khanat-code-old/code/nel/src/misc/eid_translator.cpp

864 lines
25 KiB
C++

// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero 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 Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
// Includes
//
#include "stdmisc.h"
#include "nel/misc/algo.h"
#include "nel/misc/file.h"
#include "nel/misc/path.h"
#include "nel/misc/command.h"
#include "nel/misc/types_nl.h"
#include "nel/misc/entity_id.h"
#include "nel/misc/eid_translator.h"
#include "nel/misc/hierarchical_timer.h"
using namespace std;
namespace NLMISC {
//
// Variables
//
//CEntityIdTranslator *CEntityIdTranslator::Instance = NULL;
NLMISC_SAFE_SINGLETON_IMPL(CEntityIdTranslator);
// don't forget to increment the number when you change the file format
const uint CEntityIdTranslator::Version = 1;
//
// Functions
//
void CEntityIdTranslator::CEntity::serial (NLMISC::IStream &s)
{
H_AUTO(EIdTrans_serial);
s.serial (EntityName);
if (CEntityIdTranslator::getInstance()->FileVersion >= 1)
s.serial (EntitySlot);
else
{
if(s.isReading())
{
EntitySlot = -1;
}
else
{
sint8 slot = -1;
s.serial (slot);
}
}
s.serial (UId);
s.serial (UserName);
}
//CEntityIdTranslator *CEntityIdTranslator::getInstance ()
//{
// if(Instance == NULL)
// {
// Instance = new CEntityIdTranslator;
// }
// return Instance;
//}
void CEntityIdTranslator::getByUser (uint32 uid, vector<CEntityId> &res)
{
H_AUTO(EIdTrans_getByUser);
for (TEntityCont::iterator it = RegisteredEntities.begin(); it != RegisteredEntities.end(); it++)
{
CEntity &entity = it->second;
if (entity.UId == uid)
{
res.push_back(it->first);
}
}
}
void CEntityIdTranslator::getByUser (const string &userName, vector<CEntityId> &res, bool exact)
{
H_AUTO(EIdTrans_getByUser2);
string lowerName = toLower(userName);
for (TEntityCont::iterator it = RegisteredEntities.begin(); it != RegisteredEntities.end(); it++)
{
if (exact)
{
CEntity &entity = it->second;
if (toLower(entity.UserName) == lowerName)
{
res.push_back(it->first);
}
}
else
{
CEntity &entity = it->second;
if (toLower(entity.UserName).find(lowerName) != string::npos)
{
res.push_back(it->first);
}
}
}
}
const ucstring &CEntityIdTranslator::getByEntity (const CEntityId &eid)
{
H_AUTO(EIdTrans_getByEntity);
// we have to remove the crea and dyna because it can changed dynamically and will not be found in the storage array
CEntityId reid(eid);
reid.setCreatorId(0);
reid.setDynamicId(0);
TEntityCont::iterator it = RegisteredEntities.find (reid);
if (it == RegisteredEntities.end ())
{
static ucstring emptyString;
return emptyString;
}
else
{
CEntity &entity = it->second;
return entity.EntityName;
}
}
CEntityId CEntityIdTranslator::getByEntity (const ucstring &entityName)
{
H_AUTO(EIdTrans_getByEntity2);
vector<CEntityId> res;
getByEntity (entityName, res, true);
if (res.empty())
return CEntityId::Unknown;
else
return res[0];
}
void CEntityIdTranslator::getByEntity (const ucstring &entityName, vector<CEntityId> &res, bool exact)
{
H_AUTO(EIdTrans_getByEntity3);
string lowerName = toLower(entityName.toString());
if (exact)
{
// use the reverse index to speed up search
TNameIndexCont::iterator it(NameIndex.find(lowerName));
if (it != NameIndex.end())
res.push_back(it->second);
return;
}
// parse the entire container to match all entities
for (TEntityCont::iterator it = RegisteredEntities.begin(); it != RegisteredEntities.end(); ++it)
{
CEntity &entity = it->second;
if (toLower(entity.EntityName.toString()).find(lowerName) != string::npos)
{
res.push_back(it->first);
}
}
}
bool CEntityIdTranslator::isValidEntityName (const ucstring &entityName,CLog *log)
{
H_AUTO(EIdTrans_isValidEntityName);
// 3 char at least
if (entityName.size() < 3)
{
log->displayNL("Bad entity name '%s' (less than 3 char)", entityName.toString().c_str());
return false;
}
if (entityName.size() > 15)
{
// if a parenthesis is found before 15 chars, the name is valid
if (entityName.find(ucstring("(")) > 15 || entityName[entityName.size()-1] != ucchar(')'))
{
log->displayNL("EIT: Bad entity name '%s' (more than 15 char)", entityName.toString().c_str());
