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TrinityCore/src/shared/Database/DatabaseImpl.h
megamage e5e6ff9f1b Some missing changes. This should fix the bug that loading char causes crash. 
Please do not commit to the other tip (I do not know how to delete it).

--HG--
branch : trunk
2008-11-20 17:40:13 -06:00

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/*
* Copyright (C) 2005-2008 MaNGOS <http://www.mangosproject.org/>
*
* Copyright (C) 2008 Trinity <http://www.trinitycore.org/>
*
* 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, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "Database/Database.h"
#include "Database/SqlOperations.h"
/// Function body definitions for the template function members of the Database class
template<class Class>
bool
Database::AsyncQuery(Class *object, void (Class::*method)(QueryResult*), const char *sql)
{
if (!sql) return false;
ZThread::ThreadImpl * queryThread = ZThread::ThreadImpl::current();
QueryQueues::iterator itr = m_queryQueues.find(queryThread);
if (itr == m_queryQueues.end()) return false;
m_threadBody->Delay(new SqlQuery(sql, new Trinity::QueryCallback<Class>(object, method), itr->second));
return true;
}
template<class Class, typename ParamType1>
bool
Database::AsyncQuery(Class *object, void (Class::*method)(QueryResult*, ParamType1), ParamType1 param1, const char *sql)
{
if (!sql) return false;
ZThread::ThreadImpl * queryThread = ZThread::ThreadImpl::current();
QueryQueues::iterator itr = m_queryQueues.find(queryThread);
if (itr == m_queryQueues.end()) return false;
m_threadBody->Delay(new SqlQuery(sql, new Trinity::QueryCallback<Class, ParamType1>(object, method, (QueryResult*)NULL, param1), itr->second));
return true;
}
template<class Class, typename ParamType1, typename ParamType2>
bool
Database::AsyncQuery(Class *object, void (Class::*method)(QueryResult*, ParamType1, ParamType2), ParamType1 param1, ParamType2 param2, const char *sql)
{
if (!sql) return false;
ZThread::ThreadImpl * queryThread = ZThread::ThreadImpl::current();
QueryQueues::iterator itr = m_queryQueues.find(queryThread);
if (itr == m_queryQueues.end()) return false;
m_threadBody->Delay(new SqlQuery(sql, new Trinity::QueryCallback<Class, ParamType1, ParamType2>(object, method, (QueryResult*)NULL, param1, param2), itr->second));
return true;
}
template<typename ParamType1>
bool
Database::AsyncQuery(void (*method)(QueryResult*, ParamType1), ParamType1 param1, const char *sql)
{
if (!sql) return false;
ZThread::ThreadImpl * queryThread = ZThread::ThreadImpl::current();
QueryQueues::iterator itr = m_queryQueues.find(queryThread);
if (itr == m_queryQueues.end()) return false;
m_threadBody->Delay(new SqlQuery(sql, new Trinity::SQueryCallback<ParamType1>(method, (QueryResult*)NULL, param1), itr->second));
return true;
}
template<typename ParamType1, typename ParamType2>
bool
Database::AsyncQuery(void (*method)(QueryResult*, ParamType1, ParamType2), ParamType1 param1, ParamType2 param2, const char *sql)
{
if (!sql) return false;
ZThread::ThreadImpl * queryThread = ZThread::ThreadImpl::current();
QueryQueues::iterator itr = m_queryQueues.find(queryThread);
if (itr == m_queryQueues.end()) return false;
m_threadBody->Delay(new SqlQuery(sql, new Trinity::SQueryCallback<ParamType1, ParamType2>(method, (QueryResult*)NULL, param1, param2), itr->second));
return true;
}
template<class Class>
bool
Database::AsyncPQuery(Class *object, void (Class::*method)(QueryResult*), const char *format,...)
