
    if(!player->hasFlag(PlayerFlag_CanBroadcast) || type < SPEAK_CLASS_FIRST || type > SPEAK_CLASS_LAST)
        return false;

    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
        it->second->sendCreatureSay(player, type, text);

    //TODO: event handling - onCreatureSay
    std::clog << "> " << player->getName() << " broadcasted: \"" << text << "\"." << std::endl;
    return true;
}

bool Game::playerCreatePrivateChannel(uint32_t playerId, ProtocolGame* pg)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || !player->isPremium())
        return false;

    ChatChannel* channel = NULL;
    if(pg != NULL && pg->getIsCast())
    {
        channel = g_chat.getPrivateChannel(player);
        if(channel)
        {
            pg->publicSendCreatePrivateChannel(channel->getId(), channel->getName());
            return true;
        }
        else
            pg->publicSendMessage(player, SPEAK_PRIVATE, "The cast owner disabled communication.");

        return false;
    }
    else
    {
        channel = g_chat.createChannel(player, 0xFFFF);
        if(!channel || !channel->addUser(player))
            return false;
    }

    for(AutoList<ProtocolGame>::const_iterator it = Player::cSpectators.begin(); it != Player::cSpectators.end(); ++it) if(it->second->getPlayer() == player)
        it->second->publicSendMessage(player, SPEAK_PRIVATE, "The cast owner turned communication on.");

    player->sendCreatePrivateChannel(channel->getId(), channel->getName());
    return true;
}

bool Game::playerChannelInvite(uint32_t playerId, const std::string& name)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    PrivateChatChannel* channel = g_chat.getPrivateChannel(player);
    if(!channel)
        return false;

    Player* invitePlayer = getPlayerByName(name);
    if(!invitePlayer)
        return false;

    channel->invitePlayer(player, invitePlayer);
    return true;
}

bool Game::playerChannelExclude(uint32_t playerId, const std::string& name)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    PrivateChatChannel* channel = g_chat.getPrivateChannel(player);
    if(!channel)
        return false;

    Player* excludePlayer = getPlayerByName(name);
    if(!excludePlayer)
        return false;

    channel->excludePlayer(player, excludePlayer);
    return true;
}

bool Game::playerRequestChannels(uint32_t playerId, ProtocolGame* pg)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(pg != NULL && pg->getIsCast())
        pg->publicSendChannelsDialog();
    else
        player->sendChannelsDialog();
        
    return true;
}

bool Game::playerOpenChannel(uint32_t playerId, uint16_t channelId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    ChatChannel* channel = g_chat.addUserToChannel(player, channelId);
    if(!channel)
    {
        #ifdef __DEBUG_CHAT__
        std::clog << "Game::playerOpenChannel - failed adding user to channel." << std::endl;
        #endif
        return false;
    }

    if(channel->getId() != CHANNEL_RVR)
        player->sendChannel(channel->getId(), channel->getName());
    else
        player->sendRuleViolationsChannel(channel->getId());

    return true;
}

bool Game::playerCloseChannel(uint32_t playerId, uint16_t channelId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    ChatChannel* channel = g_chat.getPrivateChannel(player);
    if(channel && channel->getId() == channelId) {
        for(AutoList<ProtocolGame>::const_iterator it = Player::cSpectators.begin(); it != Player::cSpectators.end(); ++it) if(it->second->getPlayer() == player)
            it->second->publicSendMessage(player, SPEAK_PRIVATE, "The cast owner turned communication off.");
    }

    g_chat.removeUserFromChannel(player, channelId);
    return true;
}

bool Game::playerOpenPrivateChannel(uint32_t playerId, std::string& receiver)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(IOLoginData::getInstance()->playerExists(receiver))
        player->sendOpenPrivateChannel(receiver);
    else
        player->sendCancel("A player with this name does not exist.");

    return true;
}

bool Game::playerProcessRuleViolation(uint32_t playerId, const std::string& name)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(!player->hasFlag(PlayerFlag_CanAnswerRuleViolations))
        return false;

    Player* reporter = getPlayerByName(name);
    if(!reporter)
        return false;

    RuleViolationsMap::iterator it = ruleViolations.find(reporter->getID());
    if(it == ruleViolations.end())
        return false;

    RuleViolation& rvr = *it->second;
    if(!rvr.isOpen)
        return false;

    rvr.isOpen = false;
    rvr.gamemaster = player;
    if(ChatChannel* channel = g_chat.getChannelById(CHANNEL_RVR))
    {
        UsersMap tmpMap = channel->getUsers();
        for(UsersMap::iterator tit = tmpMap.begin(); tit != tmpMap.end(); ++tit)
            tit->second->sendRemoveReport(reporter->getName());
    }

    return true;
}

bool Game::playerCloseRuleViolation(uint32_t playerId, const std::string& name)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Player* reporter = getPlayerByName(name);
    if(!reporter)
        return false;

    return closeRuleViolation(reporter);
}

bool Game::playerCancelRuleViolation(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    return cancelRuleViolation(player);
}

bool Game::playerCloseNpcChannel(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    SpectatorVec list;
    SpectatorVec::iterator it;

    getSpectators(list, player->getPosition());
    Npc* npc = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((npc = (*it)->getNpc()))
            npc->onPlayerCloseChannel(player);
    }

    return true;
}

bool Game::playerReceivePing(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->receivePing();
    return true;
}

bool Game::playerAutoWalk(uint32_t playerId, std::list<Direction>& listDir)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->setIdleTime(0);
    if(player->hasCondition(CONDITION_GAMEMASTER, GAMEMASTER_TELEPORT))
    {
        Position pos = player->getPosition();
        for(std::list<Direction>::iterator it = listDir.begin(); it != listDir.end(); ++it)
            pos = getNextPosition((*it), pos);

        pos = getClosestFreeTile(player, pos, true, false);
        if(!pos.x || !pos.y)
        {
            player->sendCancelWalk();
            return false;
        }

        internalCreatureTurn(player, getDirectionTo(player->getPosition(), pos, false));
        internalTeleport(player, pos, true);
        return true;
    }

    player->setNextWalkTask(NULL);
    return player->startAutoWalk(listDir);
}

bool Game::playerStopAutoWalk(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->stopWalk();
    return true;
}

bool Game::playerUseItemEx(uint32_t playerId, const Position& fromPos, int16_t fromStackpos, uint16_t fromSpriteId,
    const Position& toPos, int16_t toStackpos, uint16_t toSpriteId, bool isHotkey)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(isHotkey && !g_config.getBool(ConfigManager::AIMBOT_HOTKEY_ENABLED))
        return false;

    Thing* thing = internalGetThing(player, fromPos, fromStackpos, fromSpriteId, STACKPOS_USEITEM);
    if(!thing)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Item* item = thing->getItem();
    if(!item || !item->isUseable())
    {
        player->sendCancelMessage(RET_CANNOTUSETHISOBJECT);
        return false;
    }

    Position walkToPos = fromPos;
    ReturnValue ret = g_actions->canUse(player, fromPos);
    if(ret == RET_NOERROR)
    {
        ret = g_actions->canUse(player, toPos, item);
        if(ret == RET_TOOFARAWAY)
            walkToPos = toPos;
    }

    if(ret != RET_NOERROR)
    {
        if(ret == RET_TOOFARAWAY)
        {
            Position itemPos = fromPos;
            int16_t itemStackpos = fromStackpos;
            if(fromPos.x != 0xFFFF && toPos.x != 0xFFFF && Position::areInRange<1,1,0>(fromPos,
                player->getPosition()) && !Position::areInRange<1,1,0>(fromPos, toPos))
            {
                Item* moveItem = NULL;
                ReturnValue retTmp = internalMoveItem(player, item->getParent(), player,
                    INDEX_WHEREEVER, item, item->getItemCount(), &moveItem);
                if(retTmp != RET_NOERROR)
                {
                    player->sendCancelMessage(retTmp);
                    return false;
                }

                //changing the position since its now in the inventory of the player
                internalGetPosition(moveItem, itemPos, itemStackpos);
            }

            std::list<Direction> listDir;
            if(getPathToEx(player, walkToPos, listDir, 0, 1, true, true, 10))
            {
                Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                    this, player->getID(), listDir)));

                SchedulerTask* task = createSchedulerTask(400, boost::bind(&Game::playerUseItemEx, this,
                    playerId, itemPos, itemStackpos, fromSpriteId, toPos, toStackpos, toSpriteId, isHotkey));

                player->setNextWalkActionTask(task);
                return true;
            }

            ret = RET_THEREISNOWAY;
        }

        player->sendCancelMessage(ret);
        return false;
    }

    if(isHotkey)
        showHotkeyUseMessage(player, item);

    if(!player->canDoAction())
    {
        uint32_t delay = player->getNextActionTime();
        SchedulerTask* task = createSchedulerTask(delay, boost::bind(&Game::playerUseItemEx, this,
            playerId, fromPos, fromStackpos, fromSpriteId, toPos, toStackpos, toSpriteId, isHotkey));

        player->setNextActionTask(task);
        return false;
    }

    player->setIdleTime(0);
    player->setNextActionTask(NULL);
    return g_actions->useItemEx(player, fromPos, toPos, toStackpos, item, isHotkey);
}

bool Game::playerUseItem(uint32_t playerId, const Position& pos, int16_t stackpos,
    uint8_t index, uint16_t spriteId, bool isHotkey)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(isHotkey && !g_config.getBool(ConfigManager::AIMBOT_HOTKEY_ENABLED))
        return false;

    Thing* thing = internalGetThing(player, pos, stackpos, spriteId, STACKPOS_USEITEM);
    if(!thing)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Item* item = thing->getItem();
    if(!item || item->isUseable())
    {
        player->sendCancelMessage(RET_CANNOTUSETHISOBJECT);
        return false;
    }

    ReturnValue ret = g_actions->canUse(player, pos);
    if(ret != RET_NOERROR)
    {
        if(ret == RET_TOOFARAWAY)
        {
            std::list<Direction> listDir;
            if(getPathToEx(player, pos, listDir, 0, 1, true, true))
            {
                Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                    this, player->getID(), listDir)));

                SchedulerTask* task = createSchedulerTask(400, boost::bind(&Game::playerUseItem, this,
                    playerId, pos, stackpos, index, spriteId, isHotkey));

                player->setNextWalkActionTask(task);
                return true;
            }

            ret = RET_THEREISNOWAY;
        }

        player->sendCancelMessage(ret);
        return false;
    }

    if(isHotkey)
        showHotkeyUseMessage(player, item);

    if(!player->canDoAction())
    {
        uint32_t delay = player->getNextActionTime();
        SchedulerTask* task = createSchedulerTask(delay, boost::bind(&Game::playerUseItem, this,
            playerId, pos, stackpos, index, spriteId, isHotkey));

        player->setNextActionTask(task);
        return false;
    }

    player->setIdleTime(0);
    player->setNextActionTask(NULL);
    return g_actions->useItem(player, pos, index, item);
}

bool Game::playerUseBattleWindow(uint32_t playerId, const Position& fromPos, int16_t fromStackpos,
    uint32_t creatureId, uint16_t spriteId, bool isHotkey)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Creature* creature = getCreatureByID(creatureId);
    if(!creature)
        return false;

    if(!Position::areInRange<7,5,0>(creature->getPosition(), player->getPosition()))
        return false;

    if(!g_config.getBool(ConfigManager::AIMBOT_HOTKEY_ENABLED) && (creature->getPlayer() || isHotkey))
    {
        player->sendCancelMessage(RET_DIRECTPLAYERSHOOT);
        return false;
    }

    Thing* thing = internalGetThing(player, fromPos, fromStackpos, spriteId, STACKPOS_USE);
    if(!thing)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Item* item = thing->getItem();
    if(!item || item->getClientID() != spriteId)
    {
        player->sendCancelMessage(RET_CANNOTUSETHISOBJECT);
        return false;
    }

    ReturnValue ret = g_actions->canUse(player, fromPos);
    if(ret != RET_NOERROR)
    {
        if(ret == RET_TOOFARAWAY)
        {
            std::list<Direction> listDir;
            if(getPathToEx(player, item->getPosition(), listDir, 0, 1, true, true))
            {
                Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                    this, player->getID(), listDir)));

                SchedulerTask* task = createSchedulerTask(400, boost::bind(&Game::playerUseBattleWindow, this,
                    playerId, fromPos, fromStackpos, creatureId, spriteId, isHotkey));

                player->setNextWalkActionTask(task);
                return true;
            }

            ret = RET_THEREISNOWAY;
        }

        player->sendCancelMessage(ret);
        return false;
    }

    if(isHotkey)
        showHotkeyUseMessage(player, item);

    if(!player->canDoAction())
    {
        uint32_t delay = player->getNextActionTime();
        SchedulerTask* task = createSchedulerTask(delay, boost::bind(&Game::playerUseBattleWindow, this,
            playerId, fromPos, fromStackpos, creatureId, spriteId, isHotkey));

        player->setNextActionTask(task);
        return false;
    }

    player->setIdleTime(0);
    player->setNextActionTask(NULL);
    return g_actions->useItemEx(player, fromPos, creature->getPosition(),
        creature->getParent()->__getIndexOfThing(creature), item, isHotkey, creatureId);
}

bool Game::playerCloseContainer(uint32_t playerId, uint8_t cid)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->closeContainer(cid);
    player->sendCloseContainer(cid);
    return true;
}

bool Game::playerMoveUpContainer(uint32_t playerId, uint8_t cid)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Container* container = player->getContainer(cid);
    if(!container)
        return false;

    Container* parentContainer = dynamic_cast<Container*>(container->getParent());
    if(!parentContainer)
        return false;

    player->addContainer(cid, parentContainer);
    player->sendContainer(cid, parentContainer, (dynamic_cast<const Container*>(parentContainer->getParent()) != NULL));
    return true;
}

bool Game::playerUpdateTile(uint32_t playerId, const Position& pos)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(!player->canSee(pos))
        return false;

    if(Tile* tile = getTile(pos))
        player->sendUpdateTile(tile, pos);

    return true;
}

bool Game::playerUpdateContainer(uint32_t playerId, uint8_t cid)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Container* container = player->getContainer(cid);
    if(!container)
        return false;

    player->sendContainer(cid, container, (dynamic_cast<const Container*>(container->getParent()) != NULL));
    return true;
}

bool Game::playerRotateItem(uint32_t playerId, const Position& pos, int16_t stackpos, const uint16_t spriteId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Thing* thing = internalGetThing(player, pos, stackpos);
    if(!thing)
        return false;

    Item* item = thing->getItem();
    if(!item || item->getClientID() != spriteId || !item->isRoteable() || (item->isLoadedFromMap() &&
        (item->getUniqueId() != 0 || (item->getActionId() != 0 && item->getContainer()))))
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    if(pos.x != 0xFFFF && !Position::areInRange<1,1,0>(pos, player->getPosition()))
    {
        std::list<Direction> listDir;
        if(getPathToEx(player, pos, listDir, 0, 1, true, true))
        {
            Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                this, player->getID(), listDir)));

            SchedulerTask* task = createSchedulerTask(400, boost::bind(&Game::playerRotateItem, this,
                playerId, pos, stackpos, spriteId));

            player->setNextWalkActionTask(task);
            return true;
        }

        player->sendCancelMessage(RET_THEREISNOWAY);
        return false;
    }

    uint16_t newId = Item::items[item->getID()].rotateTo;
    if(newId != 0)
        transformItem(item, newId);

    player->setIdleTime(0);
    return true;
}

bool Game::playerWriteItem(uint32_t playerId, uint32_t windowTextId, const std::string& text)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    uint16_t maxTextLength = 0;
    uint32_t internalWindowTextId = 0;

