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1 Commits
amxmodx-1. ... amxmodx-0.

Author SHA1 Message Date
Scott Ehlert
f8a6bf90cd Tagged 0.20-TP2 2006-07-20 05:40:05 +00:00
1064 changed files with 34602 additions and 322894 deletions
Expand all files Collapse all files

192
amxmodx/CCmd.cpp
View File

@ -35,10 +35,8 @@
// ***************************************************** // *****************************************************
// class CmdMngr // class CmdMngr
// ***************************************************** // *****************************************************
CmdMngr::CmdMngr() {
CmdMngr::CmdMngr() memset(sortedlists,0,sizeof(sortedlists));
{
memset(sortedlists, 0, sizeof(sortedlists));
srvcmdlist = 0; srvcmdlist = 0;
clcmdlist = 0; clcmdlist = 0;
prefixHead = 0; prefixHead = 0;
@ -51,12 +49,13 @@ CmdMngr::CmdMngr()
} }
CmdMngr::Command::Command(CPluginMngr::CPlugin* pplugin, const char* pcmd, const char* pinfo, int pflags, CmdMngr::Command::Command( CPluginMngr::CPlugin* pplugin,const char* pcmd,
int pfunc, bool pviewable, CmdMngr* pparent) : commandline(pcmd), info(pinfo) const char* pinfo , int pflags , int pfunc,
{ bool pviewable, CmdMngr* pparent ) : commandline(pcmd) , info(pinfo) {
char szCmd[64], szArg[64]; char szCmd[64], szArg[64];
*szCmd = 0; *szArg = 0; *szCmd = 0; *szArg=0;
sscanf(pcmd, "%s %s", szCmd, szArg); sscanf(pcmd,"%s %s",szCmd,szArg);
command.assign(szCmd); command.assign(szCmd);
argument.assign(szArg); argument.assign(szArg);
plugin = pplugin; plugin = pplugin;
@ -74,88 +73,95 @@ CmdMngr::Command::~Command()
++uniqueid; ++uniqueid;
} }
CmdMngr::Command* CmdMngr::registerCommand(CPluginMngr::CPlugin* plugin, int func, char* cmd, char* info, int level, bool listable) CmdMngr::Command* CmdMngr::registerCommand( CPluginMngr::CPlugin* plugin , int func , char* cmd , char* info , int level , bool listable )
{ {
Command* b = new Command(plugin, cmd, info, level, func, listable, this); Command* b = new Command( plugin , cmd , info , level , func , listable, this );
if (b == 0) return 0; if ( b == 0 ) return 0;
setCmdLink(&sortedlists[0], b); setCmdLink( &sortedlists[0] , b );
return b;
return b;
} }
CmdMngr::Command* CmdMngr::getCmd(long int id, int type, int access) CmdMngr::Command* CmdMngr::getCmd( long int id ,int type, int access )
{ {
//if (id >= 1024 || id < 0) return (Command*)id; //if ( id >= 1024 || id < 0 ) return (Command*)id;
if (id < 0) if ( id < 0 ){
{ for (CmdMngr::iterator a = begin( type ); a ; ++a){
for (CmdMngr::iterator a = begin(type); a ; ++a) if ( (*a).id == id )
{
if ((*a).id == id)
return &(*a); return &(*a);
} }
return 0; return 0;
} }
if ((id < buf_cmdid) || (access != buf_cmdaccess) || (type != buf_cmdtype)) if ( (id < buf_cmdid) || (access != buf_cmdaccess) || (type != buf_cmdtype) )
{ {
buf_cmdptr = begin(type); buf_cmdptr = begin( type );
buf_cmdaccess = access; buf_cmdaccess = access;
buf_cmdtype = type; buf_cmdtype = type;
buf_cmdid = id; buf_cmdid = id;
} else { }
else
{
int a = id; int a = id;
id -= buf_cmdid; id -= buf_cmdid;
buf_cmdid = a; buf_cmdid = a;
} }
while (buf_cmdptr) while ( buf_cmdptr )
{ {
if ((*buf_cmdptr).gotAccess(access) && (*buf_cmdptr).getPlugin()->isExecutable((*buf_cmdptr).getFunction()) && (*buf_cmdptr).isViewable())
if ( (*buf_cmdptr).gotAccess( access ) &&
(*buf_cmdptr).getPlugin()->isExecutable( (*buf_cmdptr).getFunction() )
&& (*buf_cmdptr).isViewable() )
{ {
if (id-- == 0)
if ( id-- == 0 )
return &(*buf_cmdptr); return &(*buf_cmdptr);
} }
++buf_cmdptr; ++buf_cmdptr;
} }
return 0; return 0;
} }
int CmdMngr::getCmdNum(int type, int access) int CmdMngr::getCmdNum( int type, int access )
{ {
if ((access == buf_access) && (type == buf_type)) if ( (access == buf_access) && (type == buf_type) )
return buf_num; // once calculated don't have to be done again return buf_num; // once calculated don't have to be done again
buf_access = access; buf_access = access;
buf_type = type; buf_type = type;
buf_num = 0; buf_num = 0;
CmdMngr::iterator a = begin(type); CmdMngr::iterator a = begin( type );
while (a) while ( a )
{ {
if ((*a).gotAccess(access) && (*a).getPlugin()->isExecutable((*a).getFunction()) && (*a).isViewable())
++buf_num; if ( (*a).gotAccess( access ) &&
(*a).getPlugin()->isExecutable( (*a).getFunction() )
