/*
* Copyright (C) 2008-2012 TrinityCore
* Copyright (C) 2005-2009 MaNGOS
*
* 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 2 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 .
*/
#include "MapManager.h"
#include "InstanceSaveMgr.h"
#include "DatabaseEnv.h"
#include "Log.h"
#include "ObjectAccessor.h"
#include "Transport.h"
#include "GridDefines.h"
#include "MapInstanced.h"
#include "InstanceScript.h"
#include "Config.h"
#include "World.h"
#include "CellImpl.h"
#include "Corpse.h"
#include "ObjectMgr.h"
#include "Language.h"
#include "WorldPacket.h"
#include "Group.h"
#include "Player.h"
#include "WorldSession.h"
#include "Opcodes.h"
extern GridState* si_GridStates[]; // debugging code, should be deleted some day
MapManager::MapManager()
{
i_gridCleanUpDelay = sWorld->getIntConfig(CONFIG_INTERVAL_GRIDCLEAN);
i_timer.SetInterval(sWorld->getIntConfig(CONFIG_INTERVAL_MAPUPDATE));
}
MapManager::~MapManager()
{
}
void MapManager::Initialize()
{
Map::InitStateMachine();
// debugging code, should be deleted some day
{
for (uint8 i = 0; i < MAX_GRID_STATE; ++i)
i_GridStates[i] = si_GridStates[i];
i_GridStateErrorCount = 0;
}
int num_threads(sWorld->getIntConfig(CONFIG_NUMTHREADS));
// Start mtmaps if needed.
if (num_threads > 0 && m_updater.activate(num_threads) == -1)
abort();
}
void MapManager::InitializeVisibilityDistanceInfo()
{
for (MapMapType::iterator iter=i_maps.begin(); iter != i_maps.end(); ++iter)
(*iter).second->InitVisibilityDistance();
}
// debugging code, should be deleted some day
void MapManager::checkAndCorrectGridStatesArray()
{
bool ok = true;
for (int i=0; ioutError(LOG_FILTER_MAPS, "MapManager::checkGridStates(), GridState: si_GridStates is currupt !!!");
ok = false;
si_GridStates[i] = i_GridStates[i];
}
#ifdef TRINITY_DEBUG
// inner class checking only when compiled with debug
if (!si_GridStates[i]->checkMagic())
{
ok = false;
si_GridStates[i]->setMagic();
}
#endif
}
if (!ok)
++i_GridStateErrorCount;
}
Map* MapManager::CreateBaseMap(uint32 id)
{
Map* map = FindBaseMap(id);
if (map == NULL)
{
TRINITY_GUARD(ACE_Thread_Mutex, Lock);
const MapEntry* entry = sMapStore.LookupEntry(id);
if (entry && entry->Instanceable())
{
map = new MapInstanced(id, i_gridCleanUpDelay);
}
else
{
map = new Map(id, i_gridCleanUpDelay, 0, REGULAR_DIFFICULTY);
map->LoadRespawnTimes();
}
i_maps[id] = map;
}
ASSERT(map);
return map;
}
Map* MapManager::FindBaseNonInstanceMap(uint32 mapId) const
{
Map* map = FindBaseMap(mapId);
if (map && map->Instanceable())
return NULL;
return map;
}
Map* MapManager::CreateMap(uint32 id, Player* player)
{
Map* m = CreateBaseMap(id);
if (m && m->Instanceable())
m = ((MapInstanced*)m)->CreateInstanceForPlayer(id, player);
return m;
}
Map* MapManager::FindMap(uint32 mapid, uint32 instanceId) const
{
Map* map = FindBaseMap(mapid);
if (!map)
return NULL;
if (!map->Instanceable())
return instanceId == 0 ? map : NULL;
return ((MapInstanced*)map)->FindInstanceMap(instanceId);
}
bool MapManager::CanPlayerEnter(uint32 mapid, Player* player, bool loginCheck)
{
MapEntry const* entry = sMapStore.LookupEntry(mapid);
if (!entry)
return false;
if (!entry->IsDungeon())
return true;
InstanceTemplate const* instance = sObjectMgr->GetInstanceTemplate(mapid);
if (!instance)
return false;
Difficulty targetDifficulty = player->GetDifficulty(entry->IsRaid());
//The player has a heroic mode and tries to enter into instance which has no a heroic mode
MapDifficulty const* mapDiff = GetMapDifficultyData(entry->MapID, targetDifficulty);
if (!mapDiff)
{
// Send aborted message for dungeons
if (entry->IsNonRaidDungeon())
{
player->SendTransferAborted(mapid, TRANSFER_ABORT_DIFFICULTY, player->GetDungeonDifficulty());
return false;
}
else // attempt to downscale
mapDiff = GetDownscaledMapDifficultyData(entry->MapID, targetDifficulty);
}