return false;
}
}
bool allowNumeric = false;
for (uint i = 0; i < entityName.size(); i++)
{
if (entityName[i] == '(')
{
// starting from shard name, allow alphanumeric character
allowNumeric = true;
}
// only accept name with alphabetic and numeric value [a-zA-Z] and parenthesis
if (!allowNumeric && !isalpha (entityName[i]) && entityName[i] != '(' && entityName[i] != ')')
{
log->displayNL("Bad entity name '%s' (only char and num)", entityName.toString().c_str());
return false;
}
}
// now check with the invalid name list
string en = getRegisterableString( entityName );
for (uint i = 0; i < InvalidEntityNames.size(); i++)
{
if(testWildCard(en, InvalidEntityNames[i]))
{
log->displayNL("Bad entity name '%s' (match the invalid entity name pattern '%s')", entityName.toString().c_str(), InvalidEntityNames[i].c_str());
return false;
}
}
return true;
}
void CEntityIdTranslator::clear()
{
NameIndex.clear();
RegisteredEntities.clear();
}
bool CEntityIdTranslator::checkEntityName (const ucstring &entityName )
{
H_AUTO(EIdTrans_entityNameExists);
// if bad name, don't accept it
if (!isValidEntityName (entityName,NLMISC::InfoLog)) return false;
return !entityNameExists( entityName );
}
bool CEntityIdTranslator::entityNameExists (const ucstring &entityName )
{
// Names are stored in case dependant, so we have to test them without case.
ucstring registerable = getRegisterableString (entityName);
return NameIndex.find(registerable) !=NameIndex.end();
/* for (TEntityCont::iterator it = RegisteredEntities.begin(); it != RegisteredEntities.end(); it++)
{
if (getRegisterableString ((*it).second.EntityName) == registerable)
{
return true;
}
}
return false;
*/
}
void CEntityIdTranslator::registerEntity (const CEntityId &eid, const ucstring &entityName, sint8 entitySlot, uint32 uid, const string &userName, uint32 shardId)
{
H_AUTO(EIdTrans_registerEntity);
// we have to remove the crea and dyna because it can changed dynamically and will not be found in the storage array
CEntityId reid(eid);
reid.setCreatorId(0);
reid.setDynamicId(0);
if (RegisteredEntities.find (reid) != RegisteredEntities.end ())
{
nlwarning ("EIT: Can't register EId %s EntityName '%s' UId %d UserName '%s' because EId is already in the map", reid.toString().c_str(), entityName.toString().c_str(), uid, userName.c_str());
return;
}
if (!checkEntityName(entityName))
{
if (isValidEntityName(entityName))
nlwarning ("EIT: Can't register EId %s EntityName '%s' UId %d UserName '%s' because EntityName is already in the map", reid.toString().c_str(), entityName.toString().c_str(), uid, userName.c_str());
else
nlwarning ("EIT: Can't register EId %s EntityName '%s' UId %d UserName '%s' because EntityName is invalid", reid.toString().c_str(), entityName.toString().c_str(), uid, userName.c_str());
return;
}
nlinfo ("EIT: Register EId %s EntityName '%s' UId %d UserName '%s'", reid.toString().c_str(), entityName.toString().c_str(), uid, userName.c_str());
RegisteredEntities.insert (make_pair(reid, CEntityIdTranslator::CEntity(entityName, uid, userName, entitySlot, shardId)));
NameIndex.insert(make_pair(toLower(entityName), reid));
}
void CEntityIdTranslator::updateEntity (const CEntityId &eid, const ucstring &entityName, sint8 entitySlot, uint32 uid, const std::string &userName, uint32 shardId)
{
CEntityId reid(eid);
reid.setCreatorId(0);
reid.setDynamicId(0);
TEntityCont::iterator it = RegisteredEntities.find (reid);
if (it == RegisteredEntities.end())
{
// just register
registerEntity(eid, entityName, entitySlot, uid, userName, shardId);
}
else
{
// update entity entry and name index
CEntity &entity = it->second;
if (entity.EntityName != entityName)
{
if (!checkEntityName(entityName))
{
nlwarning ("EIT: Can't update EId %s EntityName '%s' UId %d UserName '%s' with new name '%s' because EntityName is already in the map",
reid.toString().c_str(),
entity.EntityName.toString().c_str(),
uid,
userName.c_str(),
entityName.toString().c_str());
return;
}
// update the name and name index
NameIndex.erase(toLower(entity.EntityName));
NameIndex.insert(make_pair(toLower(entityName), reid));