&& (*a).isViewable() )
++buf_num;
++a; ++a;
} }
return buf_num; return buf_num;
} }
void CmdMngr::setCmdLink(CmdLink** a, Command* c, bool sorted) void CmdMngr::setCmdLink( CmdLink** a , Command* c, bool sorted )
{ {
CmdLink* np = new CmdLink(c); CmdLink* np = new CmdLink( c );
if (np == 0) return; if ( np == 0 ) return;
if (sorted) if ( sorted )
{ {
while (*a) while( *a )
{ {
int i = strcmp(c->getCommand(), (*a)->cmd->getCommand()); int i = strcmp(c->getCommand(),(*a)->cmd->getCommand() );
if ((i < 0) || (i == 0) && (strcmp(c->getArgument(), (*a)->cmd->getArgument()) < 0)) if ( (i<0) || (i==0) && ( strcmp( c->getArgument() , (*a)->cmd->getArgument() ) < 0 ) )
break; break;
a = &(*a)->next; a = &(*a)->next;
@ -163,101 +169,84 @@ void CmdMngr::setCmdLink(CmdLink** a, Command* c, bool sorted)
np->next = *a; np->next = *a;
*a = np; *a = np;
} else { }
while (*a) a = &(*a)->next; else
{
while ( *a ) a = &(*a)->next;
*a = np; *a = np;
} }
} }
void CmdMngr::clearCmdLink(CmdLink** phead, bool pclear) void CmdMngr::clearCmdLink( CmdLink** phead, bool pclear )
{ {
while (*phead) while( *phead ){
{
CmdLink* pp = (*phead)->next; CmdLink* pp = (*phead)->next;
if ( pclear ) delete (*phead)->cmd;
if (pclear) delete (*phead)->cmd;
delete *phead; delete *phead;
*phead = pp; *phead = pp;
} }
} }
void CmdMngr::Command::setCmdType(int a) void CmdMngr::Command::setCmdType( int a )
{ {
switch (a) switch(a){
{ case CMD_ConsoleCommand: cmdtype |= 3; break;
case CMD_ConsoleCommand: cmdtype |= 3; break; case CMD_ClientCommand: cmdtype |= 1; break;
case CMD_ClientCommand: cmdtype |= 1; break; case CMD_ServerCommand: cmdtype |= 2; break;
case CMD_ServerCommand: cmdtype |= 2; break;
} }
if ( cmdtype & 1 ) { // ClientCommand
if (cmdtype & 1) // ClientCommand parent->setCmdLink( &parent->sortedlists[1] , this );
{ if ( !parent->registerCmdPrefix( this ) )
parent->setCmdLink(&parent->sortedlists[1], this); parent->setCmdLink( &parent->clcmdlist , this , false );
if (!parent->registerCmdPrefix(this))
parent->setCmdLink(&parent->clcmdlist, this, false);
} }
if ( cmdtype & 2 ) { // ServerCommand
if (cmdtype & 2) // ServerCommand parent->setCmdLink( &parent->sortedlists[2] , this );
{ parent->setCmdLink( &parent->srvcmdlist , this , false );
parent->setCmdLink(&parent->sortedlists[2], this);
parent->setCmdLink(&parent->srvcmdlist, this, false);
} }
} }
const char* CmdMngr::Command::getCmdType() const const char* CmdMngr::Command::getCmdType() const {
{ switch( cmdtype ){
switch (cmdtype) case 1: return"client";
{ case 2: return "server";
case 1: return "client"; case 3: return "console";
case 2: return "server";
case 3: return "console";
} }
return "unknown"; return "unknown";
} }
bool CmdMngr::registerCmdPrefix(Command* cc) bool CmdMngr::registerCmdPrefix( Command* cc )
{ {
CmdPrefix** b = findPrefix(cc->getCommand()); CmdPrefix** b = findPrefix( cc->getCommand() );
if (*b){
if (*b) setCmdLink( &(*b)->list , cc , false );
{
setCmdLink(&(*b)->list, cc, false);
cc->prefix = (*b)->name.size(); cc->prefix = (*b)->name.size();
return true; return true;
} }
return false; return false;
} }
void CmdMngr::registerPrefix(const char* nn) void CmdMngr::registerPrefix( const char* nn )
{ {
if (*nn == 0) return; if ( *nn == 0 ) return;
CmdPrefix** b = findPrefix(nn); CmdPrefix** b = findPrefix( nn );
if (*b) return; if (*b) return;
*b = new CmdPrefix(nn, this); *b = new CmdPrefix( nn , this );
} }
CmdMngr::CmdPrefix** CmdMngr::findPrefix(const char* nn) CmdMngr::CmdPrefix** CmdMngr::findPrefix( const char* nn ){
{
CmdPrefix** aa = &prefixHead; CmdPrefix** aa = &prefixHead;
while(*aa){
while (*aa) if ( !strncmp( (*aa)->name.c_str(), nn, (*aa)->name.size() ) )
{
if (!strncmp((*aa)->name.c_str(), nn, (*aa)->name.size()))
break; break;
aa = &(*aa)->next; aa=&(*aa)->next;
} }
return aa; return aa;
} }
void CmdMngr::clearPrefix() void CmdMngr::clearPrefix(){
{ while(prefixHead){
while (prefixHead)
{
CmdPrefix* a = prefixHead->next; CmdPrefix* a = prefixHead->next;
delete prefixHead; delete prefixHead;
prefixHead = a; prefixHead = a;
@ -275,8 +264,7 @@ void CmdMngr::clear()
clearBufforedInfo(); clearBufforedInfo();
} }
void CmdMngr::clearBufforedInfo() void CmdMngr::clearBufforedInfo() {
{
buf_type = -1; buf_type = -1;
buf_access = 0; buf_access = 0;
buf_id = -1; buf_id = -1;