    Item* writeItem = player->getWriteItem(internalWindowTextId, maxTextLength);
    if(text.length() > maxTextLength || windowTextId != internalWindowTextId)
        return false;

    if(!writeItem || writeItem->isRemoved())
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Cylinder* topParent = writeItem->getTopParent();
    Player* owner = dynamic_cast<Player*>(topParent);
    if(owner && owner != player)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    if(!Position::areInRange<1,1,0>(writeItem->getPosition(), player->getPosition()))
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    bool deny = false;
    CreatureEventList textEditEvents = player->getCreatureEvents(CREATURE_EVENT_TEXTEDIT);
    for(CreatureEventList::iterator it = textEditEvents.begin(); it != textEditEvents.end(); ++it)
    {
        if(!(*it)->executeTextEdit(player, writeItem, text))
            deny = true;
    }

    if(deny)
        return false;

    if(!text.empty())
    {
        if(writeItem->getText() != text)
        {
            writeItem->setText(text);
            writeItem->setWriter(player->getName());
            writeItem->setDate(std::time(NULL));
        }
    }
    else
    {
        writeItem->resetText();
        writeItem->resetWriter();
        writeItem->resetDate();
    }

    uint16_t newId = Item::items[writeItem->getID()].writeOnceItemId;
    if(newId != 0)
        transformItem(writeItem, newId);

    player->setWriteItem(NULL);
    return true;
}

bool Game::playerUpdateHouseWindow(uint32_t playerId, uint8_t listId, uint32_t windowTextId, const std::string& text)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    uint32_t internalWindowTextId = 0;
    uint32_t internalListId = 0;

    House* house = player->getEditHouse(internalWindowTextId, internalListId);
    if(house && internalWindowTextId == windowTextId && listId == 0)
    {
        house->setAccessList(internalListId, text);
        player->setEditHouse(NULL);
    }

    return true;
}

bool Game::playerRequestTrade(uint32_t playerId, const Position& pos, int16_t stackpos,
    uint32_t tradePlayerId, uint16_t spriteId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Player* tradePartner = getPlayerByID(tradePlayerId);
    if(!tradePartner || tradePartner == player)
    {
        player->sendTextMessage(MSG_INFO_DESCR, "Sorry, not possible.");
        return false;
    }

    if(!Position::areInRange<2,2,0>(tradePartner->getPosition(), player->getPosition()))
    {
        std::stringstream ss;
        ss << tradePartner->getName() << " tells you to move closer.";
        player->sendTextMessage(MSG_INFO_DESCR, ss.str());
        return false;
    }

    if(!canThrowObjectTo(tradePartner->getPosition(), player->getPosition())
        && !player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
    {
        player->sendCancelMessage(RET_CREATUREISNOTREACHABLE);
        return false;
    }

    Item* tradeItem = dynamic_cast<Item*>(internalGetThing(player, pos, stackpos, spriteId, STACKPOS_USE));
    if(!tradeItem || tradeItem->getClientID() != spriteId || !tradeItem->isPickupable() || (tradeItem->isLoadedFromMap() &&
        (tradeItem->getUniqueId() != 0 || (tradeItem->getActionId() != 0 && tradeItem->getContainer()))))
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    if(player->getPosition().z > tradeItem->getPosition().z)
    {
        player->sendCancelMessage(RET_FIRSTGOUPSTAIRS);
        return false;
    }

    if(player->getPosition().z < tradeItem->getPosition().z)
    {
        player->sendCancelMessage(RET_FIRSTGODOWNSTAIRS);
        return false;
    }

    if(!Position::areInRange<1,1,0>(tradeItem->getPosition(), player->getPosition()))
    {
        std::list<Direction> listDir;
        if(getPathToEx(player, pos, listDir, 0, 1, true, true))
        {
            Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::playerAutoWalk,
                this, player->getID(), listDir)));

            SchedulerTask* task = createSchedulerTask(400, boost::bind(&Game::playerRequestTrade, this,
                playerId, pos, stackpos, tradePlayerId, spriteId));

            player->setNextWalkActionTask(task);
            return true;
        }

        player->sendCancelMessage(RET_THEREISNOWAY);
        return false;
    }

    const Container* container = NULL;
    for(std::map<Item*, uint32_t>::const_iterator it = tradeItems.begin(); it != tradeItems.end(); it++)
    {
        if(tradeItem == it->first ||
            ((container = dynamic_cast<const Container*>(tradeItem)) && container->isHoldingItem(it->first)) ||
            ((container = dynamic_cast<const Container*>(it->first)) && container->isHoldingItem(tradeItem)))
        {
            player->sendTextMessage(MSG_INFO_DESCR, "This item is already being traded.");
            return false;
        }
    }

    Container* tradeContainer = tradeItem->getContainer();
    if(tradeContainer && tradeContainer->getItemHoldingCount() + 1 > 100)
    {
        player->sendTextMessage(MSG_INFO_DESCR, "You cannot trade more than 100 items.");
        return false;
    }

    bool deny = false;
    CreatureEventList tradeEvents = player->getCreatureEvents(CREATURE_EVENT_TRADE_REQUEST);
    for(CreatureEventList::iterator it = tradeEvents.begin(); it != tradeEvents.end(); ++it)
    {
        if(!(*it)->executeTradeRequest(player, tradePartner, tradeItem))
            deny = true;
    }

    if(deny)
        return false;

    return internalStartTrade(player, tradePartner, tradeItem);
}

bool Game::internalStartTrade(Player* player, Player* tradePartner, Item* tradeItem)
{
    if(player->tradeState != TRADE_NONE && !(player->tradeState == TRADE_ACKNOWLEDGE && player->tradePartner == tradePartner))
    {
        player->sendCancelMessage(RET_YOUAREALREADYTRADING);
        return false;
    }
    else if(tradePartner->tradeState != TRADE_NONE && tradePartner->tradePartner != player)
    {
        player->sendCancelMessage(RET_THISPLAYERISALREADYTRADING);
        return false;
    }

    player->tradePartner = tradePartner;
    player->tradeItem = tradeItem;
    player->tradeState = TRADE_INITIATED;

    tradeItem->addRef();
    tradeItems[tradeItem] = player->getID();

    player->sendTradeItemRequest(player, tradeItem, true);
    if(tradePartner->tradeState == TRADE_NONE)
    {
        char buffer[100];
        sprintf(buffer, "%s wants to trade with you", player->getName().c_str());
        tradePartner->sendTextMessage(MSG_INFO_DESCR, buffer);

        tradePartner->tradeState = TRADE_ACKNOWLEDGE;
        tradePartner->tradePartner = player;
    }
    else
    {
        Item* counterItem = tradePartner->tradeItem;
        player->sendTradeItemRequest(tradePartner, counterItem, false);
        tradePartner->sendTradeItemRequest(player, tradeItem, false);
    }

    return true;
}

bool Game::playerAcceptTrade(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || (player->getTradeState() != TRADE_ACKNOWLEDGE
        && player->getTradeState() != TRADE_INITIATED))
        return false;

    Player* tradePartner = player->tradePartner;
    if(!tradePartner)
        return false;

    if(!canThrowObjectTo(tradePartner->getPosition(), player->getPosition())
        && !player->hasCustomFlag(PlayerCustomFlag_CanThrowAnywhere))
    {
        player->sendCancelMessage(RET_CREATUREISNOTREACHABLE);
        return false;
    }

    player->setTradeState(TRADE_ACCEPT);
    if(tradePartner->getTradeState() != TRADE_ACCEPT)
        return false;

    Item* tradeItem1 = player->tradeItem;
    Item* tradeItem2 = tradePartner->tradeItem;

    bool deny = false;
    CreatureEventList tradeEvents = player->getCreatureEvents(CREATURE_EVENT_TRADE_ACCEPT);
    for(CreatureEventList::iterator it = tradeEvents.begin(); it != tradeEvents.end(); ++it)
    {
        if(!(*it)->executeTradeAccept(player, tradePartner, tradeItem1, tradeItem2))
            deny = true;
    }

    if(deny)
        return false;

    player->setTradeState(TRADE_TRANSFER);
    tradePartner->setTradeState(TRADE_TRANSFER);

    std::map<Item*, uint32_t>::iterator it = tradeItems.find(tradeItem1);
    if(it != tradeItems.end())
    {
        freeThing(it->first);
        tradeItems.erase(it);
    }

    it = tradeItems.find(tradeItem2);
    if(it != tradeItems.end())
    {
        freeThing(it->first);
        tradeItems.erase(it);
    }

    ReturnValue ret1 = internalAddItem(player, tradePartner, tradeItem1, INDEX_WHEREEVER, 0, true);
    ReturnValue ret2 = internalAddItem(tradePartner, player, tradeItem2, INDEX_WHEREEVER, 0, true);

    bool success = false;
    if(ret1 == RET_NOERROR && ret2 == RET_NOERROR)
    {
        ret1 = internalRemoveItem(tradePartner, tradeItem1, tradeItem1->getItemCount(), true);
        ret2 = internalRemoveItem(player, tradeItem2, tradeItem2->getItemCount(), true);
        if(ret1 == RET_NOERROR && ret2 == RET_NOERROR)
        {
            Cylinder *cylinder1 = tradeItem1->getParent(), *cylinder2 = tradeItem2->getParent();
            internalMoveItem(player, cylinder1, tradePartner, INDEX_WHEREEVER, tradeItem1, tradeItem1->getItemCount(), NULL);
            internalMoveItem(tradePartner, cylinder2, player, INDEX_WHEREEVER, tradeItem2, tradeItem2->getItemCount(), NULL);

            tradeItem1->onTradeEvent(ON_TRADE_TRANSFER, tradePartner, player);
            tradeItem2->onTradeEvent(ON_TRADE_TRANSFER, player, tradePartner);
            success = true;
        }
    }

    if(!success)
    {
        std::string error;
        if(tradeItem2)
        {
            error = getTradeErrorDescription(ret1, tradeItem1);
            tradePartner->sendTextMessage(MSG_INFO_DESCR, error);
            tradeItem2->onTradeEvent(ON_TRADE_CANCEL, tradePartner, NULL);
        }

        if(tradeItem1)
        {
            error = getTradeErrorDescription(ret2, tradeItem2);
            player->sendTextMessage(MSG_INFO_DESCR, error);
            tradeItem1->onTradeEvent(ON_TRADE_CANCEL, player, NULL);
        }
    }

    player->setTradeState(TRADE_NONE);
    player->tradeItem = NULL;
    player->tradePartner = NULL;

    tradePartner->setTradeState(TRADE_NONE);
    tradePartner->tradeItem = NULL;
    tradePartner->tradePartner = NULL;

    player->sendTradeClose();
    tradePartner->sendTradeClose();
    IOLoginData::getInstance()->savePlayer(player);
    IOLoginData::getInstance()->savePlayer(tradePartner);
    return success;
}

std::string Game::getTradeErrorDescription(ReturnValue ret, Item* item)
{
    if(!item)
        return std::string();

    std::stringstream ss;
    if(ret == RET_NOTENOUGHCAPACITY)
    {
        ss << "You do not have enough capacity to carry";
        if(item->isStackable() && item->getItemCount() > 1)
            ss << " these objects.";
        else
            ss << " this object." ;

        ss << std::endl << " " << item->getWeightDescription();
    }
    else if(ret == RET_NOTENOUGHROOM || ret == RET_CONTAINERNOTENOUGHROOM)
    {
        ss << "You do not have enough room to carry";
        if(item->isStackable() && item->getItemCount() > 1)
            ss << " these objects.";
        else
            ss << " this object.";
    }
    else
        ss << "Trade could not be completed.";

    return ss.str().c_str();
}

bool Game::playerLookInTrade(uint32_t playerId, bool lookAtCounterOffer, int32_t index)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Player* tradePartner = player->tradePartner;
    if(!tradePartner)
        return false;

    Item* tradeItem = NULL;
    if(lookAtCounterOffer)
        tradeItem = tradePartner->getTradeItem();
    else
        tradeItem = player->getTradeItem();

    if(!tradeItem)
        return false;

    std::stringstream ss;
    ss << "You see ";

    int32_t lookDistance = std::max(std::abs(player->getPosition().x - tradeItem->getPosition().x),
        std::abs(player->getPosition().y - tradeItem->getPosition().y));
    if(!index)
    {
        ss << tradeItem->getDescription(lookDistance);
        if(player->hasCustomFlag(PlayerCustomFlag_CanSeeItemDetails))
        {
            ss << std::endl << "ItemID: [" << tradeItem->getID() << "]";
            if(tradeItem->getActionId() > 0)
                ss << ", ActionID: [" << tradeItem->getActionId() << "]";

            if(tradeItem->getUniqueId() > 0)
                ss << ", UniqueID: [" << tradeItem->getUniqueId() << "]";

            ss << ".";
            const ItemType& it = Item::items[tradeItem->getID()];
            if(it.transformEquipTo)
                ss << std::endl << "TransformTo (onEquip): [" << it.transformEquipTo << "]";
            else if(it.transformDeEquipTo)
                ss << std::endl << "TransformTo (onDeEquip): [" << it.transformDeEquipTo << "]";
            else if(it.decayTo != -1)
                ss << std::endl << "DecayTo: [" << it.decayTo << "]";
        }

        player->sendTextMessage(MSG_INFO_DESCR, ss.str());
        return false;
    }

    Container* tradeContainer = tradeItem->getContainer();
    if(!tradeContainer || index > (int32_t)tradeContainer->getItemHoldingCount())
        return false;

    std::list<const Container*> listContainer;
    listContainer.push_back(tradeContainer);

    ItemList::const_iterator it;
    Container* tmpContainer = NULL;
    while(listContainer.size() > 0)
    {
        const Container* container = listContainer.front();
        listContainer.pop_front();
        for(it = container->getItems(); it != container->getEnd(); ++it)
        {
            if((tmpContainer = (*it)->getContainer()))
                listContainer.push_back(tmpContainer);

