amxmodx/amxmodx/CEvent.cpp
2004-08-13 08:46:04 +00:00

545 lines
12 KiB
C++
Executable File

/* AMX Mod X
*
* by the AMX Mod X Development Team
* originally developed by OLO
*
*
* 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
*
* In addition, as a special exception, the author gives permission to
* link the code of this program with the Half-Life Game Engine ("HL
* Engine") and Modified Game Libraries ("MODs") developed by Valve,
* L.L.C ("Valve"). You must obey the GNU General Public License in all
* respects for all of the code used other than the HL Engine and MODs
* from Valve. If you modify this file, you may extend this exception
* to your version of the file, but you are not obligated to do so. If
* you do not wish to do so, delete this exception statement from your
* version.
*/
#include "amxmodx.h"
#include "CEvent.h"
// *****************************************************
// class ClEvent
// *****************************************************
EventsMngr::ClEvent::ClEvent(CPluginMngr::CPlugin* plugin, int func, int flags)
{
m_Plugin = plugin;
m_Func = func;
// flags
m_FlagAlive = true;
m_FlagDead = true;
m_FlagWorld = (flags & 1) ? true : false; // flag a
m_FlagPlayer = (flags & 2) ? true : false; // flag b
m_FlagOnce = (flags & 4) ? true : false; // flag c
if (flags & 24)
{
m_FlagAlive = (flags & 16) ? true : false; // flag e
m_FlagDead = (flags & 8) ? true : false; // flag d
}
m_Stamp = 0.0f;
m_Done = false;
m_Conditions = NULL;
}
EventsMngr::ClEvent::~ClEvent()
{
cond_t *tmp1 = m_Conditions;
cond_t *tmp2 = NULL;
while (tmp1)
{
tmp2 = tmp1->next;
delete tmp1;
tmp1 = tmp2;
}
m_Conditions = NULL;
}
void EventsMngr::NextParam()
{
const int INITIAL_PARSEVAULT_SIZE = 32;
if (m_ParsePos < m_ParseVaultSize)
return;
MsgDataEntry *tmp = NULL;
int tmpSize = 0;
if (m_ParseVault)
{
// copy to tmp
tmp = new MsgDataEntry[m_ParseVaultSize];
if (!tmp)
{
return; // :TODO: Error report !!
}
memcpy(tmp, m_ParseVault, m_ParseVaultSize * sizeof(MsgDataEntry));
tmpSize = m_ParseVaultSize;
delete [] m_ParseVault;
m_ParseVault = NULL;
}
if (m_ParseVaultSize > 0)
m_ParseVaultSize *= 2;
else
m_ParseVaultSize = INITIAL_PARSEVAULT_SIZE;
m_ParseVault = new MsgDataEntry[m_ParseVaultSize];
if (tmp)
{
memcpy(m_ParseVault, tmp, tmpSize * sizeof(MsgDataEntry));
delete [] tmp;
tmp = NULL;
}
}
int EventsMngr::ClEvent::getFunction()
{
return m_Func;
}
EventsMngr::EventsMngr()
{
m_ParseVault = NULL;
m_ParseVaultSize = 0;
m_CurrentMsgType = -1;
clearEvents();
}
EventsMngr::~EventsMngr()
{
clearEvents();
}
CPluginMngr::CPlugin * EventsMngr::ClEvent::getPlugin()
{
return m_Plugin;
}
// *****************************************************
// class EventsMngr
// *****************************************************
void EventsMngr::ClEvent::registerFilter(char *filter)
{
// filters (conditions) have the form x&y
// x is the param number
// & may also be other characters
// y is a string or a number
if (!filter)
return;
char* value = filter;
// get the first numbr
while (isdigit(*value))
++value;
// end of string => ignore
if (!*value)
return;
cond_t *tmpCond = new cond_t;
if (!tmpCond)
return;
// type character
tmpCond->type = *value;
// set a null here so param id can be recognized, and save it
*value++ = 0;
tmpCond->paramId = atoi(filter);
// rest of line
tmpCond->sValue.assign(value);
tmpCond->fValue = atof(value);
tmpCond->iValue = atoi(value);
tmpCond->next = NULL;
if (m_Conditions)
{
cond_t *tmp = m_Conditions;
while (tmp->next)
tmp = tmp->next;
tmp->next = tmpCond;
}
else
m_Conditions = tmpCond;
}