74
amxmodx/CCmd.h
View File

@ -36,8 +36,7 @@
// class CmdMngr // class CmdMngr
// ***************************************************** // *****************************************************
enum enum {
{
CMD_ConsoleCommand, CMD_ConsoleCommand,
CMD_ClientCommand, CMD_ClientCommand,
CMD_ServerCommand CMD_ServerCommand
@ -49,17 +48,14 @@ public:
class Command; class Command;
friend class Command; friend class Command;
class Command class Command {
{
friend class CmdMngr; friend class CmdMngr;
CPluginMngr::CPlugin* plugin; CPluginMngr::CPlugin* plugin;
CmdMngr* parent; CmdMngr* parent;
String command; String command;
String argument; String argument;
String commandline; String commandline;
String info; String info;
bool listable; bool listable;
int function; int function;
int flags; int flags;
@ -67,33 +63,33 @@ public:
int cmdtype; int cmdtype;
int prefix; int prefix;
static int uniqueid; static int uniqueid;
Command( CPluginMngr::CPlugin* pplugin,const char* pcmd, const char* pinfo , int pflags , int pfunc, bool pviewable, CmdMngr* pparent );
Command(CPluginMngr::CPlugin* pplugin, const char* pcmd, const char* pinfo, int pflags, int pfunc, bool pviewable, CmdMngr* pparent);
~Command(); ~Command();
public: public:
inline const char* getCommand() { return command.c_str(); } inline const char* getCommand() { return command.c_str(); }
inline const char* getArgument() { return argument.c_str(); } inline const char* getArgument() { return argument.c_str(); }
inline const char* getCmdInfo() { return info.c_str(); } inline const char* getCmdInfo() { return info.c_str(); }
inline const char* getCmdLine() { return commandline.c_str(); } inline const char* getCmdLine() { return commandline.c_str(); }
inline bool matchCommandLine(const char* cmd, const char* arg) { return (!stricmp(command.c_str() + prefix, cmd + prefix) && (argument.empty() || !stricmp(argument.c_str(), arg))); } inline bool matchCommandLine(const char* cmd, const char* arg) { return (!stricmp(command.c_str()+prefix, cmd+prefix ) && (argument.empty() || !stricmp(argument.c_str() , arg ))); }
inline bool matchCommand(const char* cmd) { return (!strcmp(command.c_str(), cmd)); } inline bool matchCommand(const char* cmd) { return (!strcmp(command.c_str(), cmd )); }
inline int getFunction() const { return function; } inline int getFunction() const { return function; }
inline bool gotAccess(int f) const { return (!flags || ((flags & f) == flags)); } inline bool gotAccess(int f) const { return (!flags||((flags & f)==flags)); }
inline CPluginMngr::CPlugin* getPlugin() { return plugin; } inline CPluginMngr::CPlugin* getPlugin() { return plugin; }
inline bool isViewable() const { return listable; } inline bool isViewable() const { return listable; }
inline int getFlags() const { return flags; } inline int getFlags() const { return flags; }
inline long int getId() const { return (long int)id; } inline long int getId() const { return (long int)id; }
const char* getCmdType() const; const char* getCmdType() const;
void setCmdType(int a); void setCmdType( int a );
}; };
private: private:
struct CmdPrefix; struct CmdPrefix;
friend struct CmdPrefix; friend struct CmdPrefix;
struct CmdLink struct CmdLink {
{
Command* cmd; Command* cmd;
CmdLink* next; CmdLink* next;
CmdLink(Command* c): cmd(c), next(0) {} CmdLink(Command* c): cmd(c), next(0) {}
@ -103,40 +99,36 @@ private:
CmdLink* srvcmdlist; CmdLink* srvcmdlist;
CmdLink* clcmdlist; CmdLink* clcmdlist;
struct CmdPrefix struct CmdPrefix {
{
String name; String name;
CmdMngr* parent; CmdMngr* parent;
CmdLink* list; CmdLink* list;
CmdPrefix* next; CmdPrefix* next;
CmdPrefix(const char* nn, CmdMngr* pp): name(nn), parent(pp), list(0), next(0) {} CmdPrefix( const char* nn , CmdMngr* pp) : name(nn),parent(pp),list(0),next(0){}
~CmdPrefix() { parent->clearCmdLink(&list); } ~CmdPrefix(){ parent->clearCmdLink(&list); }
} *prefixHead; } *prefixHead;
bool registerCmdPrefix(Command* cc); bool registerCmdPrefix( Command* cc );
CmdPrefix** findPrefix(const char* nn); CmdPrefix** findPrefix( const char* nn );
void clearPrefix(); void clearPrefix();
void setCmdLink(CmdLink** a, Command* c, bool sorted = true); void setCmdLink( CmdLink** a , Command* c, bool sorted = true );
void clearCmdLink(CmdLink** phead, bool pclear = false); void clearCmdLink( CmdLink** phead, bool pclear = false );
public: public:
CmdMngr(); CmdMngr();
~CmdMngr() { clear(); } ~CmdMngr() {clear();}
// Interface // Interface
void registerPrefix(const char* nn); void registerPrefix( const char* nn );
Command* registerCommand( CPluginMngr::CPlugin* plugin , int func , char* cmd , char* info , int level , bool listable );
Command* registerCommand(CPluginMngr::CPlugin* plugin, int func, char* cmd, char* info, int level, bool listable); Command* getCmd( long int id ,int type, int access);
Command* getCmd(long int id, int type, int access); int getCmdNum( int type, int access );
int getCmdNum(int type, int access);
void clearBufforedInfo(); void clearBufforedInfo();
void clear(); void clear();
class iterator class iterator {
{
CmdLink *a; CmdLink *a;
public: public:
iterator(CmdLink*aa = 0) : a(aa) {} iterator(CmdLink*aa = 0) : a(aa) {}
@ -146,30 +138,28 @@ public:
operator bool () const { return a ? true : false; } operator bool () const { return a ? true : false; }
Command& operator*() { return *a->cmd; } Command& operator*() { return *a->cmd; }
}; };
inline iterator clcmdprefixbegin(const char* nn){
inline iterator clcmdprefixbegin(const char* nn)
{
CmdPrefix* a = *findPrefix(nn); CmdPrefix* a = *findPrefix(nn);
return iterator(a ? a->list : 0); return iterator( a ? a->list : 0 );
} }
inline iterator clcmdbegin() const {return iterator(clcmdlist);}
inline iterator clcmdbegin() const { return iterator(clcmdlist); } inline iterator srvcmdbegin() const {return iterator(srvcmdlist);}
inline iterator srvcmdbegin() const { return iterator(srvcmdlist); } inline iterator begin( int type ) const { return iterator(sortedlists[type]); }
inline iterator begin(int type) const { return iterator(sortedlists[type]); }
inline iterator end() const { return iterator(0); } inline iterator end() const { return iterator(0); }
private: private:
int buf_cmdid; int buf_cmdid;
int buf_cmdtype; int buf_cmdtype;
int buf_cmdaccess; int buf_cmdaccess;
iterator buf_cmdptr; iterator buf_cmdptr;
int buf_id; int buf_id;
int buf_type; int buf_type;
int buf_access; int buf_access;
int buf_num; int buf_num;
}; };
#endif //COMMANDS_H #endif