            --index;
            if(index != 0)
                continue;

            ss << (*it)->getDescription(lookDistance);
            if(player->hasCustomFlag(PlayerCustomFlag_CanSeeItemDetails))
            {
                ss << std::endl << "ItemID: [" << (*it)->getID() << "]";
                if((*it)->getActionId() > 0)
                    ss << ", ActionID: [" << (*it)->getActionId() << "]";

                if((*it)->getUniqueId() > 0)
                    ss << ", UniqueID: [" << (*it)->getUniqueId() << "]";

                ss << ".";
                const ItemType& iit = Item::items[(*it)->getID()];
                if(iit.transformEquipTo)
                    ss << std::endl << "TransformTo: [" << iit.transformEquipTo << "] (onEquip).";
                else if(iit.transformDeEquipTo)
                    ss << std::endl << "TransformTo: [" << iit.transformDeEquipTo << "] (onDeEquip).";
                else if(iit.decayTo != -1)
                    ss << std::endl << "DecayTo: [" << iit.decayTo << "].";
            }

            player->sendTextMessage(MSG_INFO_DESCR, ss.str());
            return true;
        }
    }

    return false;
}

bool Game::playerCloseTrade(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    return internalCloseTrade(player);
}

bool Game::internalCloseTrade(Player* player)
{
    Player* tradePartner = player->tradePartner;
    if((tradePartner && tradePartner->getTradeState() == TRADE_TRANSFER) || player->getTradeState() == TRADE_TRANSFER)
    {
        std::clog << "[Warning - Game::internalCloseTrade] TradeState == TRADE_TRANSFER, " <<
            player->getName() << " " << player->getTradeState() << ", " <<
            tradePartner->getName() << " " << tradePartner->getTradeState() << std::endl;
        return true;
    }

    std::vector<Item*>::iterator it;
    if(player->getTradeItem())
    {
        std::map<Item*, uint32_t>::iterator it = tradeItems.find(player->getTradeItem());
        if(it != tradeItems.end())
        {
            freeThing(it->first);
            tradeItems.erase(it);
        }

        player->tradeItem->onTradeEvent(ON_TRADE_CANCEL, player, NULL);
        player->tradeItem = NULL;
    }

    player->setTradeState(TRADE_NONE);
    player->tradePartner = NULL;

    player->sendTextMessage(MSG_STATUS_SMALL, "Trade cancelled.");
    player->sendTradeClose();
    if(tradePartner)
    {
        if(tradePartner->getTradeItem())
        {
            std::map<Item*, uint32_t>::iterator it = tradeItems.find(tradePartner->getTradeItem());
            if(it != tradeItems.end())
            {
                freeThing(it->first);
                tradeItems.erase(it);
            }

            tradePartner->tradeItem->onTradeEvent(ON_TRADE_CANCEL, tradePartner, NULL);
            tradePartner->tradeItem = NULL;
        }

        tradePartner->setTradeState(TRADE_NONE);
        tradePartner->tradePartner = NULL;

        tradePartner->sendTextMessage(MSG_STATUS_SMALL, "Trade cancelled.");
        tradePartner->sendTradeClose();
    }

    return true;
}

bool Game::playerPurchaseItem(uint32_t playerId, uint16_t spriteId, uint8_t count, uint8_t amount,
    bool ignoreCap/* = false*/, bool inBackpacks/* = false*/)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(player->hasCondition(CONDITION_EXHAUST, EXHAUST_NPC))
    {
        player->sendCancelMessage(RET_YOUHAVETOWAIT);
        return false;
    }

    int32_t onBuy, onSell;
    Npc* merchant = player->getShopOwner(onBuy, onSell);
    if(!merchant)
        return false;

    const ItemType& it = Item::items.getItemIdByClientId(spriteId);
    if(!it.id)
        return false;

    uint8_t subType = count;
    if(it.isFluidContainer() && count < uint8_t(sizeof(reverseFluidMap) / sizeof(int8_t)))
        subType = reverseFluidMap[count];

    if(!player->canShopItem(it.id, subType, SHOPEVENT_BUY))
        return false;

    if(Condition* onBuyExhaust = Condition::createCondition(CONDITIONID_DEFAULT, CONDITION_EXHAUST, g_config.getNumber(ConfigManager::EXHAUST_ONBUY), 0, false, EXHAUST_NPC))
        player->addCondition(onBuyExhaust);

    merchant->onPlayerTrade(player, SHOPEVENT_BUY, onBuy, it.id, subType, amount, ignoreCap, inBackpacks);
    return true;
}

bool Game::playerSellItem(uint32_t playerId, uint16_t spriteId, uint8_t count, uint8_t amount)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(player->hasCondition(CONDITION_EXHAUST, EXHAUST_NPC))
    {
        player->sendCancelMessage(RET_YOUHAVETOWAIT);
        return false;
    }

    int32_t onBuy, onSell;
    Npc* merchant = player->getShopOwner(onBuy, onSell);
    if(!merchant)
        return false;

    const ItemType& it = Item::items.getItemIdByClientId(spriteId);
    if(!it.id)
        return false;

    uint8_t subType = count;
    if(it.isFluidContainer() && count < uint8_t(sizeof(reverseFluidMap) / sizeof(int8_t)))
        subType = reverseFluidMap[count];

    if(!player->canShopItem(it.id, subType, SHOPEVENT_SELL))
        return false;

    if(Condition* onSellExhaust = Condition::createCondition(CONDITIONID_DEFAULT, CONDITION_EXHAUST, g_config.getNumber(ConfigManager::EXHAUST_ONSELL), 0, false, EXHAUST_NPC))
        player->addCondition(onSellExhaust);

    merchant->onPlayerTrade(player, SHOPEVENT_SELL, onSell, it.id, subType, amount);
    return true;
}

bool Game::playerCloseShop(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(player == NULL || player->isRemoved())
        return false;

    player->closeShopWindow();
    return true;
}

bool Game::playerLookInShop(uint32_t playerId, uint16_t spriteId, uint8_t count)
{
    Player* player = getPlayerByID(playerId);
    if(player == NULL || player->isRemoved())
        return false;

    const ItemType& it = Item::items.getItemIdByClientId(spriteId);
    if(it.id == 0)
        return false;

    int32_t subType = count;
    if(it.isFluidContainer())
    {
        if(subType == 3) // FIXME: hack
            subType = 11;
        else if(count < uint8_t(sizeof(reverseFluidMap) / sizeof(int8_t)))
            subType = reverseFluidMap[count];
    }

    std::stringstream ss;
    ss << "You see " << Item::getDescription(it, 1, NULL, subType);
    if(player->hasCustomFlag(PlayerCustomFlag_CanSeeItemDetails))
        ss << std::endl << "ItemID: [" << it.id << "].";

    player->sendTextMessage(MSG_INFO_DESCR, ss.str());
    return true;
}

bool Game::playerLookAt(uint32_t playerId, const Position& pos, uint16_t spriteId, int16_t stackpos)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Thing* thing = internalGetThing(player, pos, stackpos, spriteId, STACKPOS_LOOK);
    if(!thing)
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Position thingPos = pos;
    if(pos.x == 0xFFFF)
        thingPos = thing->getPosition();

    if(!player->canSee(thingPos))
    {
        player->sendCancelMessage(RET_NOTPOSSIBLE);
        return false;
    }

    Position playerPos = player->getPosition();
    int32_t lookDistance = -1;
    if(thing != player)
    {
        lookDistance = std::max(std::abs(playerPos.x - thingPos.x), std::abs(playerPos.y - thingPos.y));
        if(playerPos.z != thingPos.z)
            lookDistance = lookDistance + 9 + 6;
    }

    bool deny = false;
    CreatureEventList lookEvents = player->getCreatureEvents(CREATURE_EVENT_LOOK);
    for(CreatureEventList::iterator it = lookEvents.begin(); it != lookEvents.end(); ++it)
    {
        if(!(*it)->executeLook(player, thing, thingPos, stackpos, lookDistance))
            deny = true;
    }

    if(deny)
        return false;

    std::stringstream ss;
    ss << "You see " << thing->getDescription(lookDistance);
    if(player->hasCustomFlag(PlayerCustomFlag_CanSeeItemDetails))
    {
        if(Item* item = thing->getItem())
        {
            ss << std::endl << "ItemID: [" << item->getID() << "]";
            if(item->getActionId() > 0)
                ss << ", ActionID: [" << item->getActionId() << "]";

            if(item->getUniqueId() > 0)
                ss << ", UniqueID: [" << item->getUniqueId() << "]";

            ss << ".";
            const ItemType& it = Item::items[item->getID()];
            if(it.transformEquipTo)
                ss << std::endl << "TransformTo: [" << it.transformEquipTo << "] (onEquip).";
            else if(it.transformDeEquipTo)
                ss << std::endl << "TransformTo: [" << it.transformDeEquipTo << "] (onDeEquip).";
            else if(it.decayTo != -1)
                ss << std::endl << "DecayTo: [" << it.decayTo << "].";
        }
    }

    if(player->hasCustomFlag(PlayerCustomFlag_CanSeeCreatureDetails))
    {
        if(const Creature* creature = thing->getCreature())
        {
            ss << std::endl << "Health: [" << creature->getHealth() << " / " << creature->getMaxHealth() << "]";
            if(creature->getMaxMana() > 0)
                ss << ", Mana: [" << creature->getMana() << " / " << creature->getMaxMana() << "]";

            ss << ".";
            if(const Player* destPlayer = creature->getPlayer())
            {
                ss << std::endl << "IP: " << convertIPAddress(destPlayer->getIP()) << ", Client: " << destPlayer->getClientVersion() << ".";
                if(destPlayer->isGhost())
                    ss << std::endl << "* Ghost mode *";
            }
        }
    }

    if(player->hasCustomFlag(PlayerCustomFlag_CanSeePosition))
        ss << std::endl << "Position: [X: " << thingPos.x << "] [Y: " << thingPos.y << "] [Z: " << thingPos.z << "].";

    player->sendTextMessage(MSG_INFO_DESCR, ss.str());
    return true;
}

bool Game::playerQuests(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->sendQuests();
    return true;
}

bool Game::playerQuestInfo(uint32_t playerId, uint16_t questId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Quest* quest = Quests::getInstance()->getQuestById(questId);
    if(!quest)
        return false;

    player->sendQuestInfo(quest);
    return true;
}

bool Game::playerCancelAttackAndFollow(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    playerSetAttackedCreature(playerId, 0);
    playerFollowCreature(playerId, 0);

    player->stopWalk();
    return true;
}

bool Game::playerSetAttackedCreature(uint32_t playerId, uint32_t creatureId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(player->getAttackedCreature() && !creatureId)
    {
        player->setAttackedCreature(NULL);
        player->sendCancelTarget();
        return true;
    }

    Creature* attackCreature = getCreatureByID(creatureId);
    if(!attackCreature)
    {
        player->setAttackedCreature(NULL);
        player->sendCancelTarget();
        return false;
    }

    ReturnValue ret = Combat::canTargetCreature(player, attackCreature);
    if(ret != RET_NOERROR)
    {
        player->sendCancelMessage(ret);
        player->sendCancelTarget();
        player->setAttackedCreature(NULL);
        return false;
    }

    player->setAttackedCreature(attackCreature);
    Dispatcher::getInstance().addTask(createTask(boost::bind(
        &Game::updateCreatureWalk, this, player->getID())));
    return true;
}

bool Game::playerFollowCreature(uint32_t playerId, uint32_t creatureId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Creature* followCreature = NULL;
    if(creatureId)
        followCreature = getCreatureByID(creatureId);

    player->setAttackedCreature(NULL);
    Dispatcher::getInstance().addTask(createTask(boost::bind(
        &Game::updateCreatureWalk, this, player->getID())));
    return player->setFollowCreature(followCreature);
}

bool Game::playerSetFightModes(uint32_t playerId, fightMode_t fightMode, chaseMode_t chaseMode, secureMode_t secureMode)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->setFightMode(fightMode);
    player->setChaseMode(chaseMode);
    player->setSecureMode(secureMode);

    return true;
}

bool Game::playerRequestAddVip(uint32_t playerId, const std::string& vipName)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    uint32_t guid;
    bool specialVip;

    std::string name = vipName;
    if(!IOLoginData::getInstance()->getGuidByNameEx(guid, specialVip, name))
    {
        player->sendTextMessage(MSG_STATUS_SMALL, "A player with that name does not exist.");
        return false;
    }

    if(specialVip && !player->hasFlag(PlayerFlag_SpecialVIP))
    {
        player->sendTextMessage(MSG_STATUS_SMALL, "You cannot add this player.");
        return false;
    }

    bool online = false;
    if(Player* target = getPlayerByName(name))
        online = player->canSeeCreature(target);

    return player->addVIP(guid, name, online);
}

bool Game::playerRequestRemoveVip(uint32_t playerId, uint32_t guid)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    player->removeVIP(guid);
    return true;
}

bool Game::playerTurn(uint32_t playerId, Direction dir)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(internalCreatureTurn(player, dir))
    {
        player->setIdleTime(0);
        return true;
    }

    if(player->getDirection() != dir || !player->hasCustomFlag(PlayerCustomFlag_CanTurnhop))
        return false;

    Position pos = getNextPosition(dir, player->getPosition());
    Tile* tile = map->getTile(pos);
    if(!tile || !tile->ground)
        return false;

    player->setIdleTime(0);
    ReturnValue ret = tile->__queryAdd(0, player, 1, FLAG_IGNOREBLOCKITEM);
    if(ret != RET_NOTENOUGHROOM && (ret != RET_NOTPOSSIBLE || player->hasCustomFlag(PlayerCustomFlag_CanMoveAnywhere))
        && (ret != RET_PLAYERISNOTINVITED || player->hasFlag(PlayerFlag_CanEditHouses)))
        return internalTeleport(player, pos, false, FLAG_NOLIMIT, false);

    player->sendCancelMessage(ret);
    return false;
}

bool Game::playerRequestOutfit(uint32_t playerId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(player->hasCondition(CONDITION_EXHAUST, EXHAUST_OUTFIT))
    {
        player->sendCancelMessage(RET_YOUHAVETOWAIT);
        return false;
    }

    if(Condition* changeOutfitExhaust = Condition::createCondition(CONDITIONID_DEFAULT, CONDITION_EXHAUST, g_config.getNumber(ConfigManager::EXHAUST_CHANGEOUFIT), 0, false, EXHAUST_OUTFIT))
        player->addCondition(changeOutfitExhaust);

    player->sendOutfitWindow();
    return true;
}

bool Game::playerChangeOutfit(uint32_t playerId, Outfit_t outfit)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(!player->changeOutfit(outfit, true))
        return false;

    player->setIdleTime(0);
    if(!player->hasCondition(CONDITION_OUTFIT, -1))
        internalCreatureChangeOutfit(player, outfit);

    return true;
}

bool Game::playerSay(uint32_t playerId, uint16_t channelId, SpeakClasses type, const std::string& receiver, const std::string& text, ProtocolGame* pg)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if (pg != NULL && pg->getIsCast() && !player->isAccountManager())
    {
        if(player->hasCondition(CONDITION_EXHAUST, 64597))
            return false;

        if(Condition* conditionchannel = Condition::createCondition(CONDITIONID_DEFAULT, CONDITION_EXHAUST, 2000, 0, false, 64597))
            player->addCondition(conditionchannel);

        if(g_talkActions->onPlayerSay(player, type == SPEAK_SAY ? (unsigned)CHANNEL_DEFAULT : channelId, text, false, pg))
            return true;

        PlayerCast pc = player->getCast();
        for(std::list<CastBan>::iterator it = pc.muted.begin(); it != pc.muted.end(); ++it)
            if(it->ip == pg->getIP())
            {
                pg->publicSendMessage(player, SPEAK_PRIVATE, "You are muted on this cast.");
                return false;
            }

        if(playerTalkToChannel(player, type, text, channelId, pg))
            return true;
        else
            return false;
    }

    uint32_t muted = 0;
    bool mute = player->isMuted(channelId, type, muted);
    if(muted && mute)
    {
        char buffer[75];
        sprintf(buffer, "You are still muted for %d seconds.", muted);
        player->sendTextMessage(MSG_STATUS_SMALL, buffer);
        return false;
    }

    std::string _text = asLowerCaseString(text);
    for(uint8_t i = 0; i < _text.length(); i++)
    {
        char t = _text[i];
        if(t != '-' && t != '.' && !(t >= 'a' && t <= 'z'))
        {
            _text.erase(i, 1);
            i--;
        }
    }

    const char *strings[] = {"servegame", "no-ip", ".net", ".com", ".org", "biz", ".br", "sytes", ".info", ".online"};
    int i, stringSize;
    stringSize = sizeof(strings) / sizeof(strings[0]);
    for (i = 0; i < stringSize; i++)
    {
        if(int(_text.find(strings[i])) > 0 || _text == strings[i])
        {
            player->sendTextMessage(MSG_STATUS_SMALL, "You can't send this message, forbidden words.");
            return false;
        }
    }

    if(player->isAccountManager())
    {
        if(mute)
            player->removeMessageBuffer();

        return internalCreatureSay(player, SPEAK_SAY, text, false);
    }

    if(g_talkActions->onPlayerSay(player, type == SPEAK_SAY ? (unsigned)CHANNEL_DEFAULT : channelId, text, false))
        return true;