EventsMngr::ClEvent* EventsMngr::registerEvent(CPluginMngr::CPlugin* plugin, int func, int flags, int msgid)
{
// validate parameter
if (msgid < 0 || msgid >= MAX_AMX_REG_MSG)
return NULL;
ClEvent *event = new ClEvent(plugin, func, flags);
if (!event)
return NULL;
m_Events[msgid].put(event);
return event;
}
void EventsMngr::parserInit(int msg_type, float* timer, CPlayer* pPlayer, int index)
{
if (msg_type < 0 || msg_type > MAX_AMX_REG_MSG)
return;
m_CurrentMsgType = msg_type;
m_ParseNotDone = false;
m_Timer = timer;
// don't parse if nothing to do
if (!m_Events[msg_type].size())
return;
for(ClEventVecIter iter = m_Events[msg_type].begin(); iter; ++iter)
{
if ((*iter).m_Done)
continue;
if (!(*iter).m_Plugin->isExecutable((*iter).m_Func))
{
(*iter).m_Done = true;
continue;
}
if (pPlayer)
{
if (!(*iter).m_FlagPlayer || (pPlayer->IsAlive() ? !(*iter).m_FlagAlive : !(*iter).m_FlagDead ) )
{
(*iter).m_Done = true;
continue;
}
}
else if (!(*iter).m_FlagWorld)
{
(*iter).m_Done = true;
continue;
}
if ((*iter).m_FlagOnce && (*iter).m_Stamp == (float)(*timer))
{
(*iter).m_Done = true;
continue;
}
m_ParseNotDone = true;
}
if (m_ParseNotDone)
{
m_ParsePos = 0;
NextParam();
m_ParseVault[0].type = MSG_INTEGER;
m_ParseVault[0].iValue = index;
}
m_ParseFun = &m_Events[msg_type];
}
void EventsMngr::parseValue(int iValue)
{
// not parsing
if (!m_ParseNotDone || !m_ParseFun)
return;
// grow if needed
++m_ParsePos;
NextParam();
m_ParseVault[m_ParsePos].type = MSG_INTEGER;
m_ParseVault[m_ParsePos].iValue = iValue;
// loop through the registered funcs, and decide whether they have to be called or not
// if they shouldnt, their m_Done is set to true
for (ClEventVecIter iter = m_ParseFun->begin(); iter; ++iter)
{
if ((*iter).m_Done)
continue; // already skipped; don't bother with parsing
// loop through conditions
bool execute = false;
bool anyConditions = false;
for (ClEvent::cond_t *condIter = (*iter).m_Conditions; condIter; condIter = condIter->next)
{
if (condIter->paramId == m_ParsePos)
{
anyConditions = true;
switch(condIter->type)
{
case '=': if (condIter->iValue == iValue) execute=true; break;
case '!': if (condIter->iValue != iValue) execute=true; break;
case '&': if (iValue & condIter->iValue) execute=true; break;
case '<': if (iValue < condIter->iValue) execute=true; break;
case '>': if (iValue > condIter->iValue) execute=true; break;
}
if (execute)
break;
}
}
if (anyConditions && !execute)
(*iter).m_Done = true; // don't execute
}
}
void EventsMngr::parseValue(float fValue)
{
// not parsing
if (!m_ParseNotDone || !m_ParseFun)
return;
// grow if needed
++m_ParsePos;
NextParam();
m_ParseVault[m_ParsePos].type = MSG_FLOAT;
m_ParseVault[m_ParsePos].fValue = fValue;
// loop through the registered funcs, and decide whether they have to be called or not
// if they shouldnt, their m_Done is set to true
for (ClEventVecIter iter = m_ParseFun->begin(); iter; ++iter)
{
if ((*iter).m_Done)
continue; // already skipped; don't bother with parsing
// loop through conditions
bool execute = false;
bool anyConditions = false;
for (ClEvent::cond_t *condIter = (*iter).m_Conditions; condIter; condIter = condIter->next)
{
if (condIter->paramId == m_ParsePos)
{
anyConditions = true;
switch(condIter->type)
{
case '=': if (condIter->fValue == fValue) execute=true; break;
case '!': if (condIter->fValue != fValue) execute=true; break;
case '<': if (fValue < condIter->fValue) execute=true; break;
case '>': if (fValue > condIter->fValue) execute=true; break;
}
if (execute)
break;
}
}
if (anyConditions && !execute)
(*iter).m_Done = true; // don't execute
}
}
void EventsMngr::parseValue(const char *sz)
{
// not parsing