176
amxmodx/CEvent.cpp
View File

@ -36,7 +36,7 @@
// class ClEvent // class ClEvent
// ***************************************************** // *****************************************************
EventsMngr::ClEvent::ClEvent(CPluginMngr::CPlugin* plugin, int func, int flags) EventsMngr::ClEvent::ClEvent(CPluginMngr::CPlugin* plugin, int func, int flags)
{ {
m_Plugin = plugin; m_Plugin = plugin;
m_Func = func; m_Func = func;
@ -45,14 +45,13 @@ EventsMngr::ClEvent::ClEvent(CPluginMngr::CPlugin* plugin, int func, int flags)
m_FlagAlive = true; m_FlagAlive = true;
m_FlagDead = true; m_FlagDead = true;
m_FlagWorld = (flags & 1) ? true : false; // flag a m_FlagWorld = (flags & 1) ? true : false; // flag a
m_FlagPlayer = (flags & 2) ? true : false; // flag b m_FlagPlayer = (flags & 2) ? true : false; // flag b
m_FlagOnce = (flags & 4) ? true : false; // flag c m_FlagOnce = (flags & 4) ? true : false; // flag c
if (flags & 24) if (flags & 24)
{ {
m_FlagAlive = (flags & 16) ? true : false; // flag e m_FlagAlive = (flags & 16) ? true : false; // flag e
m_FlagDead = (flags & 8) ? true : false; // flag d m_FlagDead = (flags & 8) ? true : false; // flag d
} }
m_Stamp = 0.0f; m_Stamp = 0.0f;
@ -65,14 +64,12 @@ EventsMngr::ClEvent::~ClEvent()
{ {
cond_t *tmp1 = m_Conditions; cond_t *tmp1 = m_Conditions;
cond_t *tmp2 = NULL; cond_t *tmp2 = NULL;
while (tmp1) while (tmp1)
{ {
tmp2 = tmp1->next; tmp2 = tmp1->next;
delete tmp1; delete tmp1;
tmp1 = tmp2; tmp1 = tmp2;
} }
m_Conditions = NULL; m_Conditions = NULL;
} }
@ -85,17 +82,14 @@ void EventsMngr::NextParam()
MsgDataEntry *tmp = NULL; MsgDataEntry *tmp = NULL;
int tmpSize = 0; int tmpSize = 0;
if (m_ParseVault) if (m_ParseVault)
{ {
// copy to tmp // copy to tmp
tmp = new MsgDataEntry[m_ParseVaultSize]; tmp = new MsgDataEntry[m_ParseVaultSize];
if (!tmp) if (!tmp)
{ {
return; // :TODO: Error report !! return; // :TODO: Error report !!
} }
memcpy(tmp, m_ParseVault, m_ParseVaultSize * sizeof(MsgDataEntry)); memcpy(tmp, m_ParseVault, m_ParseVaultSize * sizeof(MsgDataEntry));
tmpSize = m_ParseVaultSize; tmpSize = m_ParseVaultSize;
delete [] m_ParseVault; delete [] m_ParseVault;
@ -108,7 +102,6 @@ void EventsMngr::NextParam()
m_ParseVaultSize = INITIAL_PARSEVAULT_SIZE; m_ParseVaultSize = INITIAL_PARSEVAULT_SIZE;
m_ParseVault = new MsgDataEntry[m_ParseVaultSize]; m_ParseVault = new MsgDataEntry[m_ParseVaultSize];
if (tmp) if (tmp)
{ {
memcpy(m_ParseVault, tmp, tmpSize * sizeof(MsgDataEntry)); memcpy(m_ParseVault, tmp, tmpSize * sizeof(MsgDataEntry));
@ -135,6 +128,7 @@ EventsMngr::~EventsMngr()
clearEvents(); clearEvents();
} }
CPluginMngr::CPlugin * EventsMngr::ClEvent::getPlugin() CPluginMngr::CPlugin * EventsMngr::ClEvent::getPlugin()
{ {
return m_Plugin; return m_Plugin;
@ -176,7 +170,7 @@ void EventsMngr::ClEvent::registerFilter(char *filter)
// rest of line // rest of line
tmpCond->sValue.assign(value); tmpCond->sValue.assign(value);
tmpCond->fValue = static_cast<float>(atof(value)); tmpCond->fValue = atof(value);
tmpCond->iValue = atoi(value); tmpCond->iValue = atoi(value);
tmpCond->next = NULL; tmpCond->next = NULL;
@ -184,11 +178,10 @@ void EventsMngr::ClEvent::registerFilter(char *filter)
if (m_Conditions) if (m_Conditions)
{ {
cond_t *tmp = m_Conditions; cond_t *tmp = m_Conditions;
while (tmp->next) while (tmp->next)
tmp = tmp->next; tmp = tmp->next;
tmp->next = tmpCond; tmp->next = tmpCond;
} }
else else
m_Conditions = tmpCond; m_Conditions = tmpCond;
@ -201,7 +194,6 @@ EventsMngr::ClEvent* EventsMngr::registerEvent(CPluginMngr::CPlugin* plugin, int
return NULL; return NULL;
ClEvent *event = new ClEvent(plugin, func, flags); ClEvent *event = new ClEvent(plugin, func, flags);
if (!event) if (!event)
return NULL; return NULL;
@ -224,11 +216,12 @@ void EventsMngr::parserInit(int msg_type, float* timer, CPlayer* pPlayer, int in
if (!m_Events[msg_type].size()) if (!m_Events[msg_type].size())
return; return;
for (ClEventVecIter iter = m_Events[msg_type].begin(); iter; ++iter) for(ClEventVecIter iter = m_Events[msg_type].begin(); iter; ++iter)
{ {
if ((*iter).m_Done) if ((*iter).m_Done)
continue; continue;
if (!(*iter).m_Plugin->isExecutable((*iter).m_Func)) if (!(*iter).m_Plugin->isExecutable((*iter).m_Func))
{ {