    ReturnValue ret = RET_CANONLYUSEONEWEAPON;
    if(!muted)
    {
        ret = g_spells->onPlayerSay(player, text);
        if(ret == RET_NOERROR || (ret == RET_NEEDEXCHANGE && !g_config.getBool(ConfigManager::BUFFER_SPELL_FAILURE)))
            return true;
    }

    if(mute)
        player->removeMessageBuffer();

    if(ret == RET_NEEDEXCHANGE)
        return true;

    switch(type)
    {
        case SPEAK_SAY:
            return internalCreatureSay(player, SPEAK_SAY, text, false);
        case SPEAK_WHISPER:
            return playerWhisper(player, text);
        case SPEAK_YELL:
            return playerYell(player, text);
        case SPEAK_PRIVATE:
        case SPEAK_PRIVATE_RED:
        case SPEAK_RVR_ANSWER:
            return playerSpeakTo(player, type, receiver, text);
        case SPEAK_CHANNEL_O:
        case SPEAK_CHANNEL_Y:
        case SPEAK_CHANNEL_RN:
        case SPEAK_CHANNEL_RA:
        case SPEAK_CHANNEL_W:
        {
            if(playerTalkToChannel(player, type, text, channelId))
                return true;

            return playerSay(playerId, 0, SPEAK_SAY, receiver, text);
        }
        case SPEAK_PRIVATE_PN:
            return playerSpeakToNpc(player, text);
        case SPEAK_BROADCAST:
            return playerBroadcastMessage(player, SPEAK_BROADCAST, text);
        case SPEAK_RVR_CHANNEL:
            return playerReportRuleViolation(player, text);
        case SPEAK_RVR_CONTINUE:
            return playerContinueReport(player, text);

        default:
            break;
    }

    return false;
}

bool Game::playerWhisper(Player* player, const std::string& text)
{
    SpectatorVec list;
    SpectatorVec::const_iterator it;
    getSpectators(list, player->getPosition(), false, false,
        Map::maxClientViewportX, Map::maxClientViewportX,
        Map::maxClientViewportY, Map::maxClientViewportY);

    //send to client
    Player* tmpPlayer = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureSay(player, SPEAK_WHISPER, text);
    }

    //event method
    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureSay(player, SPEAK_WHISPER, text);

    return true;
}

bool Game::playerYell(Player* player, const std::string& text)
{
    if(player->getLevel() <= 1 && !player->hasFlag(PlayerFlag_CannotBeMuted))
    {
        player->sendTextMessage(MSG_STATUS_SMALL, "You may not yell as long as you are on level 1.");
        return true;
    }

    if(player->hasCondition(CONDITION_MUTED, 1))
    {
        player->sendCancelMessage(RET_YOUAREEXHAUSTED);
        return true;
    }

    if(!player->hasFlag(PlayerFlag_CannotBeMuted))
    {
        if(Condition* condition = Condition::createCondition(CONDITIONID_DEFAULT, CONDITION_MUTED, 30000, 0, false, 1))
            player->addCondition(condition);
    }

    internalCreatureSay(player, SPEAK_YELL, asUpperCaseString(text), false);
    return true;
}

bool Game::playerSpeakTo(Player* player, SpeakClasses type, const std::string& receiver,
    const std::string& text)
{
    Player* toPlayer = getPlayerByName(receiver);
    if(!toPlayer || toPlayer->isRemoved())
    {
        player->sendTextMessage(MSG_STATUS_SMALL, "A player with this name is not online.");
        return false;
    }

    bool canSee = player->canSeeCreature(toPlayer);
    if(toPlayer->hasCondition(CONDITION_GAMEMASTER, GAMEMASTER_IGNORE)
        && !player->hasFlag(PlayerFlag_CannotBeMuted))
    {
        char buffer[70];
        if(!canSee)
            sprintf(buffer, "A player with this name is not online.");
        else
            sprintf(buffer, "Sorry, %s is currently ignoring private messages.", toPlayer->getName().c_str());

        player->sendTextMessage(MSG_STATUS_SMALL, buffer);
        return false;
    }

    if(type == SPEAK_PRIVATE_RED && !player->hasFlag(PlayerFlag_CanTalkRedPrivate))
        type = SPEAK_PRIVATE;

    toPlayer->sendCreatureSay(player, type, text);
    toPlayer->onCreatureSay(player, type, text);
    if(!canSee)
    {
        player->sendTextMessage(MSG_STATUS_SMALL, "A player with this name is not online.");
        return false;
    }

    char buffer[80];
    sprintf(buffer, "Message sent to %s.", toPlayer->getName().c_str());
    player->sendTextMessage(MSG_STATUS_SMALL, buffer);
    return true;
}

bool Game::playerTalkToChannel(Player* player, SpeakClasses type, const std::string& text, uint16_t channelId, ProtocolGame* pg)
{
    switch(type)
    {
        case SPEAK_CHANNEL_Y:
        {
            if(channelId == CHANNEL_HELP && player->hasFlag(PlayerFlag_TalkOrangeHelpChannel))
                type = SPEAK_CHANNEL_O;
                
            if(g_chat.getPrivateChannel(player) != NULL && channelId == g_chat.getPrivateChannel(player)->getId() && (pg == NULL || (pg != NULL && !pg->getIsCast())))
                type = SPEAK_CHANNEL_O;
                
            break;
        }

        case SPEAK_CHANNEL_O:
        {
            if(channelId != CHANNEL_HELP || !player->hasFlag(PlayerFlag_TalkOrangeHelpChannel))
                type = SPEAK_CHANNEL_Y;
            break;
        }

        case SPEAK_CHANNEL_RN:
        {
            if(!player->hasFlag(PlayerFlag_CanTalkRedChannel))
                type = SPEAK_CHANNEL_Y;
            break;
        }

        case SPEAK_CHANNEL_RA:
        {
            if(!player->hasFlag(PlayerFlag_CanTalkRedChannelAnonymous))
                type = SPEAK_CHANNEL_Y;
            break;
        }

        default:
            break;
    }

    return g_chat.talkToChannel(player, type, text, channelId, pg);
}

bool Game::playerSpeakToNpc(Player* player, const std::string& text)
{
    SpectatorVec list;
    SpectatorVec::iterator it;
    getSpectators(list, player->getPosition());

    //send to npcs only
    Npc* tmpNpc = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpNpc = (*it)->getNpc()))
            (*it)->onCreatureSay(player, SPEAK_PRIVATE_PN, text);
    }
    return true;
}

bool Game::playerReportRuleViolation(Player* player, const std::string& text)
{
    //Do not allow reports on multiclones worlds since reports are name-based
    if(g_config.getNumber(ConfigManager::ALLOW_CLONES))
    {
        player->sendTextMessage(MSG_INFO_DESCR, "Rule violation reports are disabled.");
        return false;
    }

    cancelRuleViolation(player);
    boost::shared_ptr<RuleViolation> rvr(new RuleViolation(player, text, time(NULL)));
    ruleViolations[player->getID()] = rvr;

    ChatChannel* channel = g_chat.getChannelById(CHANNEL_RVR);
    if(!channel)
        return false;

    for(UsersMap::const_iterator it = channel->getUsers().begin(); it != channel->getUsers().end(); ++it)
        it->second->sendToChannel(player, SPEAK_RVR_CHANNEL, text, CHANNEL_RVR, rvr->time);

    return true;
}

bool Game::playerContinueReport(Player* player, const std::string& text)
{
    RuleViolationsMap::iterator it = ruleViolations.find(player->getID());
    if(it == ruleViolations.end())
        return false;

    RuleViolation& rvr = *it->second;
    Player* toPlayer = rvr.gamemaster;
    if(!toPlayer)
        return false;

    toPlayer->sendCreatureSay(player, SPEAK_RVR_CONTINUE, text);
    player->sendTextMessage(MSG_STATUS_SMALL, "Message sent to Gamemaster.");
    return true;
}

bool Game::canThrowObjectTo(const Position& fromPos, const Position& toPos, bool checkLineOfSight /*= true*/,
    int32_t rangex/* = Map::maxClientViewportX*/, int32_t rangey/* = Map::maxClientViewportY*/)
{
    return map->canThrowObjectTo(fromPos, toPos, checkLineOfSight, rangex, rangey);
}

bool Game::isSightClear(const Position& fromPos, const Position& toPos, bool floorCheck)
{
    return map->isSightClear(fromPos, toPos, floorCheck);
}

bool Game::internalCreatureTurn(Creature* creature, Direction dir)
{
    bool deny = false;
    CreatureEventList directionEvents = creature->getCreatureEvents(CREATURE_EVENT_DIRECTION);
    for(CreatureEventList::iterator it = directionEvents.begin(); it != directionEvents.end(); ++it)
    {
        if(!(*it)->executeDirection(creature, creature->getDirection(), dir) && !deny)
            deny = true;
    }

    if(deny || creature->getDirection() == dir)
        return false;

    creature->setDirection(dir);
    const SpectatorVec& list = getSpectators(creature->getPosition());
    SpectatorVec::const_iterator it;

    //send to client
    Player* tmpPlayer = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureTurn(creature);
    }

    //event method
    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureTurn(creature);

    return true;
}

bool Game::internalCreatureSay(Creature* creature, SpeakClasses type, const std::string& text,
    bool ghostMode, SpectatorVec* spectators/* = NULL*/, Position* pos/* = NULL*/)
{
    Player* player = creature->getPlayer();
    if(player && player->isAccountManager())
    {
        player->manageAccount(text);
        return true;
    }

    Position destPos = creature->getPosition();
    if(pos)
        destPos = (*pos);

    SpectatorVec list;
    SpectatorVec::const_iterator it;
    if(!spectators || !spectators->size())
    {
        // This somewhat complex construct ensures that the cached SpectatorVec
        // is used if available and if it can be used, else a local vector is
        // used (hopefully the compiler will optimize away the construction of
        // the temporary when it's not used).
        if(type != SPEAK_YELL && type != SPEAK_MONSTER_YELL)
            getSpectators(list, destPos, false, false,
                Map::maxClientViewportX, Map::maxClientViewportX,
                Map::maxClientViewportY, Map::maxClientViewportY);
        else
            getSpectators(list, destPos, false, true, 18, 18, 14, 14);
    }
    else
        list = (*spectators);

    //send to client
    Player* tmpPlayer = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if(!(tmpPlayer = (*it)->getPlayer()))
            continue;

        if(!ghostMode || tmpPlayer->canSeeCreature(creature))
            tmpPlayer->sendCreatureSay(creature, type, text, &destPos);
    }

    //event method
    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureSay(creature, type, text, &destPos);

    return true;
}

bool Game::getPathTo(const Creature* creature, const Position& destPos,
    std::list<Direction>& listDir, int32_t maxSearchDist /*= -1*/)
{
    return map->getPathTo(creature, destPos, listDir, maxSearchDist);
}

bool Game::getPathToEx(const Creature* creature, const Position& targetPos,
    std::list<Direction>& dirList, const FindPathParams& fpp)
{
    return map->getPathMatching(creature, dirList, FrozenPathingConditionCall(targetPos), fpp);
}

bool Game::getPathToEx(const Creature* creature, const Position& targetPos, std::list<Direction>& dirList,
    uint32_t minTargetDist, uint32_t maxTargetDist, bool fullPathSearch /*= true*/,
    bool clearSight /*= true*/, int32_t maxSearchDist /*= -1*/)
{
    FindPathParams fpp;
    fpp.fullPathSearch = fullPathSearch;
    fpp.maxSearchDist = maxSearchDist;
    fpp.clearSight = clearSight;
    fpp.minTargetDist = minTargetDist;
    fpp.maxTargetDist = maxTargetDist;
    return getPathToEx(creature, targetPos, dirList, fpp);
}

void Game::checkCreatureWalk(uint32_t creatureId)
{
    Creature* creature = getCreatureByID(creatureId);
    if(!creature || creature->getHealth() < 1)
        return;

    creature->onWalk();
    cleanup();
}

void Game::updateCreatureWalk(uint32_t creatureId)
{
    Creature* creature = getCreatureByID(creatureId);
    if(creature && creature->getHealth() > 0)
        creature->goToFollowCreature();
}

void Game::checkCreatureAttack(uint32_t creatureId)
{
    Creature* creature = getCreatureByID(creatureId);
    if(creature && creature->getHealth() > 0)
        creature->onAttacking(0);
}

void Game::addCreatureCheck(Creature* creature)
{
    if(creature->isRemoved())
        return;

    creature->checked = true;
    if(creature->checkVector >= 0) //already in a vector, or about to be added
        return;

    toAddCheckCreatureVector.push_back(creature);
    creature->checkVector = random_range(0, EVENT_CREATURECOUNT - 1);
    creature->addRef();
}

void Game::removeCreatureCheck(Creature* creature)
{
    if(creature->checkVector == -1) //not in any vector
        return;

    creature->checked = false;
}

void Game::checkCreatures()
{
    Scheduler::getInstance().addEvent(createSchedulerTask(
        EVENT_CHECK_CREATURE_INTERVAL, boost::bind(&Game::checkCreatures, this)));
    checkCreatureLastIndex++;
    if(checkCreatureLastIndex == EVENT_CREATURECOUNT)
        checkCreatureLastIndex = 0;

    std::vector<Creature*>::iterator it;
    for(it = toAddCheckCreatureVector.begin(); it != toAddCheckCreatureVector.end(); ++it)
        checkCreatureVectors[(*it)->checkVector].push_back(*it);

    toAddCheckCreatureVector.clear();
    std::vector<Creature*>& checkCreatureVector = checkCreatureVectors[checkCreatureLastIndex];
    for(it = checkCreatureVector.begin(); it != checkCreatureVector.end();)
    {
        if((*it)->checked)
        {
            if((*it)->getHealth() > 0 || !(*it)->onDeath())
                (*it)->onThink(EVENT_CREATURE_THINK_INTERVAL);

            ++it;
        }
        else
        {
            (*it)->checkVector = -1;
            freeThing(*it);
            it = checkCreatureVector.erase(it);
        }
    }

    cleanup();
}

void Game::changeSpeed(Creature* creature, int32_t varSpeedDelta)
{
    int32_t varSpeed = creature->getSpeed() - creature->getBaseSpeed();
    varSpeed += varSpeedDelta;
    creature->setSpeed(varSpeed);

    const SpectatorVec& list = getSpectators(creature->getPosition());
    SpectatorVec::const_iterator it;

    //send to client
    Player* tmpPlayer = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendChangeSpeed(creature, creature->getStepSpeed());
    }
}

void Game::internalCreatureChangeOutfit(Creature* creature, const Outfit_t& outfit, bool forced/* = false*/)
{
    if(!forced)
    {
        bool deny = false;
        CreatureEventList outfitEvents = creature->getCreatureEvents(CREATURE_EVENT_OUTFIT);
        for(CreatureEventList::iterator it = outfitEvents.begin(); it != outfitEvents.end(); ++it)
        {
            if(!(*it)->executeOutfit(creature, creature->getCurrentOutfit(), outfit) && !deny)
                deny = true;
        }

        if(deny || creature->getCurrentOutfit() == outfit)
            return;
    }

    creature->setCurrentOutfit(outfit);
    const SpectatorVec& list = getSpectators(creature->getPosition());
    SpectatorVec::const_iterator it;

    //send to client
    Player* tmpPlayer = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureChangeOutfit(creature, outfit);
    }

    //event method
    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureChangeOutfit(creature, outfit);
}

void Game::internalCreatureChangeVisible(Creature* creature, Visible_t visible)
{
    const SpectatorVec& list = getSpectators(creature->getPosition());
    SpectatorVec::const_iterator it;

    //send to client
    Player* tmpPlayer = NULL;
    for(it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureChangeVisible(creature, visible);
    }

    //event method
    for(it = list.begin(); it != list.end(); ++it)
        (*it)->onCreatureChangeVisible(creature, visible);
}


void Game::changeLight(const Creature* creature)
{
    const SpectatorVec& list = getSpectators(creature->getPosition());

    //send to client
    Player* tmpPlayer = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureLight(creature);
    }
}

bool Game::combatBlockHit(CombatType_t combatType, Creature* attacker, Creature* target,
    int32_t& healthChange, bool checkDefense, bool checkArmor)
{
    if(healthChange > 0)
        return false;

    const Position& targetPos = target->getPosition();
    const SpectatorVec& list = getSpectators(targetPos);
    if(!target->isAttackable() || Combat::canDoCombat(attacker, target) != RET_NOERROR)
    {
        addMagicEffect(list, targetPos, MAGIC_EFFECT_POFF, target->isGhost());
        return true;
    }

    int32_t damage = -healthChange;
    BlockType_t blockType = target->blockHit(attacker, combatType, damage, checkDefense, checkArmor);

    healthChange = -damage;
    if(blockType == BLOCK_DEFENSE)
    {
        addMagicEffect(list, targetPos, MAGIC_EFFECT_POFF);
        return true;
    }
    else if(blockType == BLOCK_ARMOR)
    {
        addMagicEffect(list, targetPos, MAGIC_EFFECT_BLOCKHIT);
        return true;
    }
    else if(blockType != BLOCK_IMMUNITY)
        return false;