if (!m_ParseNotDone || !m_ParseFun)
return;
// grow if needed
++m_ParsePos;
NextParam();
m_ParseVault[m_ParsePos].type = MSG_STRING;
m_ParseVault[m_ParsePos].sValue = sz;
// loop through the registered funcs, and decide whether they have to be called or not
// if they shouldnt, their m_Done is set to true
for (ClEventVecIter iter = m_ParseFun->begin(); iter; ++iter)
{
if ((*iter).m_Done)
continue; // already skipped; don't bother with parsing
// loop through conditions
bool execute = false;
bool anyConditions = false;
for (ClEvent::cond_t *condIter = (*iter).m_Conditions; condIter; condIter = condIter->next)
{
if (condIter->paramId == m_ParsePos)
{
anyConditions = true;
switch(condIter->type)
{
case '=': if (!strcmp(sz, condIter->sValue.c_str())) execute=true; break;
case '!': if (strcmp(sz, condIter->sValue.c_str())) execute=true; break;
case '&': if (strstr(sz, condIter->sValue.c_str())) execute=true; break;
}
if (execute)
break;
}
}
if (anyConditions && !execute)
(*iter).m_Done = true; // don't execute
}
}
void EventsMngr::executeEvents()
{
int err;
if (!m_ParseFun)
{
return;
}
#ifdef ENABLEEXEPTIONS
try
{
#endif // #ifdef ENABLEEXEPTIONS
for (ClEventVecIter iter = m_ParseFun->begin(); iter; ++iter)
{
if ( (*iter).m_Done )
{
(*iter).m_Done = false;
continue;
}
(*iter).m_Stamp = (float)*m_Timer;
if ((err = amx_Exec((*iter).m_Plugin->getAMX(), NULL, (*iter).m_Func, 1, m_ParseVault ? m_ParseVault[0].iValue : 0)) != AMX_ERR_NONE)
{
AMXXLOG_Log("[AMXX] Run time error %d on line %ld (plugin \"%s\")", err,
(*iter).m_Plugin->getAMX()->curline, (*iter).m_Plugin->getName());
}
}
#ifdef ENABLEEXEPTIONS
}
catch( ... )
{
AMXXLOG_Log( "[AMXX] fatal error at event execution");
}
#endif // #ifdef ENABLEEXEPTIONS
m_CurrentMsgType = -1;
m_ParseFun = NULL;
}
int EventsMngr::getArgNum() const
{
return m_ParsePos + 1;
}
const char* EventsMngr::getArgString(int a) const
{
if ( a < 0 || a > m_ParsePos )
return "";
static char var[32];
switch(m_ParseVault[a].type)
{
case MSG_INTEGER:
sprintf( var, "%d", m_ParseVault[a].iValue );
return var;
case MSG_STRING:
return m_ParseVault[a].sValue;
default:
sprintf( var, "%g", m_ParseVault[a].fValue );
return var;
}
}
int EventsMngr::getArgInteger(int a) const
{
if ( a < 0 || a > m_ParsePos )
return 0;
switch(m_ParseVault[a].type)
{
case MSG_INTEGER:
return m_ParseVault[a].iValue;
case MSG_STRING:
return atoi(m_ParseVault[a].sValue);
default:
return (int)m_ParseVault[a].fValue;
}
}
float EventsMngr::getArgFloat(int a) const
{
if ( a < 0 || a > m_ParsePos )
return 0.0f;
switch(m_ParseVault[a].type)
{
case MSG_INTEGER:
return m_ParseVault[a].iValue;
case MSG_STRING:
return atof(m_ParseVault[a].sValue);
default:
return m_ParseVault[a].fValue;
}
}
void EventsMngr::clearEvents(void)
{
for (int i = 0; i < MAX_AMX_REG_MSG; ++i)
{
m_Events[i].clear();
}
// delete parsevault
if (m_ParseVault)
{
delete [] m_ParseVault;
m_ParseVault = NULL;
m_ParseVaultSize = 0;
}
}
int EventsMngr::getEventId(const char* msg)
{
// :TODO: Remove this somehow!!! :)
const struct CS_Events
{
const char* name;
CS_EventsIds id;
} table[] =
{
{ "CS_DeathMsg" , CS_DeathMsg },
// { "CS_RoundEnd" , CS_RoundEnd },
// { "CS_RoundStart" , CS_RoundStart },
// { "CS_Restart" , CS_Restart },
{ "" , CS_Null }
};
// if msg is a number, return it
int pos = atoi(msg);
if (pos != 0)
return pos;
// try to find in table first
for (pos = 0; table[ pos ].id != CS_Null; ++pos )
if ( !strcmp( table[ pos ].name , msg ) )
return table[ pos ].id;
// find the id of the message
return pos = GET_USER_MSG_ID(PLID, msg , 0 );
}
int EventsMngr::getCurrentMsgType()
{
return m_CurrentMsgType;
}