(*iter).m_Done = true; (*iter).m_Done = true;
@ -237,7 +230,7 @@ void EventsMngr::parserInit(int msg_type, float* timer, CPlayer* pPlayer, int in
if (pPlayer) if (pPlayer)
{ {
if (!(*iter).m_FlagPlayer || (pPlayer->IsAlive() ? !(*iter).m_FlagAlive : !(*iter).m_FlagDead)) if (!(*iter).m_FlagPlayer || (pPlayer->IsAlive() ? !(*iter).m_FlagAlive : !(*iter).m_FlagDead ) )
{ {
(*iter).m_Done = true; (*iter).m_Done = true;
continue; continue;
@ -254,7 +247,6 @@ void EventsMngr::parserInit(int msg_type, float* timer, CPlayer* pPlayer, int in
(*iter).m_Done = true; (*iter).m_Done = true;
continue; continue;
} }
m_ParseNotDone = true; m_ParseNotDone = true;
} }
@ -265,7 +257,6 @@ void EventsMngr::parserInit(int msg_type, float* timer, CPlayer* pPlayer, int in
m_ParseVault[0].type = MSG_INTEGER; m_ParseVault[0].type = MSG_INTEGER;
m_ParseVault[0].iValue = index; m_ParseVault[0].iValue = index;
} }
m_ParseFun = &m_Events[msg_type]; m_ParseFun = &m_Events[msg_type];
} }
@ -275,6 +266,7 @@ void EventsMngr::parseValue(int iValue)
if (!m_ParseNotDone || !m_ParseFun) if (!m_ParseNotDone || !m_ParseFun)
return; return;
// grow if needed // grow if needed
++m_ParsePos; ++m_ParsePos;
NextParam(); NextParam();
@ -292,25 +284,23 @@ void EventsMngr::parseValue(int iValue)
// loop through conditions // loop through conditions
bool execute = false; bool execute = false;
bool anyConditions = false; bool anyConditions = false;
for (ClEvent::cond_t *condIter = (*iter).m_Conditions; condIter; condIter = condIter->next) for (ClEvent::cond_t *condIter = (*iter).m_Conditions; condIter; condIter = condIter->next)
{ {
if (condIter->paramId == m_ParsePos) if (condIter->paramId == m_ParsePos)
{ {
anyConditions = true; anyConditions = true;
switch (condIter->type) switch(condIter->type)
{ {
case '=': if (condIter->iValue == iValue) execute = true; break; case '=': if (condIter->iValue == iValue) execute=true; break;
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; 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) if (execute)
break; break;
} }
} }
if (anyConditions && !execute) if (anyConditions && !execute)
(*iter).m_Done = true; // don't execute (*iter).m_Done = true; // don't execute
} }
@ -322,6 +312,7 @@ void EventsMngr::parseValue(float fValue)
if (!m_ParseNotDone || !m_ParseFun) if (!m_ParseNotDone || !m_ParseFun)
return; return;
// grow if needed // grow if needed
++m_ParsePos; ++m_ParsePos;
NextParam(); NextParam();
@ -339,25 +330,22 @@ void EventsMngr::parseValue(float fValue)
// loop through conditions // loop through conditions
bool execute = false; bool execute = false;
bool anyConditions = false; bool anyConditions = false;
for (ClEvent::cond_t *condIter = (*iter).m_Conditions; condIter; condIter = condIter->next) for (ClEvent::cond_t *condIter = (*iter).m_Conditions; condIter; condIter = condIter->next)
{ {
if (condIter->paramId == m_ParsePos) if (condIter->paramId == m_ParsePos)
{ {
anyConditions = true; anyConditions = true;
switch (condIter->type) switch(condIter->type)
{ {
case '=': if (condIter->fValue == fValue) execute = true; break; case '=': if (condIter->fValue == fValue) execute=true; break;
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;
case '>': if (fValue > condIter->fValue) execute = true; break; case '>': if (fValue > condIter->fValue) execute=true; break;
} }
if (execute) if (execute)
break; break;
} }
} }
if (anyConditions && !execute) if (anyConditions && !execute)
(*iter).m_Done = true; // don't execute (*iter).m_Done = true; // don't execute
} }
@ -386,24 +374,21 @@ void EventsMngr::parseValue(const char *sz)
// loop through conditions // loop through conditions
bool execute = false; bool execute = false;
bool anyConditions = false; bool anyConditions = false;
for (ClEvent::cond_t *condIter = (*iter).m_Conditions; condIter; condIter = condIter->next) for (ClEvent::cond_t *condIter = (*iter).m_Conditions; condIter; condIter = condIter->next)
{ {
if (condIter->paramId == m_ParsePos) if (condIter->paramId == m_ParsePos)
{ {
anyConditions = true; anyConditions = true;
switch (condIter->type) 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 (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; case '&': if (strstr(sz, condIter->sValue.c_str())) execute=true; break;