    MagicEffect_t effect = MAGIC_EFFECT_NONE;
    switch(combatType)
    {
        case COMBAT_UNDEFINEDDAMAGE:
            break;

        case COMBAT_ENERGYDAMAGE:
        case COMBAT_FIREDAMAGE:
        case COMBAT_PHYSICALDAMAGE:
        case COMBAT_ICEDAMAGE:
        case COMBAT_DEATHDAMAGE:
        case COMBAT_EARTHDAMAGE:
        case COMBAT_HOLYDAMAGE:
        {
            effect = MAGIC_EFFECT_BLOCKHIT;
            break;
        }

        default:
        {
            effect = MAGIC_EFFECT_POFF;
            break;
        }
    }

    addMagicEffect(list, targetPos, effect);
    return true;
}

bool Game::combatChangeHealth(CombatType_t combatType, Creature* attacker, Creature* target, int32_t healthChange,
    MagicEffect_t hitEffect/* = MAGIC_EFFECT_UNKNOWN*/, Color_t hitColor/* = COLOR_UNKNOWN*/, bool force/* = false*/)
{
    const Position& targetPos = target->getPosition();
    if(healthChange > 0)
    {
        if(!force && target->getHealth() <= 0)
            return false;

        bool deny = false;
        CreatureEventList statsChangeEvents = target->getCreatureEvents(CREATURE_EVENT_STATSCHANGE);
        for(CreatureEventList::iterator it = statsChangeEvents.begin(); it != statsChangeEvents.end(); ++it)
        {
            if(!(*it)->executeStatsChange(target, attacker, STATSCHANGE_HEALTHGAIN, combatType, healthChange))
                deny = true;
        }

        if(deny)
            return false;

        target->gainHealth(attacker, healthChange);
        if(g_config.getBool(ConfigManager::SHOW_HEALING_DAMAGE) && !target->isGhost() &&
            (g_config.getBool(ConfigManager::SHOW_HEALING_DAMAGE_MONSTER) || !target->getMonster()))
        {
            char buffer[20];
            sprintf(buffer, "+%d", healthChange);

            const SpectatorVec& list = getSpectators(targetPos);
            if(combatType != COMBAT_HEALING)
                addMagicEffect(list, targetPos, MAGIC_EFFECT_WRAPS_BLUE);

            addAnimatedText(list, targetPos, g_config.getNumber(ConfigManager::HEALTH_HEALING_COLOR), buffer);
        }
    }
    else
    {
        const SpectatorVec& list = getSpectators(targetPos);
        if(!target->isAttackable() || Combat::canDoCombat(attacker, target) != RET_NOERROR)
        {
            addMagicEffect(list, targetPos, MAGIC_EFFECT_POFF);
            return true;
        }

        int32_t damage = -healthChange;
        if(damage != 0)
        {
            if(target->hasCondition(CONDITION_MANASHIELD) && combatType != COMBAT_UNDEFINEDDAMAGE)
            {
                int32_t manaDamage = std::min(target->getMana(), damage);
                damage = std::max((int32_t)0, damage - manaDamage);
                if(manaDamage != 0)
                {
                    bool deny = false;
                    CreatureEventList statsChangeEvents = target->getCreatureEvents(CREATURE_EVENT_STATSCHANGE);
                    for(CreatureEventList::iterator it = statsChangeEvents.begin(); it != statsChangeEvents.end(); ++it)
                    {
                        if(!(*it)->executeStatsChange(target, attacker, STATSCHANGE_MANALOSS, combatType, manaDamage))
                            deny = true;
                    }

                    if(deny)
                        return false;

                    target->drainMana(attacker, combatType, manaDamage);
                    char buffer[20];
                    sprintf(buffer, "%d", manaDamage);

                    addMagicEffect(list, targetPos, MAGIC_EFFECT_LOSE_ENERGY);
                    addAnimatedText(list, targetPos, COLOR_NEW_BLUEEE, buffer);
                }
            }

            damage = std::min(target->getHealth(), damage);
            if(damage > 0)
            {
                bool deny = false;
                CreatureEventList statsChangeEvents = target->getCreatureEvents(CREATURE_EVENT_STATSCHANGE);
                for(CreatureEventList::iterator it = statsChangeEvents.begin(); it != statsChangeEvents.end(); ++it)
                {
                    if(!(*it)->executeStatsChange(target, attacker, STATSCHANGE_HEALTHLOSS, combatType, damage))
                        deny = true;
                }

                if(deny)
                    return false;

                target->drainHealth(attacker, combatType, damage);
                addCreatureHealth(list, target);

                Color_t textColor = COLOR_NONE;
                MagicEffect_t magicEffect = MAGIC_EFFECT_NONE;
                switch(combatType)
                {
                    case COMBAT_PHYSICALDAMAGE:
                    {
                        Item* splash = NULL;
                        switch(target->getRace())
                        {
                            case RACE_VENOM:
                                textColor = COLOR_LIGHTGREEN;
                                magicEffect = MAGIC_EFFECT_POISON;
                                splash = Item::CreateItem(ITEM_SMALLSPLASH, FLUID_GREEN);
                                break;

                            case RACE_BLOOD:
                                textColor = COLOR_WHITE;
                                magicEffect = MAGIC_EFFECT_SKULLHORIZONTAL;
                                splash = Item::CreateItem(ITEM_SMALLSPLASH, FLUID_BLOOD);
                                break;

                            case RACE_UNDEAD:
                                textColor = COLOR_GREY;
                                magicEffect = MAGIC_EFFECT_HIT_AREA;
                                break;

                            case RACE_FIRE:
                                textColor = COLOR_ORANGE;
                                magicEffect = MAGIC_EFFECT_DRAW_BLOOD;
                                break;

                            case RACE_ENERGY:
                                textColor = COLOR_PURPLE;
                                magicEffect = MAGIC_EFFECT_PURPLEENERGY;
                                break;

                            default:
                                break;
                        }

                        if(splash)
                        {
                            internalAddItem(NULL, target->getTile(), splash, INDEX_WHEREEVER, FLAG_NOLIMIT);
                            startDecay(splash);
                        }
                        break;
                    }

                    case COMBAT_ENERGYDAMAGE:
                    {
                        textColor = COLOR_PURPLE;
                        magicEffect = MAGIC_EFFECT_ENERGY_DAMAGE;
                        break;
                    }

                    case COMBAT_EARTHDAMAGE:
                    {
                        textColor = COLOR_LIGHTGREEN;
                        magicEffect = MAGIC_EFFECT_POISON_RINGS;
                        break;
                    }

                    case COMBAT_DROWNDAMAGE:
                    {
                        textColor = COLOR_LIGHTBLUE;
                        magicEffect = MAGIC_EFFECT_LOSE_ENERGY;
                        break;
                    }

                    case COMBAT_FIREDAMAGE:
                    {
                        textColor = COLOR_ORANGE;
                        magicEffect = MAGIC_EFFECT_HITBY_FIRE;
                        break;
                    }

                    case COMBAT_ICEDAMAGE:
                    {
                        textColor = COLOR_NEW_BLUE;
                        magicEffect = MAGIC_EFFECT_ICEATTACK;
                        break;
                    }

                    case COMBAT_HOLYDAMAGE:
                    {
                        textColor = COLOR_NEW_YELLOW;
                        magicEffect = MAGIC_EFFECT_HOLYDAMAGE;
                        break;
                    }

                    case COMBAT_DEATHDAMAGE:
                    {
                        textColor = COLOR_DARKRED;
                        magicEffect = MAGIC_EFFECT_SMALLCLOUDS;
                        break;
                    }

                    case COMBAT_LIFEDRAIN:
                    {
                        textColor = COLOR_RED;
                        magicEffect = MAGIC_EFFECT_WRAPS_RED;
                        break;
                    }

                    default:
                        break;
                }

                if(hitEffect != MAGIC_EFFECT_UNKNOWN)
                    magicEffect = hitEffect;

                if(hitColor != COLOR_UNKNOWN)
                    textColor = hitColor;

                if(textColor < COLOR_NONE && magicEffect < MAGIC_EFFECT_NONE)
                {
                    char buffer[20];
                    sprintf(buffer, "%d", damage);

                    addMagicEffect(list, targetPos, magicEffect);
                    addAnimatedText(list, targetPos, textColor, buffer);
                }
            }
        }
    }

    return true;
}

bool Game::combatChangeMana(Creature* attacker, Creature* target, int32_t manaChange)
{
    const Position& targetPos = target->getPosition();
    if(manaChange > 0)
    {
        bool deny = false;
        CreatureEventList statsChangeEvents = target->getCreatureEvents(CREATURE_EVENT_STATSCHANGE);
        for(CreatureEventList::iterator it = statsChangeEvents.begin(); it != statsChangeEvents.end(); ++it)
        {
            if(!(*it)->executeStatsChange(target, attacker, STATSCHANGE_MANAGAIN, COMBAT_HEALING, manaChange))
                deny = true;
        }

        if(deny)
            return false;

        target->changeMana(manaChange);
        if(g_config.getBool(ConfigManager::SHOW_HEALING_DAMAGE) && !target->isGhost() &&
            (g_config.getBool(ConfigManager::SHOW_HEALING_DAMAGE_MONSTER) || !target->getMonster()))
        {
            char buffer[20];
            sprintf(buffer, "+%d", manaChange);

            const SpectatorVec& list = getSpectators(targetPos);
            addAnimatedText(list, targetPos, g_config.getNumber(ConfigManager::MANA_HEALING_COLOR), buffer);
        }
    }
    else
    {
        const SpectatorVec& list = getSpectators(targetPos);
        if(!target->isAttackable() || Combat::canDoCombat(attacker, target) != RET_NOERROR)
        {
            addMagicEffect(list, targetPos, MAGIC_EFFECT_POFF);
            return false;
        }

        int32_t manaLoss = std::min(target->getMana(), -manaChange);
        BlockType_t blockType = target->blockHit(attacker, COMBAT_MANADRAIN, manaLoss);
        if(blockType != BLOCK_NONE)
        {
            addMagicEffect(list, targetPos, MAGIC_EFFECT_POFF);
            return false;
        }

        if(manaLoss > 0)
        {
            bool deny = false;
            CreatureEventList statsChangeEvents = target->getCreatureEvents(CREATURE_EVENT_STATSCHANGE);
            for(CreatureEventList::iterator it = statsChangeEvents.begin(); it != statsChangeEvents.end(); ++it)
            {
                if(!(*it)->executeStatsChange(target, attacker, STATSCHANGE_MANALOSS, COMBAT_UNDEFINEDDAMAGE, manaChange))
                    deny = true;
            }

            if(deny)
                return false;

            target->drainMana(attacker, COMBAT_MANADRAIN, manaLoss);
            char buffer[20];
            sprintf(buffer, "%d", manaLoss);

            addAnimatedText(list, targetPos, COLOR_BLUE, buffer);
        }
    }

    return true;
}

void Game::addCreatureHealth(const Creature* target)
{
    const SpectatorVec& list = getSpectators(target->getPosition());
    addCreatureHealth(list, target);
}

void Game::addCreatureHealth(const SpectatorVec& list, const Creature* target)
{
    Player* player = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((player = (*it)->getPlayer()))
            player->sendCreatureHealth(target);
    }
}

void Game::addCreatureSquare(const Creature* target, uint8_t squareColor)
{
    const SpectatorVec& list = getSpectators(target->getPosition());
    addCreatureSquare(list, target, squareColor);
}

void Game::addCreatureSquare(const SpectatorVec& list, const Creature* target, uint8_t squareColor)
{
    Player* player = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((player = (*it)->getPlayer()))
            player->sendCreatureSquare(target, squareColor);
    }
}

void Game::addAnimatedText(const Position& pos, uint8_t textColor, const std::string& text)
{
    const SpectatorVec& list = getSpectators(pos);
    addAnimatedText(list, pos, textColor, text);
}

void Game::addAnimatedText(const SpectatorVec& list, const Position& pos, uint8_t textColor,
    const std::string& text)
{
    Player* player = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((player = (*it)->getPlayer()))
            player->sendAnimatedText(pos, textColor, text);
    }
}

void Game::addMagicEffect(const Position& pos, uint8_t effect, bool ghostMode/* = false*/)
{
    if(ghostMode)
        return;

    const SpectatorVec& list = getSpectators(pos);
    addMagicEffect(list, pos, effect);
}

void Game::addMagicEffect(const SpectatorVec& list, const Position& pos, uint8_t effect,
    bool ghostMode/* = false*/)
{
    if(ghostMode)
        return;

    Player* player = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((player = (*it)->getPlayer()))
            player->sendMagicEffect(pos, effect);
    }
}

void Game::addDistanceEffect(const Position& fromPos, const Position& toPos, uint8_t effect)
{
    SpectatorVec list;
    getSpectators(list, fromPos, false);
    getSpectators(list, toPos, true);
    addDistanceEffect(list, fromPos, toPos, effect);
}

void Game::addDistanceEffect(const SpectatorVec& list, const Position& fromPos,
    const Position& toPos, uint8_t effect)
{
    Player* player = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((player = (*it)->getPlayer()))
            player->sendDistanceShoot(fromPos, toPos, effect);
    }
}

void Game::startDecay(Item* item)
{
    if(!item || !item->canDecay() || item->getDecaying() == DECAYING_TRUE)
        return;

    if(item->getDuration() > 0)
    {
        item->addRef();
        item->setDecaying(DECAYING_TRUE);
        toDecayItems.push_back(item);
    }
    else
        internalDecayItem(item);
}

void Game::internalDecayItem(Item* item)
{
    const ItemType& it = Item::items.getItemType(item->getID());
    if(it.decayTo)
    {
        Item* newItem = transformItem(item, it.decayTo);
        startDecay(newItem);
    }
    else
    {
        ReturnValue ret = internalRemoveItem(NULL, item);
        if(ret != RET_NOERROR)
            std::clog << "> DEBUG: internalDecayItem failed, error code: " << (int32_t)ret << ", item id: " << item->getID() << std::endl;
    }
}

void Game::checkDecay()
{
    Scheduler::getInstance().addEvent(createSchedulerTask(EVENT_DECAYINTERVAL,
        boost::bind(&Game::checkDecay, this)));

    size_t bucket = (lastBucket + 1) % EVENT_DECAYBUCKETS;
    for(DecayList::iterator it = decayItems[bucket].begin(); it != decayItems[bucket].end();)
    {
        Item* item = *it;
        int32_t decreaseTime = EVENT_DECAYINTERVAL * EVENT_DECAYBUCKETS;
        if(item->getDuration() - decreaseTime < 0)
            decreaseTime = item->getDuration();

        item->decreaseDuration(decreaseTime);
        if(!item->canDecay())
        {
            item->setDecaying(DECAYING_FALSE);
            freeThing(item);
            it = decayItems[bucket].erase(it);
            continue;
        }

        int32_t dur = item->getDuration();
        if(dur <= 0)
        {
            it = decayItems[bucket].erase(it);
            internalDecayItem(item);
            freeThing(item);
        }
        else if(dur < EVENT_DECAYINTERVAL * EVENT_DECAYBUCKETS)
        {
            it = decayItems[bucket].erase(it);
            size_t newBucket = (bucket + ((dur + EVENT_DECAYINTERVAL / 2) / 1000)) % EVENT_DECAYBUCKETS;
            if(newBucket == bucket)
            {
                internalDecayItem(item);
                freeThing(item);
            }
            else
                decayItems[newBucket].push_back(item);
        }
        else
            ++it;
    }

    lastBucket = bucket;
    cleanup();
}

void Game::checkLight()
{
    Scheduler::getInstance().addEvent(createSchedulerTask(EVENT_LIGHTINTERVAL,
        boost::bind(&Game::checkLight, this)));

    lightHour = lightHour + lightHourDelta;
    if(lightHour > 1440)
        lightHour = lightHour - 1440;

    if(std::abs(lightHour - SUNRISE) < 2 * lightHourDelta)
        lightState = LIGHT_STATE_SUNRISE;
    else if(std::abs(lightHour - SUNSET) < 2 * lightHourDelta)
        lightState = LIGHT_STATE_SUNSET;

    int32_t newLightLevel = lightLevel;
    bool lightChange = false;
    switch(lightState)
    {
        case LIGHT_STATE_SUNRISE:
        {
            newLightLevel += (LIGHT_LEVEL_DAY - LIGHT_LEVEL_NIGHT) / 30;
            lightChange = true;
            break;
        }
        case LIGHT_STATE_SUNSET:
        {
            newLightLevel -= (LIGHT_LEVEL_DAY - LIGHT_LEVEL_NIGHT) / 30;
            lightChange = true;
            break;
        }
        default:
            break;
    }

    if(newLightLevel <= LIGHT_LEVEL_NIGHT)
    {
        lightLevel = LIGHT_LEVEL_NIGHT;
        lightState = LIGHT_STATE_NIGHT;
    }
    else if(newLightLevel >= LIGHT_LEVEL_DAY)
    {
        lightLevel = LIGHT_LEVEL_DAY;
        lightState = LIGHT_STATE_DAY;
    }
    else
        lightLevel = newLightLevel;

    if(lightChange)
    {
        LightInfo lightInfo;
        getWorldLightInfo(lightInfo);
        for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
            it->second->sendWorldLight(lightInfo);
    }
}

void Game::getWorldLightInfo(LightInfo& lightInfo)
{
    lightInfo.level = lightLevel;
    lightInfo.color = 0xD7;
}

bool Game::cancelRuleViolation(Player* player)
{
    RuleViolationsMap::iterator it = ruleViolations.find(player->getID());
    if(it == ruleViolations.end())
        return false;