//Bypass checks for GMs
if (player->isGameMaster())
return true;
char const* mapName = entry->name[player->GetSession()->GetSessionDbcLocale()];
Group* group = player->GetGroup();
if (entry->IsRaid())
{
// can only enter in a raid group
if ((!group || !group->isRaidGroup()) && !sWorld->getBoolConfig(CONFIG_INSTANCE_IGNORE_RAID))
{
// probably there must be special opcode, because client has this string constant in GlobalStrings.lua
// TODO: this is not a good place to send the message
player->GetSession()->SendAreaTriggerMessage(player->GetSession()->GetTrinityString(LANG_INSTANCE_RAID_GROUP_ONLY), mapName);
sLog->outDebug(LOG_FILTER_MAPS, "MAP: Player '%s' must be in a raid group to enter instance '%s'", player->GetName().c_str(), mapName);
return false;
}
}
if (!player->isAlive())
{
if (Corpse* corpse = player->GetCorpse())
{
// let enter in ghost mode in instance that connected to inner instance with corpse
uint32 corpseMap = corpse->GetMapId();
do
{
if (corpseMap == mapid)
break;
InstanceTemplate const* corpseInstance = sObjectMgr->GetInstanceTemplate(corpseMap);
corpseMap = corpseInstance ? corpseInstance->Parent : 0;
} while (corpseMap);
if (!corpseMap)
{
WorldPacket data(SMSG_CORPSE_NOT_IN_INSTANCE);
player->GetSession()->SendPacket(&data);
sLog->outDebug(LOG_FILTER_MAPS, "MAP: Player '%s' does not have a corpse in instance '%s' and cannot enter.", player->GetName().c_str(), mapName);
return false;
}
sLog->outDebug(LOG_FILTER_MAPS, "MAP: Player '%s' has corpse in instance '%s' and can enter.", player->GetName().c_str(), mapName);
player->ResurrectPlayer(0.5f, false);
player->SpawnCorpseBones();
}
else
sLog->outDebug(LOG_FILTER_MAPS, "Map::CanPlayerEnter - player '%s' is dead but does not have a corpse!", player->GetName().c_str());
}
//Get instance where player's group is bound & its map
if (group)
{
InstanceGroupBind* boundInstance = group->GetBoundInstance(entry);
if (boundInstance && boundInstance->save)
if (Map* boundMap = sMapMgr->FindMap(mapid, boundInstance->save->GetInstanceId()))
if (!loginCheck && !boundMap->CanEnter(player))
return false;
/*
This check has to be moved to InstanceMap::CanEnter()
// Player permanently bounded to different instance than groups one
InstancePlayerBind* playerBoundedInstance = player->GetBoundInstance(mapid, player->GetDifficulty(entry->IsRaid()));
if (playerBoundedInstance && playerBoundedInstance->perm && playerBoundedInstance->save &&
boundedInstance->save->GetInstanceId() != playerBoundedInstance->save->GetInstanceId())
{
//TODO: send some kind of error message to the player
return false;
}*/
}
// players are only allowed to enter 5 instances per hour
if (entry->IsDungeon() && (!player->GetGroup() || (player->GetGroup() && !player->GetGroup()->isLFGGroup())))
{
uint32 instaceIdToCheck = 0;
if (InstanceSave* save = player->GetInstanceSave(mapid, entry->IsRaid()))
instaceIdToCheck = save->GetInstanceId();
// instanceId can never be 0 - will not be found
if (!player->CheckInstanceCount(instaceIdToCheck) && !player->isDead())
{
player->SendTransferAborted(mapid, TRANSFER_ABORT_TOO_MANY_INSTANCES);
return false;
}
}
//Other requirements
return player->Satisfy(sObjectMgr->GetAccessRequirement(mapid, targetDifficulty), mapid, true);
}
void MapManager::Update(uint32 diff)
{
i_timer.Update(diff);
if (!i_timer.Passed())
return;
MapMapType::iterator iter = i_maps.begin();
for (; iter != i_maps.end(); ++iter)
{
if (m_updater.activated())
m_updater.schedule_update(*iter->second, uint32(i_timer.GetCurrent()));
else
iter->second->Update(uint32(i_timer.GetCurrent()));
}
if (m_updater.activated())
m_updater.wait();
for (iter = i_maps.begin(); iter != i_maps.end(); ++iter)
iter->second->DelayedUpdate(uint32(i_timer.GetCurrent()));
sObjectAccessor->Update(uint32(i_timer.GetCurrent()));