entity.EntityName = entityName;
entity.EntityNameStringId = 0;
}
entity.EntitySlot = entitySlot;
entity.UId = uid;
entity.UserName = userName;
entity.ShardId = shardId;
}
}
void CEntityIdTranslator::unregisterEntity (const CEntityId &eid)
{
H_AUTO(EIdTrans_unregisterEntity);
// we have to remove the crea and dyna because it can changed dynamically and will not be found in the storage array
CEntityId reid(eid);
reid.setCreatorId(0);
reid.setDynamicId(0);
TEntityCont::iterator it = RegisteredEntities.find (reid);
if (it == RegisteredEntities.end ())
{
nlwarning ("EIT: Can't unregister EId %s because EId is not in the map", reid.toString().c_str());
return;
}
CEntity &entity = it->second;
nldebug ("EIT: Unregister EId %s EntityName '%s' UId %d UserName '%s'", reid.toString().c_str(), entity.EntityName.toString().c_str(), entity.UId, entity.UserName.c_str());
NameIndex.erase(toLower(entity.EntityName));
RegisteredEntities.erase (reid);
}
bool CEntityIdTranslator::isEntityRegistered(const CEntityId &eid)
{
H_AUTO(EIdTrans_unregisterEntity);
// we have to remove the crea and dyna because it can changed dynamically and will not be found in the storage array
CEntityId reid(eid);
reid.setCreatorId(0);
reid.setDynamicId(0);
TEntityCont::iterator it = RegisteredEntities.find (reid);
return it != RegisteredEntities.end ();
}
void CEntityIdTranslator::checkEntity (const CEntityId &eid, const ucstring &entityName, uint32 uid, const string &userName)
{
H_AUTO(EIdTrans_checkEntity);
// we have to remove the crea and dyna because it can changed dynamically and will not be found in the storage array
CEntityId reid(eid);
reid.setCreatorId(0);
reid.setDynamicId(0);
map<CEntityId, CEntityIdTranslator::CEntity>::iterator it = RegisteredEntities.find (reid);
nlinfo ("EIT: Checking EId %s EntityName '%s' UId %d UserName '%s'", reid.toString().c_str(), entityName.toString().c_str(), uid, userName.c_str());
if (it == RegisteredEntities.end ())
{
nlwarning ("EIT: Check failed because EId is not in the CEntityIdTranslator map for EId %s EntityName '%s' UId %d UserName '%s'", reid.toString().c_str(), entityName.toString().c_str(), uid, userName.c_str());
if (checkEntityName(entityName))
{
nlwarning ("EIT: Check failed because entity name already exist '%s' for EId %s EntityName '%s' UId %d UserName '%s'", getByEntity(entityName).toString().c_str(), reid.toString().c_str(), entityName.toString().c_str(), uid, userName.c_str());
}
}
else
{
CEntity &entity = it->second;
if (entity.EntityName != entityName)
{
nlwarning ("EIT: Check failed because entity name not identical '%s' in the CEntityIdTranslator map for EId %s EntityName '%s' UId %d UserName '%s'", entity.EntityName.toString().c_str(), reid.toString().c_str(), entityName.toString().c_str(), uid, userName.c_str());
if(!entityName.empty())
{
entity.EntityName = entityName;
}
}
if (entity.UId != uid)
{
nlwarning ("EIT: Check failed because uid not identical (%d) in the CEntityIdTranslator map for EId %s EntityName '%s' UId %d UserName '%s'", entity.UId, reid.toString().c_str(), entityName.toString().c_str(), uid, userName.c_str());
if (uid != 0)
{
entity.UId = uid;
}
}
if (entity.UserName != userName)
{
nlwarning ("EIT: Check failed because user name not identical '%s' in the CEntityIdTranslator map for EId %s EntityName '%s' UId %d UserName '%s'", entity.UserName.c_str(), reid.toString().c_str(), entityName.toString().c_str(), uid, userName.c_str());
if(!userName.empty())
{
entity.UserName = userName;
}
}
}
}
// this callback is call when the file is changed
void cbInvalidEntityNamesFilename(const std::string &invalidEntityNamesFilename)
{
CEntityIdTranslator::getInstance()->InvalidEntityNames.clear ();
string fn = CPath::lookup(invalidEntityNamesFilename, false);
if (fn.empty())
{
nlwarning ("EIT: Can't load filename '%s' for invalid entity names filename (not found)", invalidEntityNamesFilename.c_str());
return;
}
FILE *fp = fopen (fn.c_str(), "r");
if (fp == NULL)
{
nlwarning ("EIT: Can't load filename '%s' for invalid entity names filename", fn.c_str());