} }
if (execute) if (execute)
break; break;
} }
} }
if (anyConditions && !execute) if (anyConditions && !execute)
(*iter).m_Done = true; // don't execute (*iter).m_Done = true; // don't execute
} }
@ -411,22 +396,41 @@ void EventsMngr::parseValue(const char *sz)
void EventsMngr::executeEvents() void EventsMngr::executeEvents()
{ {
int err;
if (!m_ParseFun) if (!m_ParseFun)
{ {
return; return;
} }
for (ClEventVecIter iter = m_ParseFun->begin(); iter; ++iter) #ifdef ENABLEEXEPTIONS
try
{ {
if ((*iter).m_Done) #endif // #ifdef ENABLEEXEPTIONS
for (ClEventVecIter iter = m_ParseFun->begin(); iter; ++iter)
{ {
(*iter).m_Done = false; if ( (*iter).m_Done )
continue; {
(*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());
}
} }
(*iter).m_Stamp = (float)*m_Timer; #ifdef ENABLEEXEPTIONS
executeForwards((*iter).m_Func, static_cast<cell>(m_ParseVault ? m_ParseVault[0].iValue : 0));
} }
catch( ... )
{
AMXXLOG_Log( "[AMXX] fatal error at event execution");
}
#endif // #ifdef ENABLEEXEPTIONS
m_CurrentMsgType = -1; m_CurrentMsgType = -1;
m_ParseFun = NULL; m_ParseFun = NULL;
@ -439,53 +443,53 @@ int EventsMngr::getArgNum() const
const char* EventsMngr::getArgString(int a) const const char* EventsMngr::getArgString(int a) const
{ {
if (a < 0 || a > m_ParsePos) if ( a < 0 || a > m_ParsePos )
return ""; return "";
static char var[32]; static char var[32];
switch (m_ParseVault[a].type) switch(m_ParseVault[a].type)
{ {
case MSG_INTEGER: case MSG_INTEGER:
sprintf(var, "%d", m_ParseVault[a].iValue); sprintf( var, "%d", m_ParseVault[a].iValue );
return var; return var;
case MSG_STRING: case MSG_STRING:
return m_ParseVault[a].sValue; return m_ParseVault[a].sValue;
default: default:
sprintf(var, "%g", m_ParseVault[a].fValue); sprintf( var, "%g", m_ParseVault[a].fValue );
return var; return var;
} }
} }
int EventsMngr::getArgInteger(int a) const int EventsMngr::getArgInteger(int a) const
{ {
if (a < 0 || a > m_ParsePos) if ( a < 0 || a > m_ParsePos )
return 0; return 0;
switch (m_ParseVault[a].type) switch(m_ParseVault[a].type)
{ {
case MSG_INTEGER: case MSG_INTEGER:
return m_ParseVault[a].iValue; return m_ParseVault[a].iValue;
case MSG_STRING: case MSG_STRING:
return atoi(m_ParseVault[a].sValue); return atoi(m_ParseVault[a].sValue);
default: default:
return (int)m_ParseVault[a].fValue; return (int)m_ParseVault[a].fValue;
} }
} }
float EventsMngr::getArgFloat(int a) const float EventsMngr::getArgFloat(int a) const
{ {
if (a < 0 || a > m_ParsePos) if ( a < 0 || a > m_ParsePos )
return 0.0f; return 0.0f;
switch (m_ParseVault[a].type) switch(m_ParseVault[a].type)
{ {
case MSG_INTEGER: case MSG_INTEGER:
return static_cast<float>(m_ParseVault[a].iValue); return m_ParseVault[a].iValue;
case MSG_STRING: case MSG_STRING:
return static_cast<float>(atof(m_ParseVault[a].sValue)); return atof(m_ParseVault[a].sValue);
default: default:
return m_ParseVault[a].fValue; return m_ParseVault[a].fValue;
} }
} }
@ -495,7 +499,6 @@ void EventsMngr::clearEvents(void)
{ {
m_Events[i].clear(); m_Events[i].clear();
} }
// delete parsevault // delete parsevault
if (m_ParseVault) if (m_ParseVault)
{ {
@ -514,26 +517,25 @@ int EventsMngr::getEventId(const char* msg)
CS_EventsIds id; CS_EventsIds id;
} table[] = } table[] =
{ {
{"CS_DeathMsg", CS_DeathMsg}, { "CS_DeathMsg" , CS_DeathMsg },
// {"CS_RoundEnd", CS_RoundEnd}, // { "CS_RoundEnd" , CS_RoundEnd },
// {"CS_RoundStart", CS_RoundStart}, // { "CS_RoundStart" , CS_RoundStart },
// {"CS_Restart", CS_Restart}, // { "CS_Restart" , CS_Restart },
{"", CS_Null} { "" , CS_Null }
}; };
// if msg is a number, return it // if msg is a number, return it
int pos = atoi(msg); int pos = atoi(msg);
if (pos != 0) if (pos != 0)
return pos; return pos;
// try to find in table first // try to find in table first
for (pos = 0; table[pos].id != CS_Null; ++pos) for (pos = 0; table[ pos ].id != CS_Null; ++pos )
if (!strcmp(table[pos].name, msg)) if ( !strcmp( table[ pos ].name , msg ) )
return table[pos].id; return table[ pos ].id;
// find the id of the message // find the id of the message
return pos = GET_USER_MSG_ID(PLID, msg, 0); return pos = GET_USER_MSG_ID(PLID, msg , 0 );
} }
int EventsMngr::getCurrentMsgType() int EventsMngr::getCurrentMsgType()