for (TransportSet::iterator itr = m_Transports.begin(); itr != m_Transports.end(); ++itr)
(*itr)->Update(uint32(i_timer.GetCurrent()));
i_timer.SetCurrent(0);
}
void MapManager::DoDelayedMovesAndRemoves()
{
}
bool MapManager::ExistMapAndVMap(uint32 mapid, float x, float y)
{
GridCoord p = Trinity::ComputeGridCoord(x, y);
int gx=63-p.x_coord;
int gy=63-p.y_coord;
return Map::ExistMap(mapid, gx, gy) && Map::ExistVMap(mapid, gx, gy);
}
bool MapManager::IsValidMAP(uint32 mapid, bool startUp)
{
MapEntry const* mEntry = sMapStore.LookupEntry(mapid);
if (startUp)
return mEntry ? true : false;
else
return mEntry && (!mEntry->IsDungeon() || sObjectMgr->GetInstanceTemplate(mapid));
// TODO: add check for battleground template
}
void MapManager::UnloadAll()
{
for (TransportSet::iterator i = m_Transports.begin(); i != m_Transports.end(); ++i)
{
(*i)->RemoveFromWorld();
delete *i;
}
for (MapMapType::iterator iter = i_maps.begin(); iter != i_maps.end();)
{
iter->second->UnloadAll();
delete iter->second;
i_maps.erase(iter++);
}
if (m_updater.activated())
m_updater.deactivate();
Map::DeleteStateMachine();
}
uint32 MapManager::GetNumInstances()
{
TRINITY_GUARD(ACE_Thread_Mutex, Lock);
uint32 ret = 0;
for (MapMapType::iterator itr = i_maps.begin(); itr != i_maps.end(); ++itr)
{
Map* map = itr->second;
if (!map->Instanceable())
continue;
MapInstanced::InstancedMaps &maps = ((MapInstanced*)map)->GetInstancedMaps();
for (MapInstanced::InstancedMaps::iterator mitr = maps.begin(); mitr != maps.end(); ++mitr)
if (mitr->second->IsDungeon()) ret++;
}
return ret;
}
uint32 MapManager::GetNumPlayersInInstances()
{
TRINITY_GUARD(ACE_Thread_Mutex, Lock);
uint32 ret = 0;
for (MapMapType::iterator itr = i_maps.begin(); itr != i_maps.end(); ++itr)
{
Map* map = itr->second;
if (!map->Instanceable())
continue;
MapInstanced::InstancedMaps &maps = ((MapInstanced*)map)->GetInstancedMaps();
for (MapInstanced::InstancedMaps::iterator mitr = maps.begin(); mitr != maps.end(); ++mitr)
if (mitr->second->IsDungeon())
ret += ((InstanceMap*)mitr->second)->GetPlayers().getSize();
}
return ret;
}
void MapManager::InitInstanceIds()
{
_nextInstanceId = 1;
QueryResult result = CharacterDatabase.Query("SELECT MAX(id) FROM instance");
if (result)
{
uint32 maxId = (*result)[0].GetUInt32();
// Resize to multiples of 32 (vector allocates memory the same way)
_instanceIds.resize((maxId / 32) * 32 + (maxId % 32 > 0 ? 32 : 0));
}
}
void MapManager::RegisterInstanceId(uint32 instanceId)
{
// Allocation and sizing was done in InitInstanceIds()
_instanceIds[instanceId] = true;
}
uint32 MapManager::GenerateInstanceId()
{
uint32 newInstanceId = _nextInstanceId;
// Find the lowest available id starting from the current NextInstanceId (which should be the lowest according to the logic in FreeInstanceId()
for (uint32 i = ++_nextInstanceId; i < 0xFFFFFFFF; ++i)
{
if ((i < _instanceIds.size() && !_instanceIds[i]) || i >= _instanceIds.size())
{
_nextInstanceId = i;
break;
}
}
if (newInstanceId == _nextInstanceId)
{
sLog->outError(LOG_FILTER_MAPS, "Instance ID overflow!! Can't continue, shutting down server. ");
World::StopNow(ERROR_EXIT_CODE);
}
// Allocate space if necessary
if (newInstanceId >= uint32(_instanceIds.size()))
{
// Due to the odd memory allocation behavior of vector we match size to capacity before triggering a new allocation
if (_instanceIds.size() < _instanceIds.capacity())
{
_instanceIds.resize(_instanceIds.capacity());
}
else
_instanceIds.resize((newInstanceId / 32) * 32 + (newInstanceId % 32 > 0 ? 32 : 0));
}
_instanceIds[newInstanceId] = true;
return newInstanceId;
}
void MapManager::FreeInstanceId(uint32 instanceId)
{
// If freed instance id is lower than the next id available for new instances, use the freed one instead
if (instanceId < _nextInstanceId)
SetNextInstanceId(instanceId);
_instanceIds[instanceId] = false;
}