return;
}
for(;;)
{
char str[512];
if (!fgets(str, 511, fp))
break;
if(feof(fp))
break;
if (strlen(str) > 0)
{
str[strlen(str)-1] = '\0';
CEntityIdTranslator::getInstance()->InvalidEntityNames.push_back(str);
}
}
fclose (fp);
}
void CEntityIdTranslator::load (const string &fileName, const string &invalidEntityNamesFilename)
{
H_AUTO(EIdTrans_load);
if (fileName.empty())
{
nlwarning ("EIT: Can't load empty filename for EntityIdTranslator");
return;
}
if (!FileName.empty())
{
nlwarning ("EIT: Can't load file '%s' for EntityIdTranslator because we already load the file '%s'", fileName.c_str(), FileName.c_str());
return;
}
nlinfo ("EIT: CEntityIdTranslator: load '%s'", fileName.c_str());
FileName = fileName;
if(CFile::fileExists(FileName))
{
CIFile ifile;
if( ifile.open(FileName) )
{
FileVersion = Version;
ifile.serialVersion (FileVersion);
ifile.serialCont (RegisteredEntities);
ifile.close ();
// fill the entity name index container
NameIndex.clear();
TEntityCont::iterator first(RegisteredEntities.begin()), last(RegisteredEntities.end());
for (; first != last; ++first)
{
NameIndex.insert(make_pair(toLower(first->second.EntityName), first->first));
}
}
else
{
nlwarning ("EIT: Can't load filename '%s' for EntityIdTranslator", FileName.c_str());
}
}
cbInvalidEntityNamesFilename (invalidEntityNamesFilename);
NLMISC::CFile::addFileChangeCallback (invalidEntityNamesFilename, cbInvalidEntityNamesFilename);
}
void CEntityIdTranslator::save ()
{
H_AUTO(EIdTrans_save);
if (FileName.empty())
{
nlwarning ("EIT: Can't save empty filename for EntityIdTranslator (you forgot to load() it before?)");
return;
}
nlinfo ("EIT: CEntityIdTranslator: save");
COFile ofile;
if( ofile.open(FileName) )
{
ofile.serialVersion (Version);
FileVersion = Version;
ofile.serialCont (RegisteredEntities);
ofile.close ();
}
else
{
nlwarning ("EIT: Can't save filename '%s' for EntityIdTranslator", FileName.c_str());
}
}
uint32 CEntityIdTranslator::getUId (const string &userName)
{
const TEntityCont::iterator itEnd = RegisteredEntities.end();
for (TEntityCont::iterator it = RegisteredEntities.begin(); it != itEnd ; ++it)
{
CEntity &entity = it->second;
if (entity.UserName == userName)
{
return entity.UId;
}
}
return 0;
}
string CEntityIdTranslator::getUserName (uint32 uid)
{
const TEntityCont::iterator itEnd = RegisteredEntities.end();
for (TEntityCont::iterator it = RegisteredEntities.begin(); it != itEnd ; ++it)
{
CEntity &entity = it->second;
if (entity.UId == uid)
{
return entity.UserName;
}
}
return 0;
}
void CEntityIdTranslator::getEntityIdInfo (const CEntityId &eid, ucstring &entityName, sint8 &entitySlot, uint32 &uid, string &userName, bool &online, std::string* additional)
{
// we have to remove the crea and dyna because it can changed dynamically and will not be found in the storage array
CEntityId reid(eid);
reid.setCreatorId(0);
reid.setDynamicId(0);
if (additional != NULL)
additional->clear();
TEntityCont::iterator it = RegisteredEntities.find (reid);
if (it == RegisteredEntities.end ())
{
nlwarning ("EIT: %s is not registered in CEntityIdTranslator", reid.toString().c_str());
entityName = "";
entitySlot = -1;
uid = std::numeric_limits<uint32>::max();
userName = "";
online = false;
}
else
{
CEntity &entity = it->second;
entityName = entity.EntityName;
entitySlot = entity.EntitySlot;
uid = entity.UId;
userName = entity.UserName;
online = entity.Online;
if (EntityInfoCallback != NULL && additional != NULL)
*additional = EntityInfoCallback(eid);
}
}
bool CEntityIdTranslator::setEntityNameStringId(const ucstring &entityName, uint32 stringId)
{
const TEntityCont::iterator itEnd = RegisteredEntities.end();
for (TEntityCont::iterator it = RegisteredEntities.begin(); it != itEnd ; ++it)
{
CEntity &entity = it->second;
if (entity.EntityName == entityName)
{
entity.EntityNameStringId = stringId;
return true;
}
}
return false;
}
bool CEntityIdTranslator::setEntityNameStringId(const CEntityId &eid, uint32 stringId)
{
TEntityCont::iterator it (RegisteredEntities.find(eid));
if (it == RegisteredEntities.end())
{
// there is nothing we can do !