26
amxmodx/CEvent.h
View File

@ -32,10 +32,9 @@
#ifndef __CEVENTS_H__ #ifndef __CEVENTS_H__
#define __CEVENTS_H__ #define __CEVENTS_H__
#define MAX_AMX_REG_MSG MAX_REG_MSGS + 16 #define MAX_AMX_REG_MSG MAX_REG_MSGS+16
enum enum {
{
CS_DEATHMSG = MAX_REG_MSGS, CS_DEATHMSG = MAX_REG_MSGS,
// CS_ROUNDEND, // CS_ROUNDEND,
// CS_ROUNDSTART, // CS_ROUNDSTART,
@ -68,7 +67,7 @@ public:
class ClEvent class ClEvent
{ {
friend class EventsMngr; // events manager may access our private members friend class EventsMngr; // events manager may access our private members
int m_Func; // function to be executed int m_Func; // function to be executed
CPluginMngr::CPlugin *m_Plugin; // the plugin this ClEvent class is assigned to CPluginMngr::CPlugin *m_Plugin; // the plugin this ClEvent class is assigned to
@ -101,7 +100,7 @@ public:
public: public:
// constructors & destructors // constructors & destructors
ClEvent(CPluginMngr::CPlugin* plugin, int func, int flags); ClEvent(CPluginMngr::CPlugin* plugin, int func, int flags);
~ClEvent(); ~ClEvent();
inline CPluginMngr::CPlugin* getPlugin(); inline CPluginMngr::CPlugin* getPlugin();
@ -117,22 +116,21 @@ private:
const char* sValue; const char* sValue;
MsgParamType type; MsgParamType type;
}; };
MsgDataEntry *m_ParseVault; MsgDataEntry *m_ParseVault;
int m_ParseVaultSize; int m_ParseVaultSize;
void NextParam(); // make sure a new parameter can be added void NextParam(); // make sure a new parameter can be added
typedef CList<ClEvent> ClEventVec; typedef CList<ClEvent> ClEventVec;
typedef ClEventVec::iterator ClEventVecIter; typedef ClEventVec::iterator ClEventVecIter;
ClEventVec m_Events[MAX_AMX_REG_MSG]; ClEventVec m_Events[MAX_AMX_REG_MSG];
ClEventVec *m_ParseFun; // current Event vector ClEventVec *m_ParseFun; // current Event vector
bool m_ParseNotDone; bool m_ParseNotDone;
int m_ParsePos; // is args. num. - 1 int m_ParsePos; // is args. num. - 1
float* m_Timer; float* m_Timer;
ClEvent* getValidEvent(ClEvent* a); ClEvent* getValidEvent(ClEvent* a );
int m_CurrentMsgType; int m_CurrentMsgType;
public: public:
@ -142,20 +140,20 @@ public:
// Interface // Interface
ClEvent* registerEvent(CPluginMngr::CPlugin* plugin, int func, int flags, int msgid); ClEvent* registerEvent(CPluginMngr::CPlugin* plugin, int func, int flags, int msgid);
void parserInit(int msg_type, float* timer, CPlayer* pPlayer, int index); void parserInit(int msg_type, float* timer, CPlayer* pPlayer, int index);
void parseValue(int iValue); void parseValue(int iValue);
void parseValue(float fValue); void parseValue(float fValue);
void parseValue(const char *sz); void parseValue(const char *sz);
void executeEvents(); void executeEvents();
int getArgNum() const; //{ return (parsePos+1); }
int getArgNum() const; //{ return (parsePos + 1); }
const char* getArgString(int a) const; const char* getArgString(int a) const;
int getArgInteger(int a) const; int getArgInteger(int a) const;
float getArgFloat(int a) const; float getArgFloat(int a) const;
void clearEvents(void); void clearEvents(void);
static int getEventId(const char* msg); static int getEventId( const char* msg );
int getCurrentMsgType(); int getCurrentMsgType();
}; };
#endif //__CEVENTS_H__ #endif // #ifdef __CEVENTS_H__

106
amxmodx/CFile.cpp
View File

@ -36,91 +36,91 @@
// ***************************************************** // *****************************************************
// class File // class File
// ***************************************************** // *****************************************************
File::File( const char* n, const char* m )
File::File(const char* n, const char* m)
{ {
fp = fopen(n, m); fp = fopen( n , m );
} }
File::~File() File::~File( )
{ {
if (fp) if ( fp )
fclose(fp); fclose( fp );
} }
File::operator bool () const File::operator bool ( ) const
{ {
return fp && !feof(fp); return fp && !feof(fp);
} }
File& operator<<(File& f, const String& n) File& operator<<( File& f, const String& n )
{ {
if (f) fputs(n.c_str(), f.fp); if ( f ) fputs( n.c_str() , f.fp ) ;
return f; return f;
} }
File& operator<<(File& f, const char* n) File& operator<<( File& f, const char* n )
{ {
if (f) fputs(n, f.fp); if ( f ) fputs( n , f.fp ) ;
return f; return f;
} }
File& operator<<(File& f, int n) File& operator<<( File& f, int n )
{ {
if (f) fprintf(f.fp, "%d", n); if ( f ) fprintf( f.fp , "%d" , n ) ;
return f; return f;
} }
File& operator<<(File& f, const char& c)
File& operator<<( File& f, const char& c )
{ {
if (f) fputc(c, f.fp); if ( f ) fputc( c , f.fp ) ;
return f; return f;
} }
File& operator>>(File& f, String& n) File& operator>>( File& f, String& n )
{ {
if (!f) return f; if ( !f ) return f;
char temp[1024]; char temp[1024];
fscanf(f.fp, "%s", temp); fscanf( f.fp , "%s", temp );
n.assign(temp); n.assign(temp);
return f; return f;
} }
File& operator>>(File& f, char* n) File& operator>>( File& f, char* n )
{ {
if (f) fscanf(f.fp, "%s", n); if ( f ) fscanf( f.fp , "%s", n );
return f; return f;
} }
int File::getline(char* buf, int sz) int File::getline( char* buf, int sz )
{ {
int a = sz; int a = sz;
char *origBuf = buf; char *origBuf = buf;
if ( *this )
{
int c;
while ( sz-- && (c = getc( (*this).fp)) && c != EOF && c != '\n' )
*buf++ = c;
*buf = 0;
}
if (*this) // trim 0x0a and 0x0d characters at the end
{ while (buf != origBuf)
int c; {
while (sz-- && (c = getc((*this).fp)) && c != EOF && c != '\n') if (*buf == 0x0a || *buf == 0x0d)
*buf++ = c;
*buf = 0; *buf = 0;
} --buf;
}
// trim 0x0a and 0x0d characters at the end return a - sz;
while (buf != origBuf)
{
if (*buf == 0x0a || *buf == 0x0d)
*buf = 0;
--buf;
}
return a - sz;
} }
File& File::skipWs() File& File::skipWs( )
{ {
if (!*this) return *this; if ( !*this ) return *this;
int c; int c;
while (isspace(c = getc(fp))) {}; while( isspace( c = getc( fp ) ) ){};
ungetc(c, fp); ungetc( c , fp );
return *this; return *this;
} }