    Player* gamemaster = it->second->gamemaster;
    if(!it->second->isOpen && gamemaster) //Send to the responser
        gamemaster->sendRuleViolationCancel(player->getName());
    else if(ChatChannel* channel = g_chat.getChannelById(CHANNEL_RVR))
    {
        UsersMap tmpMap = channel->getUsers();
        for(UsersMap::iterator tit = tmpMap.begin(); tit != tmpMap.end(); ++tit)
            tit->second->sendRemoveReport(player->getName());
    }

    //Now erase it
    ruleViolations.erase(it);
    return true;
}

bool Game::closeRuleViolation(Player* player)
{
    RuleViolationsMap::iterator it = ruleViolations.find(player->getID());
    if(it == ruleViolations.end())
        return false;

    ruleViolations.erase(it);
    player->sendLockRuleViolation();
    if(ChatChannel* channel = g_chat.getChannelById(CHANNEL_RVR))
    {
        UsersMap tmpMap = channel->getUsers();
        for(UsersMap::iterator tit = tmpMap.begin(); tit != tmpMap.end(); ++tit)
            tit->second->sendRemoveReport(player->getName());
    }

    return true;
}

void Game::updateCreatureSkull(Creature* creature)
{
    const SpectatorVec& list = getSpectators(creature->getPosition());

    //send to client
    Player* tmpPlayer = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
         if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureSkull(creature);
    }
}

void Game::updateCreatureShield(Creature* creature)
{
    const SpectatorVec& list = getSpectators(creature->getPosition());

    //send to client
    Player* tmpPlayer = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureShield(creature);
    }
}

void Game::updateCreatureEmblem(Creature* creature)
{
    const SpectatorVec& list = getSpectators(creature->getPosition());

    //send to client
    Player* tmpPlayer = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureEmblem(creature);
    }
}

void Game::updateCreatureImpassable(Creature* creature)
{
    const SpectatorVec& list = getSpectators(creature->getPosition());

    //send to client
    Player* tmpPlayer = NULL;
    for(SpectatorVec::const_iterator it = list.begin(); it != list.end(); ++it)
    {
        if((tmpPlayer = (*it)->getPlayer()))
            tmpPlayer->sendCreatureImpassable(creature);
    }
}

bool Game::playerInviteToParty(uint32_t playerId, uint32_t invitedId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Player* invitedPlayer = getPlayerByID(invitedId);
    if(!invitedPlayer || invitedPlayer->isRemoved() || invitedPlayer->isInviting(player))
        return false;

    if(invitedPlayer->getParty())
    {
        char buffer[90];
        sprintf(buffer, "%s is already in a party.", invitedPlayer->getName().c_str());
        player->sendTextMessage(MSG_INFO_DESCR, buffer);
        return false;
    }

    if(invitedPlayer == player)
        return false;

    Party* party = player->getParty();
    if(!party)
        party = new Party(player);
    else if(party->getLeader() != player)
        return false;

    return party->invitePlayer(invitedPlayer);
}

bool Game::playerJoinParty(uint32_t playerId, uint32_t leaderId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Player* leader = getPlayerByID(leaderId);
    if(!leader || leader->isRemoved() || !leader->isInviting(player))
        return false;

    if(!player->getParty())
        return leader->getParty()->join(player);

    player->sendTextMessage(MSG_INFO_DESCR, "You are already in a party.");
    return false;
}

bool Game::playerRevokePartyInvitation(uint32_t playerId, uint32_t invitedId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || !player->getParty() || player->getParty()->getLeader() != player)
        return false;

    Player* invitedPlayer = getPlayerByID(invitedId);
    if(!invitedPlayer || invitedPlayer->isRemoved() || !player->isInviting(invitedPlayer))
        return false;

    player->getParty()->revokeInvitation(invitedPlayer);
    return true;
}

bool Game::playerPassPartyLeadership(uint32_t playerId, uint32_t newLeaderId)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || !player->getParty() || player->getParty()->getLeader() != player)
        return false;

    Player* newLeader = getPlayerByID(newLeaderId);
    if(!newLeader || newLeader->isRemoved() || !newLeader->getParty() || newLeader->getParty() != player->getParty())
        return false;

    return player->getParty()->passLeadership(newLeader);
}

bool Game::playerLeaveParty(uint32_t playerId, bool forced/* = false*/)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved() || !player->getParty() || (player->hasCondition(CONDITION_INFIGHT) && !forced))
        return false;

    return player->getParty()->leave(player);
}

bool Game::playerSharePartyExperience(uint32_t playerId, bool activate, uint8_t)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(!player->getParty() || (!player->hasFlag(PlayerFlag_NotGainInFight)
        && player->hasCondition(CONDITION_INFIGHT)))
        return false;

    return player->getParty()->setSharedExperience(player, activate);
}

bool Game::playerReportBug(uint32_t playerId, std::string comment)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    if(!player->hasFlag(PlayerFlag_CanReportBugs))
        return false;

    CreatureEventList reportBugEvents = player->getCreatureEvents(CREATURE_EVENT_REPORTBUG);
    for(CreatureEventList::iterator it = reportBugEvents.begin(); it != reportBugEvents.end(); ++it)
        (*it)->executeReportBug(player, comment);

    return true;
}

bool Game::playerViolationWindow(uint32_t playerId, std::string name, uint8_t reason, ViolationAction_t action,
    std::string comment, std::string statement, uint32_t statementId, bool ipBanishment)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return false;

    Group* group = player->getGroup();
    if(!group)
        return false;

    std::string::size_type start = comment.find("{"), end = std::string::npos;
    if(start != std::string::npos)
        end = comment.find("}", start + 1);

    time_t length[3] = {0, 0, 0};
    if(end != std::string::npos)
    {
        int32_t i = 0;
        StringVec vec = explodeString(comment.substr(start + 1, end - 1), ",");
        for(StringVec::iterator it = vec.begin(); it != vec.end() && i < 4; ++it, ++i)
        {
            if((*it) == "delete")
            {
                i--;
                action = ACTION_DELETION;
                continue;
            }

            time_t banTime = time(NULL);
            StringVec tec = explodeString((*it), "+");
            for(StringVec::iterator tit = tec.begin(); tit != tec.end(); ++tit)
            {
                std::string tmp = (*tit);
                if(tmp[0] != 's' && tmp[0] != 'm' && tmp[0] != 'h' && tmp[0] != 'd'
                    && tmp[0] != 'w' && tmp[0] != 'o' && tmp[0] != 'y')
                    continue;

                uint32_t count = 1;
                if(tmp.size() > 1)
                {
                    count = atoi(tmp.substr(1).c_str());
                    if(!count)
                        count = 1;
                }

                if(tmp[0] == 's')
                    banTime += count;

                if(tmp[0] == 'm')
                    banTime += count * 60;

                if(tmp[0] == 'h')
                    banTime += count * 3600;

                if(tmp[0] == 'd')
                    banTime += count * 86400;

                if(tmp[0] == 'w')
                    banTime += count * 604800;

                if(tmp[0] == 'o')
                    banTime += count * 2592000;

                if(tmp[0] == 'y')
                    banTime += count * 31536000;

                length[i] = banTime;
            }
        }

        comment = comment.substr(end + 1);
    }

    int16_t nameFlags = group->getNameViolationFlags(), statementFlags = group->getStatementViolationFlags();
    if((ipBanishment && ((nameFlags & IPBAN_FLAG) != IPBAN_FLAG || (statementFlags & IPBAN_FLAG) != IPBAN_FLAG)) ||
        !(nameFlags & (1 << action) || statementFlags & (1 << action)) || reason > group->getViolationReasons())
    {
        player->sendCancel("You do not have authorization for this action.");
        return false;
    }

    uint32_t commentSize = g_config.getNumber(ConfigManager::MAX_VIOLATIONCOMMENT_SIZE);
    if(comment.size() > commentSize)
    {
        char buffer[90];
        sprintf(buffer, "The comment may not exceed limit of %d characters.", commentSize);

        player->sendCancel(buffer);
        return false;
    }

    toLowerCaseString(name);
    Player* target = getPlayerByNameEx(name);
    if(!target || name == "account manager")
    {
        player->sendCancel("A player with this name does not exist.");
        return false;
    }

    if(target->hasFlag(PlayerFlag_CannotBeBanned))
    {
        player->sendCancel("You do not have authorization for this action.");
        return false;
    }

    Account account = IOLoginData::getInstance()->loadAccount(target->getAccount(), true);
    enum KickAction {
        NONE = 1,
        KICK = 2,
        FULL_KICK = 3,
    } kickAction = FULL_KICK;
    switch(action)
    {
        case ACTION_STATEMENT:
        {
            StatementMap::iterator it = g_chat.statementMap.find(statementId);
            if(it == g_chat.statementMap.end())
            {
                player->sendCancel("Statement has been already reported.");
                return false;
            }

            IOBan::getInstance()->addStatement(target->getGUID(), reason, comment,
                player->getGUID(), -1, statement);
            g_chat.statementMap.erase(it);

            kickAction = NONE;
            break;
        }

        case ACTION_NAMEREPORT:
        {
            int64_t banTime = -1;
            PlayerBan_t tmp = (PlayerBan_t)g_config.getNumber(ConfigManager::NAME_REPORT_TYPE);
            if(tmp == PLAYERBAN_BANISHMENT)
            {
                if(!length[0])
                    banTime = time(NULL) + g_config.getNumber(ConfigManager::BAN_LENGTH);
                else
                    banTime = length[0];
            }

            if(!IOBan::getInstance()->addPlayerBanishment(target->getGUID(), banTime, reason, action,
                comment, player->getGUID(), tmp))
            {
                player->sendCancel("Player has been already reported.");
                return false;
            }
            else if(tmp == PLAYERBAN_BANISHMENT)
                account.warnings++;

            kickAction = (KickAction)tmp;
            break;
        }

        case ACTION_NOTATION:
        case ACTION_BANISHMENT:
        case ACTION_BANREPORT:
        {
            if(action == ACTION_NOTATION)
            {
                if(!IOBan::getInstance()->addNotation(account.number, reason,
                    comment, player->getGUID(), target->getGUID()))
                {
                    player->sendCancel("Unable to perform action.");
                    return false;
                }

                if(IOBan::getInstance()->getNotationsCount(account.number) < (uint32_t)
                    g_config.getNumber(ConfigManager::NOTATIONS_TO_BAN))
                {
                    kickAction = NONE;
                    break;
                }

                action = ACTION_BANISHMENT;
            }

            bool deny = action != ACTION_BANREPORT;
            int64_t banTime = -1;

            account.warnings++;
            if(account.warnings >= g_config.getNumber(ConfigManager::WARNINGS_TO_DELETION))
                action = ACTION_DELETION;
            else if(length[0])
                banTime = length[0];
            else if(account.warnings >= g_config.getNumber(ConfigManager::WARNINGS_TO_FINALBAN))
                banTime = time(NULL) + g_config.getNumber(ConfigManager::FINALBAN_LENGTH);
            else
                banTime = time(NULL) + g_config.getNumber(ConfigManager::BAN_LENGTH);

            if(!IOBan::getInstance()->addAccountBanishment(account.number, banTime, reason, action,
                comment, player->getGUID(), target->getGUID()))
            {
                account.warnings--;
                player->sendCancel("Account is already banned.");
                return false;
            }

            if(deny)
                break;

            banTime = -1;
            PlayerBan_t tmp = (PlayerBan_t)g_config.getNumber(ConfigManager::NAME_REPORT_TYPE);
            if(tmp == PLAYERBAN_BANISHMENT)
            {
                if(!length[1])
                    banTime = time(NULL) + g_config.getNumber(ConfigManager::FINALBAN_LENGTH);
                else
                    banTime = length[1];
            }

            IOBan::getInstance()->addPlayerBanishment(target->getGUID(), banTime, reason, action, comment,
                player->getGUID(), tmp);
            break;
        }

        case ACTION_BANFINAL:
        case ACTION_BANREPORTFINAL:
        {
            bool allow = action == ACTION_BANREPORTFINAL;
            int64_t banTime = -1;

            account.warnings++;
            if(account.warnings >= g_config.getNumber(ConfigManager::WARNINGS_TO_DELETION))
                action = ACTION_DELETION;
            else if(length[0])
                banTime = length[0];
            else
                banTime = time(NULL) + g_config.getNumber(ConfigManager::FINALBAN_LENGTH);

            if(!IOBan::getInstance()->addAccountBanishment(account.number, banTime, reason, action,
                comment, player->getGUID(), target->getGUID()))
            {
                account.warnings--;
                player->sendCancel("Account is already banned.");
                return false;
            }

            if(action != ACTION_DELETION)
                account.warnings += (g_config.getNumber(ConfigManager::WARNINGS_TO_FINALBAN) - 1);

            if(allow)
                IOBan::getInstance()->addPlayerBanishment(target->getGUID(), -1, reason, action, comment,
                    player->getGUID(), (PlayerBan_t)g_config.getNumber(
                    ConfigManager::NAME_REPORT_TYPE));

            break;
        }

        case ACTION_DELETION:
        {
            //completely internal
            account.warnings++;
            if(!IOBan::getInstance()->addAccountBanishment(account.number, -1, reason, ACTION_DELETION,
                comment, player->getGUID(), target->getGUID()))
            {
                account.warnings--;
                player->sendCancel("Account is currently banned or already deleted.");
                return false;
            }

            break;
        }

        default:
            // these just shouldn't occur in rvw
            return false;
    }

    if(ipBanishment && target->getIP())
    {
        if(!length[2])
            length[2] = time(NULL) + g_config.getNumber(ConfigManager::IPBANISHMENT_LENGTH);