return false;
}
CEntity &entity = it->second;
entity.EntityNameStringId = stringId;
return true;
}
uint32 CEntityIdTranslator::getEntityNameStringId(const CEntityId &eid)
{
// we have to remove the crea and dyna because it can changed dynamically and will not be found in the storage array
CEntityId reid(eid);
reid.setCreatorId(0);
reid.setDynamicId(0);
const TEntityCont::iterator it = RegisteredEntities.find (reid);
if (it == RegisteredEntities.end ())
{
return 0;
}
else
{
CEntity &entity = it->second;
return entity.EntityNameStringId;
}
}
// get the shard id of an entity
uint32 CEntityIdTranslator::getEntityShardId(const CEntityId &eid)
{
// we have to remove the crea and dyna because it can changed dynamically and will not be found in the storage array
CEntityId reid(eid);
reid.setCreatorId(0);
reid.setDynamicId(0);
const TEntityCont::iterator it = RegisteredEntities.find (reid);
if (it == RegisteredEntities.end ())
{
return 0;
}
else
{
CEntity &entity = it->second;
return entity.ShardId;
}
}
void CEntityIdTranslator::setEntityOnline (const CEntityId &eid, bool online)
{
// we have to remove the crea and dyna because it can changed dynamically and will not be found in the storage array
CEntityId reid(eid);
reid.setCreatorId(0);
reid.setDynamicId(0);
TEntityCont::iterator it = RegisteredEntities.find (reid);
if (it == RegisteredEntities.end ())
{
nlwarning ("EIT: %s is not registered in CEntityIdTranslator", reid.toString().c_str());
}
else
{
CEntity &entity = it->second;
entity.Online = online;
}
}
bool CEntityIdTranslator::isEntityOnline (const CEntityId &eid)
{
// we have to remove the crea and dyna because it can changed dynamically and will not be found in the storage array
CEntityId reid(eid);
reid.setCreatorId(0);
reid.setDynamicId(0);
TEntityCont::iterator it = RegisteredEntities.find (reid);
if (it == RegisteredEntities.end ())
{
nlwarning ("EIT: %s is not registered in CEntityIdTranslator", reid.toString().c_str());
return false;
}
else
{
CEntity &entity = it->second;
return entity.Online;
}
}
std::string CEntityIdTranslator::getRegisterableString( const ucstring & entityName )
{
string ret = toLower( entityName.toString() );
string::size_type pos = ret.find( 0x20 );
while( pos != string::npos )
{
ret.erase( pos,1 );
pos = ret.find( 0x20 );
}
return ret;
}
NLMISC_CATEGORISED_COMMAND(nel,findEIdByUser,"Find entity ids using the user name","<username>|<uid>")
{
if (args.size () != 1)
return false;
vector<CEntityId> res;
string userName = args[0];
uint32 uid = atoi (userName.c_str());
if (uid != 0)
{
CEntityIdTranslator::getInstance()->getByUser(uid, res);
userName = CEntityIdTranslator::getInstance()->getUserName(uid);
}
else
{
CEntityIdTranslator::getInstance()->getByUser(userName, res);
CEntityIdTranslator::getInstance()->getUId(userName);
}
log.displayNL("User Name '%s' (uid=%d) has %d entities:", userName.c_str(), uid, res.size());
for (uint i = 0 ; i < res.size(); i++)
{
log.displayNL("> %s '%s'", res[i].toString().c_str(), CEntityIdTranslator::getInstance()->getByEntity (res[i]).c_str());
}
return true;
}
NLMISC_CATEGORISED_COMMAND(nel,findEIdByEntity,"Find entity id using the entity name","<entityname>|<eid>")
{
if (args.size () != 1)
return false;
CEntityId eid (args[0].c_str());
if (eid == CEntityId::Unknown)