{
if(!format) return false;
va_list ap;
char szQuery [MAX_QUERY_LEN];
va_start(ap, format);
int res = vsnprintf( szQuery, MAX_QUERY_LEN, format, ap );
va_end(ap);
if(res==-1)
{
sLog.outError("SQL Query truncated (and not execute) for format: %s",format);
return false;
}
return AsyncQuery(object, method, szQuery);
}
template<class Class, typename ParamType1>
bool
Database::AsyncPQuery(Class *object, void (Class::*method)(QueryResult*, ParamType1), ParamType1 param1, const char *format,...)
{
if(!format) return false;
va_list ap;
char szQuery [MAX_QUERY_LEN];
va_start(ap, format);
int res = vsnprintf( szQuery, MAX_QUERY_LEN, format, ap );
va_end(ap);
if(res==-1)
{
sLog.outError("SQL Query truncated (and not execute) for format: %s",format);
return false;
}
return AsyncQuery(object, method, param1, szQuery);
}
template<class Class, typename ParamType1, typename ParamType2>
bool
Database::AsyncPQuery(Class *object, void (Class::*method)(QueryResult*, ParamType1, ParamType2), ParamType1 param1, ParamType2 param2, const char *format,...)
{
if(!format) return false;
va_list ap;
char szQuery [MAX_QUERY_LEN];
va_start(ap, format);
int res = vsnprintf( szQuery, MAX_QUERY_LEN, format, ap );
va_end(ap);
if(res==-1)
{
sLog.outError("SQL Query truncated (and not execute) for format: %s",format);
return false;
}
return AsyncQuery(object, method, param1, param2, szQuery);
}
template<typename ParamType1>
bool
Database::AsyncPQuery(void (*method)(QueryResult*, ParamType1), ParamType1 param1, const char *format,...)
{
if(!format) return false;
va_list ap;
char szQuery [MAX_QUERY_LEN];
va_start(ap, format);
int res = vsnprintf( szQuery, MAX_QUERY_LEN, format, ap );
va_end(ap);
if(res==-1)
{
sLog.outError("SQL Query truncated (and not execute) for format: %s",format);
return false;
}
return AsyncQuery(method, param1, szQuery);
}
template<typename ParamType1, typename ParamType2>
bool
Database::AsyncPQuery(void (*method)(QueryResult*, ParamType1, ParamType2), ParamType1 param1, ParamType2 param2, const char *format,...)
{
if(!format) return false;
va_list ap;
char szQuery [MAX_QUERY_LEN];
va_start(ap, format);
int res = vsnprintf( szQuery, MAX_QUERY_LEN, format, ap );
va_end(ap);
if(res==-1)
{
sLog.outError("SQL Query truncated (and not execute) for format: %s",format);
return false;
}
return AsyncQuery(method, param1, param2, szQuery);
}
template<class Class>
bool
Database::DelayQueryHolder(Class *object, void (Class::*method)(QueryResult*, SqlQueryHolder*), SqlQueryHolder *holder)
{
if (!holder) return false;
ZThread::ThreadImpl * queryThread = ZThread::ThreadImpl::current();
QueryQueues::iterator itr = m_queryQueues.find(queryThread);
if (itr == m_queryQueues.end()) return false;
holder->Execute(new Trinity::QueryCallback<Class, SqlQueryHolder*>(object, method, (QueryResult*)NULL, holder), m_threadBody, itr->second);
return true;
}
template<class Class, typename ParamType1>
bool
Database::DelayQueryHolder(Class *object, void (Class::*method)(QueryResult*, SqlQueryHolder*, ParamType1), SqlQueryHolder *holder, ParamType1 param1)
{
if (!holder) return false;
ZThread::ThreadImpl * queryThread = ZThread::ThreadImpl::current();
QueryQueues::iterator itr = m_queryQueues.find(queryThread);
if (itr == m_queryQueues.end()) return false;
holder->Execute(new Trinity::QueryCallback<Class, SqlQueryHolder*, ParamType1>(object, method, (QueryResult*)NULL, holder, param1), m_threadBody, itr->second);
return true;
}
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