        IOBan::getInstance()->addIpBanishment(target->getIP(), length[2], reason, comment, player->getGUID(), 0xFFFFFFFF);
    }

    if(kickAction == FULL_KICK)
        IOBan::getInstance()->removeNotations(account.number);

    std::stringstream ss;
    if(g_config.getBool(ConfigManager::BROADCAST_BANISHMENTS))
        ss << player->getName() << " has";
    else
        ss << "You have";

    ss << " taken the action \"" << getAction(action, ipBanishment) << "\"";
    switch(action)
    {
        case ACTION_NOTATION:
        {
            ss << " (" << (g_config.getNumber(ConfigManager::NOTATIONS_TO_BAN) - IOBan::getInstance()->getNotationsCount(
                account.number)) << " left to banishment)";
            break;
        }
        case ACTION_STATEMENT:
        {
            ss << " for the statement: \"" << statement << "\"";
            break;
        }
        default:
            break;
    }

    ss << " against: " << name << " (Warnings: " << account.warnings << "), with reason: \"" << getReason(
        reason) << "\", and comment: \"" << comment << "\".";
    if(g_config.getBool(ConfigManager::BROADCAST_BANISHMENTS))
        broadcastMessage(ss.str(), MSG_STATUS_WARNING);
    else
        player->sendTextMessage(MSG_STATUS_CONSOLE_RED, ss.str());

    if(target->isVirtual())
    {
        delete target;
        target = NULL;
    }
    else if(kickAction > NONE)
    {
        char buffer[30];
        sprintf(buffer, "You have been %s.", (kickAction > KICK ? "banished" : "namelocked"));
        target->sendTextMessage(MSG_INFO_DESCR, buffer);

        addMagicEffect(target->getPosition(), MAGIC_EFFECT_WRAPS_GREEN);
        Scheduler::getInstance().addEvent(createSchedulerTask(1000, boost::bind(
            &Game::kickPlayer, this, target->getID(), false)));
    }

    IOLoginData::getInstance()->saveAccount(account);
    return true;
}

void Game::kickPlayer(uint32_t playerId, bool displayEffect)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return;

    player->kickPlayer(displayEffect, true);
}

bool Game::broadcastMessage(const std::string& text, MessageClasses type)
{
    if(type < MSG_CLASS_FIRST || type > MSG_CLASS_LAST)
        return false;

    std::clog << "> Broadcasted message: \"" << text << "\"." << std::endl;
    for(AutoList<Player>::iterator it = Player::autoList.begin(); it != Player::autoList.end(); ++it)
        it->second->sendTextMessage(type, text);

    return true;
}

Position Game::getClosestFreeTile(Creature* creature, Position pos, bool extended/* = false*/, bool ignoreHouse/* = true*/)
{
    PairVector relList;
    relList.push_back(PositionPair(0, 0));
    relList.push_back(PositionPair(-1, -1));
    relList.push_back(PositionPair(-1, 0));
    relList.push_back(PositionPair(-1, 1));
    relList.push_back(PositionPair(0, -1));
    relList.push_back(PositionPair(0, 1));
    relList.push_back(PositionPair(1, -1));
    relList.push_back(PositionPair(1, 0));
    relList.push_back(PositionPair(1, 1));

    if(extended)
    {
        relList.push_back(PositionPair(-2, 0));
        relList.push_back(PositionPair(0, -2));
        relList.push_back(PositionPair(0, 2));
        relList.push_back(PositionPair(2, 0));
    }

    std::random_shuffle(relList.begin() + 1, relList.end());
    if(Player* player = creature->getPlayer())
    {
        for(PairVector::iterator it = relList.begin(); it != relList.end(); ++it)
        {
            Tile* tile = map->getTile(Position((pos.x + it->first), (pos.y + it->second), pos.z));
            if(!tile || !tile->ground)
                continue;

            ReturnValue ret = tile->__queryAdd(0, player, 1, FLAG_IGNOREBLOCKITEM);
            if(ret == RET_NOTENOUGHROOM || (ret == RET_NOTPOSSIBLE && !player->hasCustomFlag(PlayerCustomFlag_CanMoveAnywhere))
                || (ret == RET_PLAYERISNOTINVITED && !ignoreHouse && !player->hasFlag(PlayerFlag_CanEditHouses)))
                continue;

            return tile->getPosition();
        }
    }
    else
    {
        for(PairVector::iterator it = relList.begin(); it != relList.end(); ++it)
        {
            Tile* tile = NULL;
            if((tile = map->getTile(Position((pos.x + it->first), (pos.y + it->second), pos.z)))
                && tile->__queryAdd(0, creature, 1, FLAG_IGNOREBLOCKITEM) == RET_NOERROR)
                return tile->getPosition();
        }
    }

    return Position(0, 0, 0);
}

std::string Game::getSearchString(const Position& fromPos, const Position& toPos, bool fromIsCreature/* = false*/, bool toIsCreature/* = false*/)
{
    /*
     * When the position is on same level and 0 to 4 squares away, they are "[toIsCreature: standing] next to you"
     * When the position is on same level and 5 to 100 squares away they are "to the north/west/south/east."
     * When the position is on any level and 101 to 274 squares away they are "far to the north/west/south/east."
     * When the position is on any level and 275+ squares away they are "very far to the north/west/south/east."
     * When the position is not directly north/west/south/east of you they are "((very) far) to the north-west/south-west/south-east/north-east."
     * When the position is on a lower or higher level and 5 to 100 squares away they are "on a lower (or) higher level to the north/west/south/east."
     * When the position is on a lower or higher level and 0 to 4 squares away they are "below (or) above you."
     */

    enum distance_t
    {
        DISTANCE_BESIDE,
        DISTANCE_CLOSE,
        DISTANCE_FAR,
        DISTANCE_VERYFAR
    };

    enum direction_t
    {
        DIR_N, DIR_S, DIR_E, DIR_W,
        DIR_NE, DIR_NW, DIR_SE, DIR_SW
    };

    enum level_t
    {
        LEVEL_HIGHER,
        LEVEL_LOWER,
        LEVEL_SAME
    };

    distance_t distance;
    direction_t direction;
    level_t level;

    int32_t dx = fromPos.x - toPos.x, dy = fromPos.y - toPos.y, dz = fromPos.z - toPos.z;
    if(dz > 0)
        level = LEVEL_HIGHER;
    else if(dz < 0)
        level = LEVEL_LOWER;
    else
        level = LEVEL_SAME;

    if(std::abs(dx) < 5 && std::abs(dy) < 5)
        distance = DISTANCE_BESIDE;
    else
    {
        int32_t tmp = dx * dx + dy * dy;
        if(tmp < 10000)
            distance = DISTANCE_CLOSE;
        else if(tmp < 75625)
            distance = DISTANCE_FAR;
        else
            distance = DISTANCE_VERYFAR;
    }

    float tan;
    if(dx != 0)
        tan = (float)dy / (float)dx;
    else
        tan = 10.;

    if(std::abs(tan) < 0.4142)
    {
        if(dx > 0)
            direction = DIR_W;
        else
            direction = DIR_E;
    }
    else if(std::abs(tan) < 2.4142)
    {
        if(tan > 0)
        {
            if(dy > 0)
                direction = DIR_NW;
            else
                direction = DIR_SE;
        }
        else
        {
            if(dx > 0)
                direction = DIR_SW;
            else
                direction = DIR_NE;
        }
    }
    else
    {
        if(dy > 0)
            direction = DIR_N;
        else
            direction = DIR_S;
    }

    std::stringstream ss;
    switch(distance)
    {
        case DISTANCE_BESIDE:
        {
            switch(level)
            {
                case LEVEL_SAME:
                {
                    ss << "is ";
                    if(toIsCreature)
                        ss << "standing ";

                    ss << "next to you";
                    break;
                }

                case LEVEL_HIGHER:
                {
                    ss << "is above ";
                    if(fromIsCreature)
                        ss << "you";

                    break;
                }

                case LEVEL_LOWER:
                {
                    ss << "is below ";
                    if(fromIsCreature)
                        ss << "you";

                    break;
                }

                default:
                    break;
            }

            break;
        }

        case DISTANCE_CLOSE:
        {
            switch(level)
            {
                case LEVEL_SAME:
                    ss << "is to the";
                    break;
                case LEVEL_HIGHER:
                    ss << "is on a higher level to the";
                    break;
                case LEVEL_LOWER:
                    ss << "is on a lower level to the";
                    break;
                default:
                    break;
            }

            break;
        }

        case DISTANCE_FAR:
            ss << "is far to the";
            break;

        case DISTANCE_VERYFAR:
            ss << "is very far to the";
            break;

        default:
            break;
    }

    if(distance != DISTANCE_BESIDE)
    {
        ss << " ";
        switch(direction)
        {
            case DIR_N:
                ss << "north";
                break;

            case DIR_S:
                ss << "south";
                break;

            case DIR_E:
                ss << "east";
                break;

            case DIR_W:
                ss << "west";
                break;

            case DIR_NE:
                ss << "north-east";
                break;

            case DIR_NW:
                ss << "north-west";
                break;

            case DIR_SE:
                ss << "south-east";
                break;

            case DIR_SW:
                ss << "south-west";
                break;

            default:
                break;
        }
    }

    return ss.str();
}

double Game::getExperienceStage(uint32_t level, double divider/* = 1.*/)
{
    if(!g_config.getBool(ConfigManager::EXPERIENCE_STAGES))
        return g_config.getDouble(ConfigManager::RATE_EXPERIENCE) * divider;

    if(lastStageLevel && level >= lastStageLevel)
        return stages[lastStageLevel] * divider;

    return stages[level] * divider;
}

bool Game::loadExperienceStages()
{
    if(!g_config.getBool(ConfigManager::EXPERIENCE_STAGES))
        return true;

    xmlDocPtr doc = xmlParseFile(getFilePath(FILE_TYPE_XML, "stages.xml").c_str());
    if(!doc)
    {
        std::clog << "[Warning - Game::loadExperienceStages] Cannot load stages file." << std::endl;
        std::clog << getLastXMLError() << std::endl;
        return false;
    }

    xmlNodePtr q, p, root = xmlDocGetRootElement(doc);
    if(xmlStrcmp(root->name, (const xmlChar*)"stages"))
    {
        std::clog << "[Error - Game::loadExperienceStages] Malformed stages file" << std::endl;
        xmlFreeDoc(doc);
        return false;
    }

    int32_t intValue, low = 0, high = 0;
    float floatValue, mul = 1.0f, defStageMultiplier;
    std::string strValue;

    lastStageLevel = 0;
    stages.clear();

    q = root->children;
    while(q)
    {
        if(!xmlStrcmp(q->name, (const xmlChar*)"world"))
        {
            if(readXMLString(q, "id", strValue))
            {
                IntegerVec intVector;
                if(!parseIntegerVec(strValue, intVector) || std::find(intVector.begin(),
                    intVector.end(), g_config.getNumber(ConfigManager::WORLD_ID)) == intVector.end())
                {
                    q = q->next;
                    continue;
                }
            }

            defStageMultiplier = 1.0f;
            if(readXMLFloat(q, "multiplier", floatValue))
                defStageMultiplier = floatValue;

            p = q->children;
            while(p)
            {
                if(!xmlStrcmp(p->name, (const xmlChar*)"stage"))
                {
                    low = 1;
                    if(readXMLInteger(p, "minlevel", intValue) || readXMLInteger(p, "minLevel", intValue))
                        low = intValue;

                    high = 0;
                    if(readXMLInteger(p, "maxlevel", intValue) || readXMLInteger(p, "maxLevel", intValue))
                        high = intValue;
                    else
                        lastStageLevel = low;

                    mul = 1.0f;
                    if(readXMLFloat(p, "multiplier", floatValue))
                        mul = floatValue;

                    mul *= defStageMultiplier;
                    if(lastStageLevel && lastStageLevel == (uint32_t)low)
                        stages[lastStageLevel] = mul;
                    else
                    {
                        for(int32_t i = low; i <= high; i++)
                            stages[i] = mul;
                    }
                }

                p = p->next;
            }
        }

        if(!xmlStrcmp(q->name, (const xmlChar*)"stage"))
        {
            low = 1;
            if(readXMLInteger(q, "minlevel", intValue))
                low = intValue;
            else

            high = 0;
            if(readXMLInteger(q, "maxlevel", intValue))
                high = intValue;
            else
                lastStageLevel = low;

            mul = 1.0f;
            if(readXMLFloat(q, "multiplier", floatValue))
                mul = floatValue;

            if(lastStageLevel && lastStageLevel == (uint32_t)low)
                stages[lastStageLevel] = mul;
            else
            {
                for(int32_t i = low; i <= high; i++)
                    stages[i] = mul;
            }
        }

        q = q->next;
    }

    xmlFreeDoc(doc);
    return true;
}

bool Game::reloadHighscores()
{
    lastHighscoreCheck = time(NULL);
    for(int16_t i = 0; i < 9; ++i)
        highscoreStorage[i] = getHighscore(i);

    return true;
}

void Game::checkHighscores()
{
    reloadHighscores();
    uint32_t tmp = g_config.getNumber(ConfigManager::HIGHSCORES_UPDATETIME) * 60 * 1000;
    if(tmp <= 0)
        return;

    Scheduler::getInstance().addEvent(createSchedulerTask(tmp, boost::bind(&Game::checkHighscores, this)));
}

std::string Game::getHighscoreString(uint16_t skill)
{
    Highscore hs = highscoreStorage[skill];
    std::stringstream ss;
    ss << "Highscore for " << getSkillName(skill) << "\n\nRank Level - Player Name";
    for(uint32_t i = 0; i < hs.size(); i++)
        ss << "\n" << (i + 1) << ".  " << hs[i].second << "  -  " << hs[i].first;

    ss << "\n\nLast updated on:\n" << std::ctime(&lastHighscoreCheck);
    return ss.str();
}

Highscore Game::getHighscore(uint16_t skill)
{
    Highscore hs;

    Database* db = Database::getInstance();
    DBResult* result;

    DBQuery query;
    if(skill >= SKILL__MAGLEVEL)
    {
        if(skill == SKILL__MAGLEVEL)
            query << "SELECT `maglevel`, `name` FROM `players` ORDER BY `maglevel` DESC, `manaspent` DESC LIMIT " << g_config.getNumber(ConfigManager::HIGHSCORES_TOP);
        else
            query << "SELECT `level`, `name` FROM `players` ORDER BY `level` DESC, `experience` DESC LIMIT " << g_config.getNumber(ConfigManager::HIGHSCORES_TOP);

        if(!(result = db->storeQuery(query.str())))
            return hs;

        do
        {
            uint32_t level;
            if(skill == SKILL__MAGLEVEL)
                level = result->getDataInt("maglevel");
            else
                level = result->getDataInt("level");

            std::string name = result->getDataString("name");
            if(name.length() > 0)
                hs.push_back(std::make_pair(name, level));
        }
        while(result->next());
        result->free();
    }
    else
    {
        query << "SELECT `player_skills`.`value`, `players`.`name` FROM `player_skills`,`players` WHERE `player_skills`.`skillid`=" << skill << " AND `player_skills`.`player_id`=`players`.`id` ORDER BY `player_skills`.`value` DESC, `player_skills`.`count` DESC LIMIT " << g_config.getNumber(ConfigManager::HIGHSCORES_TOP);
        if(!(result = db->storeQuery(query.str())))
            return hs;

        do
        {
            std::string name = result->getDataString("name");
            if(name.length() > 0)
                hs.push_back(std::make_pair(name, result->getDataInt("value")));
        }
        while(result->next());
        result->free();
    }

    return hs;
}

int32_t Game::getMotdId()
{
    if(lastMotd == g_config.getString(ConfigManager::MOTD))
        return lastMotdId;

    lastMotd = g_config.getString(ConfigManager::MOTD);
    Database* db = Database::getInstance();