{
eid = CEntityIdTranslator::getInstance()->getByEntity(args[0]);
}
if (eid == CEntityId::Unknown)
{
log.displayNL("'%s' is not an eid or an entity name", args[0].c_str());
return false;
}
ucstring entityName;
sint8 entitySlot;
uint32 uid;
string userName;
bool online;
std::string extinf;
CEntityIdTranslator::getInstance()->getEntityIdInfo(eid, entityName, entitySlot, uid, userName, online, &extinf);
log.displayNL("UId %d UserName '%s' EId %s EntityName '%s' EntitySlot %hd %s%s%s", uid, userName.c_str(), eid.toString().c_str(), entityName.toString().c_str(), (sint16)entitySlot, (extinf.c_str()), (extinf.empty() ? "" : " "), (online?"Online":"Offline"));
return true;
}
NLMISC_CATEGORISED_COMMAND(nel,entityNameValid,"Tell if an entity name is valid or not using CEntityIdTranslator validation rulez","<entityname>")
{
if (args.size () != 1) return false;
if(!CEntityIdTranslator::getInstance()->isValidEntityName(args[0], &log))
{
log.displayNL("Entity name '%s' is not valid", args[0].c_str());
}
else
{
if (CEntityIdTranslator::getInstance()->checkEntityName(args[0]))
{
log.displayNL("Entity name '%s' is already used by another player", args[0].c_str());
}
else
{
log.displayNL("Entity name '%s' is available", args[0].c_str());
}
}
return true;
}
NLMISC_CATEGORISED_COMMAND(nel,playerInfo,"Get information about a player or all players in CEntityIdTranslator","[<entityname>|<eid>|<username>|<uid>]")
{
if (args.size () == 0)
{
const map<CEntityId, CEntityIdTranslator::CEntity> &res = CEntityIdTranslator::getInstance()->getRegisteredEntities ();
log.displayNL("%d result(s) for 'all players information'", res.size());
for (map<CEntityId, CEntityIdTranslator::CEntity>::const_iterator it = res.begin(); it != res.end(); it++)
{
const CEntityIdTranslator::CEntity &entity = it->second;
log.displayNL("UId %d UserName '%s' EId %s EntityName '%s' EntitySlot %hd %s", entity.UId, entity.UserName.c_str(), it->first.toString().c_str(), entity.EntityName.toString().c_str(), (sint16)(entity.EntitySlot), (entity.Online?"Online":"Offline"));
}
return true;
}
else if (args.size () == 1)
{
vector<CEntityId> res;
CEntityId eid (args[0].c_str());
uint32 uid = atoi (args[0].c_str());
if (eid != CEntityId::Unknown)
{
// we have to remove the crea and dyna because it can changed dynamically and will not be found in the storage array
eid.setCreatorId(0);
eid.setDynamicId(0);
res.push_back(eid);
}
else if (uid != 0)
{
// the parameter is an uid
CEntityIdTranslator::getInstance()->getByUser (uid, res);
}
else
{
CEntityIdTranslator::getInstance()->getByUser (args[0], res, false);
CEntityIdTranslator::getInstance()->getByEntity (args[0], res, false);
}
log.displayNL("%d result(s) for '%s'", res.size(), args[0].c_str());
for (uint i = 0; i < res.size(); i++)
{
ucstring entityName;
sint8 entitySlot;
uint32 uid2;
string userName;
bool online;
std::string extinf;
CEntityIdTranslator::getInstance()->getEntityIdInfo (res[i], entityName, entitySlot, uid2, userName, online, &extinf);
log.displayNL("UId %d UserName '%s' EId %s EntityName '%s' EntitySlot %hd %s%s%s", uid2, userName.c_str(), res[i].toString().c_str(), entityName.toString().c_str(), (sint16)entitySlot, (extinf.c_str()), (extinf.empty() ? "" : " "), (online?"Online":"Offline"));
}
return true;
}
return false;
}
}