    DBQuery query;
    query << "INSERT INTO `server_motd` (`id`, `world_id`, `text`) VALUES (" << ++lastMotdId << ", " << g_config.getNumber(ConfigManager::WORLD_ID) << ", " << db->escapeString(lastMotd) << ")";
    if(db->query(query.str()))
        return lastMotdId;

    return --lastMotdId;
}

void Game::loadMotd()
{
    Database* db = Database::getInstance();
    DBQuery query;
    query << "SELECT `id`, `text` FROM `server_motd` WHERE `world_id` = " << g_config.getNumber(ConfigManager::WORLD_ID) << " ORDER BY `id` DESC LIMIT 1";

    DBResult* result;
    if(!(result = db->storeQuery(query.str())))
    {
        std::clog << "> ERROR: Failed to load motd!" << std::endl;
        lastMotdId = random_range(5, 500);
        return;
    }

    lastMotdId = result->getDataInt("id");
    lastMotd = result->getDataString("text");
    result->free();
}

void Game::checkPlayersRecord(Player* player)
{
    uint32_t count = getPlayersOnline();
    if(count <= playersRecord)
        return;

    GlobalEventMap recordEvents = g_globalEvents->getEventMap(GLOBALEVENT_RECORD);
    for(GlobalEventMap::iterator it = recordEvents.begin(); it != recordEvents.end(); ++it)
        it->second->executeRecord(count, playersRecord, player);

    playersRecord = count;
}

void Game::loadPlayersRecord()
{
    Database* db = Database::getInstance();
    DBQuery query;
    query << "SELECT `record` FROM `server_record` WHERE `world_id` = " << g_config.getNumber(ConfigManager::WORLD_ID) << " ORDER BY `timestamp` DESC LIMIT 1";

    DBResult* result;
    if(!(result = db->storeQuery(query.str())))
    {
        std::clog << "> ERROR: Failed to load players record!" << std::endl;
        return;
    }

    playersRecord = result->getDataInt("record");
    result->free();
}

bool Game::reloadInfo(ReloadInfo_t reload, uint32_t playerId/* = 0*/)
{
    bool done = false;
    switch(reload)
    {
        case RELOAD_ACTIONS:
        {
            if(g_actions->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload actions." << std::endl;

            break;
        }

        case RELOAD_CHAT:
        {
            if(g_chat.reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload chat." << std::endl;

            break;
        }

        case RELOAD_CONFIG:
        {
            if(g_config.reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload config." << std::endl;

            break;
        }

        case RELOAD_CREATUREEVENTS:
        {
            if(g_creatureEvents->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload creature events." << std::endl;

            break;
        }

        case RELOAD_GAMESERVERS:
        {
            #ifdef __LOGIN_SERVER__
            if(GameServers::getInstance()->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload game servers." << std::endl;

            #endif
            break;
        }

        case RELOAD_GLOBALEVENTS:
        {
            if(g_globalEvents->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload global events." << std::endl;

            break;
        }

        case RELOAD_GROUPS:
        {
            /*if(Groups::getInstance()->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload groups." << std::endl;*/

            break;
        }

        case RELOAD_HIGHSCORES:
        {
            if(reloadHighscores())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload highscores." << std::endl;

            break;
        }

        case RELOAD_ITEMS:
        {
            //TODO
            std::clog << "[Notice - Game::reloadInfo] Reload type does not work." << std::endl;
            done = true;
            break;
        }

        case RELOAD_MODS:
        {
            if(ScriptManager::getInstance()->reloadMods())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload mods." << std::endl;

            break;
        }

        case RELOAD_MONSTERS:
        {
            if(g_monsters.reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload monsters." << std::endl;

            break;
        }

        case RELOAD_MOVEEVENTS:
        {
            if(g_moveEvents->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload move events." << std::endl;

            break;
        }

        case RELOAD_NPCS:
        {
            g_npcs.reload();
            done = true;
            break;
        }

        case RELOAD_OUTFITS:
        {
            //TODO
            std::clog << "[Notice - Game::reloadInfo] Reload type does not work." << std::endl;
            done = true;
            break;
        }

        case RELOAD_QUESTS:
        {
            if(Quests::getInstance()->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload quests." << std::endl;

            break;
        }

        case RELOAD_RAIDS:
        {
            if(!Raids::getInstance()->reload())
                std::clog << "[Error - Game::reloadInfo] Failed to reload raids." << std::endl;
            else if(!Raids::getInstance()->startup())
                std::clog << "[Error - Game::reloadInfo] Failed to startup raids when reloading." << std::endl;
            else
                done = true;

            break;
        }

        case RELOAD_SPELLS:
        {
            if(!g_spells->reload())
                std::clog << "[Error - Game::reloadInfo] Failed to reload spells." << std::endl;
            else if(!g_monsters.reload())
                std::clog << "[Error - Game::reloadInfo] Failed to reload monsters when reloading spells." << std::endl;
            else
                done = true;

            break;
        }

        case RELOAD_STAGES:
        {
            if(loadExperienceStages())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload stages." << std::endl;

            break;
        }

        case RELOAD_TALKACTIONS:
        {
            if(g_talkActions->reload())
                done = true;
            else
                std::clog << "[Error - Game::reloadInfo] Failed to reload talk actions." << std::endl;

            break;
        }

        case RELOAD_VOCATIONS:
        {
            if(Vocations::getInstance()->reload())
                done = true;
            else
                std::clog << "[Notice - Game::reloadInfo] Reload type does not work." << std::endl;

            break;
        }

        case RELOAD_WEAPONS:
        {
            //TODO
            std::clog << "[Notice - Game::reloadInfo] Reload type does not work." << std::endl;
            done = true;
            break;
        }

        case RELOAD_ALL:
        {
            done = true;
            for(int32_t i = RELOAD_FIRST; i <= RELOAD_LAST; i++)
            {
                if(!reloadInfo((ReloadInfo_t)i) && done)
                    done = false;
            }

            break;
        }

        default:
        {
            std::clog << "[Warning - Game::reloadInfo] Reload type not found." << std::endl;
            break;
        }
    }

    if(reload != RELOAD_MODS && !ScriptManager::getInstance()->reloadMods())
        std::clog << "[Error - Game::reloadInfo] Failed to reload mods." << std::endl;

    if(!playerId)
        return done;

    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return done;

    if(done)
    {
        player->sendTextMessage(MSG_STATUS_CONSOLE_BLUE, "Reloaded successfully.");
        return true;
    }

    if(reload == RELOAD_ALL)
        player->sendTextMessage(MSG_STATUS_CONSOLE_BLUE, "Failed to reload some parts.");
    else
        player->sendTextMessage(MSG_STATUS_CONSOLE_BLUE, "Failed to reload.");

    return false;
}

void Game::prepareGlobalSave()
{
    if(!globalSaveMessage[0])
    {
        setGameState(GAMESTATE_CLOSING);
        globalSaveMessage[0] = true;

        broadcastMessage("Server is going down for a global save within 5 minutes. Please logout.", MSG_STATUS_WARNING);
        Scheduler::getInstance().addEvent(createSchedulerTask(120000, boost::bind(&Game::prepareGlobalSave, this)));
    }
    else if(!globalSaveMessage[1])
    {
        globalSaveMessage[1] = true;
        broadcastMessage("Server is going down for a global save within 3 minutes. Please logout.", MSG_STATUS_WARNING);
        Scheduler::getInstance().addEvent(createSchedulerTask(120000, boost::bind(&Game::prepareGlobalSave, this)));
    }
    else if(!globalSaveMessage[2])
    {
        globalSaveMessage[2] = true;
        broadcastMessage("Server is going down for a global save in one minute, please logout!", MSG_STATUS_WARNING);
        Scheduler::getInstance().addEvent(createSchedulerTask(60000, boost::bind(&Game::prepareGlobalSave, this)));
    }
    else
        globalSave();
}

void Game::globalSave()
{
    bool close = g_config.getBool(ConfigManager::SHUTDOWN_AT_GLOBALSAVE);
    if(close) // check are we're going to close the server
        setGameState(GAMESTATE_CLOSING);

    // call the global event
    g_globalEvents->execute(GLOBALEVENT_GLOBALSAVE);
    if(close)
    {
        //shutdown server
        Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::setGameState, this, GAMESTATE_SHUTDOWN)));
        return;
    }

    //close server
    Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::setGameState, this, GAMESTATE_CLOSED)));
    //clean map if configured to
    if(g_config.getBool(ConfigManager::CLEAN_MAP_AT_GLOBALSAVE))
        cleanMap();

    //pay houses
    Houses::getInstance()->payHouses();
    //clear temporial and expired bans
    IOBan::getInstance()->clearTemporials();
    //remove premium days globally if configured to
    if(g_config.getBool(ConfigManager::INIT_PREMIUM_UPDATE))
        IOLoginData::getInstance()->updatePremiumDays();

    //reload everything
    reloadInfo(RELOAD_ALL);
    //reset variables
    for(int16_t i = 0; i < 3; i++)
        setGlobalSaveMessage(i, false);

    //prepare for next global save after 24 hours
    Scheduler::getInstance().addEvent(createSchedulerTask(86100000, boost::bind(&Game::prepareGlobalSave, this)));
    //open server
    Dispatcher::getInstance().addTask(createTask(boost::bind(&Game::setGameState, this, GAMESTATE_NORMAL)));
}

void Game::shutdown()
{
    std::clog << "Preparing";
    Scheduler::getInstance().shutdown();
    std::clog << " to";
    Dispatcher::getInstance().shutdown();
    std::clog << " shutdown";
    Spawns::getInstance()->clear();
    std::clog << " the";
    Raids::getInstance()->clear();
    std::clog << " server";
    cleanup();
    std::clog << "- done." << std::endl;
    if(services)
        services->stop();
#ifndef __DONT_FORCE_SHUTDOWN__

    exit(-1);
#endif
}

void Game::cleanup()
{
    //free memory
    for(std::vector<Thing*>::iterator it = releaseThings.begin(); it != releaseThings.end(); ++it)
        (*it)->unRef();

    releaseThings.clear();
    for(DecayList::iterator it = toDecayItems.begin(); it != toDecayItems.end(); ++it)
    {
        int32_t dur = (*it)->getDuration();
        if(dur >= EVENT_DECAYINTERVAL * EVENT_DECAYBUCKETS)
            decayItems[lastBucket].push_back(*it);
        else
            decayItems[(lastBucket + 1 + (*it)->getDuration() / 1000) % EVENT_DECAYBUCKETS].push_back(*it);
    }

    toDecayItems.clear();
}

void Game::freeThing(Thing* thing)
{
    releaseThings.push_back(thing);
}

void Game::showHotkeyUseMessage(Player* player, Item* item)
{
    const ItemType& it = Item::items[item->getID()];
    uint32_t count = player->__getItemTypeCount(item->getID(), item->isFluidContainer() ? item->getFluidType() : -1);

    std::stringstream ss;
    if(count == 1)
        ss << "Voce Usou a(o) " << it.name.c_str() << "...";
    else
        ss << "Using one of " << count << " " << it.pluralName.c_str() << "...";

    player->sendTextMessage(MSG_INFO_DESCR, ss.str());
}

void Game::playerExtendedOpcode(uint32_t playerId, uint8_t opcode, const std::string& buffer)
{
    Player* player = getPlayerByID(playerId);
    if(!player || player->isRemoved())
        return;

    CreatureEventList extendedOpcodeEvents = player->getCreatureEvents(CREATURE_EVENT_EXTENDED_OPCODE);
    for(CreatureEventList::iterator it = extendedOpcodeEvents.begin(); it != extendedOpcodeEvents.end(); ++it)
        (*it)->executeExtendedOpcode(player, opcode, buffer);
}
 

Link para o post
Compartilhar em outros sites

Participe da conversa

Você pode postar agora e se cadastrar mais tarde. Se você tem uma conta, faça o login para postar com sua conta.

Visitante
Responder

×   Você colou conteúdo com formatação.   Remover formatação

  Apenas 75 emojis são permitidos.

×   Seu link foi automaticamente incorporado.   Mostrar como link

×   Seu conteúdo anterior foi restaurado.   Limpar o editor

×   Não é possível colar imagens diretamente. Carregar ou inserir imagens do URL.

  • Quem Está Navegando   0 membros estão online

    Nenhum usuário registrado visualizando esta página.


  • Conteúdo Similar

    • Por braianlomas
      Como faço para corrigir esse problema para meu cliente, eu uso o tfs 0.3.6  
      Quero resolver esse problema que tenho no meu cliente, como e onde posso resolver?  
      Eu uso o tfs 0.3.6, não tenho as fontes do cliente, se você puder me dar eu vou amá-las para sempre  
       

       
    • Por A.Mokk
      Ola pessoal, estou tentando compilar o TFS 1.5 Downgrade para 8.60 atraves do MSVC 2022, ao tentar compilar da o seguinte erro:
       
       
      Fiz o download do MSVC, GitDash, TFS-SDK-3.2, e de varios boosts que tentei, ao fazer o seguinte procedimento no GitDash:
       
      Ao chegar em ./bootstrap-vcpkg.bat o GitDash nao consegue realizar o procedimento corretamente, alguem poderia me ajudar ?

      Tentei de diversas formas mas o mesmo erro sempre persiste, atualmente meu servidor utiliza TFS 0.4, consigo compilar sem nenhum problema no MSVC 2010, porem, as limitações do TFS 0.4 estão me fazendo precisar atualizar, se alguem souber como corrigir esses erros eu agradeço !

      Tutoriais utilizados :
      Compiling on Windows (vcpkg) · otland/forgottenserver Wiki · GitHub
      Compiling on Windows · otland/forgottenserver Wiki · GitHub
      Compilando TFS 1.3 com vídeo-aula - Tutoriais Infraestrutura & Proteção - Tibia King - Tudo sobre Tibia, OTServ e Bots!
      Compilar TFS 1.3 Vcpkg - Tutoriais Infraestrutura & Proteção - Tibia King - Tudo sobre Tibia, OTServ e Bots!
       
      O que acontece no Powershell:
       
    • Por thunmin
      .Qual servidor ou website você utiliza como base? 
      Canary 2.3.6
      Qual o motivo deste tópico? 
      Queria fazer com que os players não pudessem mexer no aleta sio, pois, agora os mesmos estão conseguindo mexer nos itens
      Está surgindo algum erro? Se sim coloque-o aqui. 
       
      Você tem o código disponível? Se tiver publique-o aqui: 
         
      Você tem alguma imagem que possa auxiliar no problema? Se sim, coloque-a aqui. 
       
    • Por thunmin
      .Qual servidor ou website você utiliza como base? 
      canary para o cliente 13.16
      Qual o motivo deste tópico? 
      Não consigo encontrar onde ajusta
      to com o problema no 13.16  o exausted, por exemplo os kinas era pra combar exori, erori gran e exori min, porém não ta indo ta dando exausted o char ta soltando magia ou runa e não consegue usar as potions
      Está surgindo algum erro? Se sim coloque-o aqui. 
       
      Você tem o código disponível? Se tiver publique-o aqui: 
         
      Você tem alguma imagem que possa auxiliar no problema? Se sim, coloque-a aqui. 
       
    • Por Andersontatuador
      Olá galera da TK, me chamo Anderson estou procurando alguém profissional em otservs e site.
      Já tenho um servidor o site e o cliente preciso só de uma pessoal competente, que esteja empenhado a trabalhar,
      não quero nada de graça, pois nessa onda fui mais roubado do quer eu pagar um profissional.
      caso alguém se interesse entrar em contato comigo através do whatsapp
      82 9 9304-9462
       
      Está surgindo algum erro? Se sim coloque-o aqui. 
       
      Você tem o código disponível? Se tiver publique-o aqui: 
         
      Você tem alguma imagem que possa auxiliar no problema? Se sim, coloque-a aqui. 
       
×
×
  • Criar Novo...

Informação Importante

Confirmação de Termo