29
amxmodx/CFile.h
View File

@ -41,19 +41,18 @@ class File
FILE* fp; FILE* fp;
public: public:
File(const char* n, const char* m); File( const char* n, const char* m );
~File(); ~File( );
operator bool ( ) const;
operator bool () const; friend File& operator<<( File& f, const String& n );
friend File& operator<<( File& f, const char* n );
friend File& operator<<(File& f, const String& n); friend File& operator<<( File& f, const char& c );
friend File& operator<<(File& f, const char* n); friend File& operator<<( File& f, int n );
friend File& operator<<(File& f, const char& c); friend File& operator>>( File& f, String& n );
friend File& operator<<(File& f, int n); friend File& operator>>( File& f, char* n );
friend File& operator>>(File& f, String& n); int getline( char* buf, int sz );
friend File& operator>>(File& f, char* n); File& skipWs( );
int getline(char* buf, int sz);
File& skipWs();
}; };

365
amxmodx/CForward.cpp
View File

@ -30,21 +30,17 @@
*/ */
#include "amxmodx.h" #include "amxmodx.h"
#include "debugger.h"
CForward::CForward(const char *name, ForwardExecType et, int numParams, const ForwardParam *paramTypes) CForward::CForward(const char *name, ForwardExecType et, int numParams, const ForwardParam *paramTypes)
{ {
m_FuncName = name; m_FuncName = name;
m_ExecType = et; m_ExecType = et;
m_NumParams = numParams; m_NumParams = numParams;
memcpy((void *)m_ParamTypes, paramTypes, numParams * sizeof(ForwardParam)); memcpy((void *)m_ParamTypes, paramTypes, numParams * sizeof(ForwardParam));
// find funcs // find funcs
int func; int func;
AMXForward *tmp = NULL; AMXForward *tmp = NULL;
m_Funcs.clear(); m_Funcs.clear();
for (CPluginMngr::iterator iter = g_plugins.begin(); iter; ++iter) for (CPluginMngr::iterator iter = g_plugins.begin(); iter; ++iter)
{ {
if ((*iter).isValid() && amx_FindPublic((*iter).getAMX(), name, &func) == AMX_ERR_NONE) if ((*iter).isValid() && amx_FindPublic((*iter).getAMX(), name, &func) == AMX_ERR_NONE)
@ -74,77 +70,47 @@ cell CForward::execute(cell *params, ForwardPreparedArray *preparedArrays)
{ {
if (iter->pPlugin->isExecutable(iter->func)) if (iter->pPlugin->isExecutable(iter->func))
{ {
// Get debug info
AMX *amx = (*iter).pPlugin->getAMX();
Debugger *pDebugger = (Debugger *)amx->userdata[UD_DEBUGGER];
if (pDebugger)
pDebugger->BeginExec();
// handle strings & arrays // handle strings & arrays
int i, ax = 0; int i;
for (i = 0; i < m_NumParams; ++i) for (i = 0; i < m_NumParams; ++i)
{ {
if (m_ParamTypes[i] == FP_STRING || m_ParamTypes[i] == FP_STRINGEX) if (m_ParamTypes[i] == FP_STRING || m_ParamTypes[i] == FP_STRINGEX)
{ {
const char *str = reinterpret_cast<const char*>(params[i]);
cell *tmp; cell *tmp;
if (!str) amx_Allot(iter->pPlugin->getAMX(),
str = ""; (m_ParamTypes[i] == FP_STRING) ? strlen(reinterpret_cast<const char*>(params[i]))+1 : STRINGEX_MAXLENGTH,
amx_Allot(iter->pPlugin->getAMX(), (m_ParamTypes[i] == FP_STRING) ? strlen(str) + 1 : STRINGEX_MAXLENGTH, &realParams[i], &tmp); &realParams[i], &tmp);
amx_SetStringOld(tmp, str, 0, 0); amx_SetString(tmp, (const char *)(params[i]), 0, 0);
physAddrs[i] = tmp; physAddrs[i] = tmp;
} }
else if (m_ParamTypes[i] == FP_ARRAY) else if (m_ParamTypes[i] == FP_ARRAY)
{ {
cell *tmp; cell *tmp;
amx_Allot(amx, preparedArrays[params[i]].size, &realParams[i], &tmp); amx_Allot(iter->pPlugin->getAMX(), preparedArrays[params[i]].size,
&realParams[i], &tmp);
physAddrs[i] = tmp; physAddrs[i] = tmp;
if (preparedArrays[params[i]].type == Type_Cell) if (preparedArrays[params[i]].type == Type_Cell)
{ {
memcpy(tmp, preparedArrays[params[i]].ptr, preparedArrays[params[i]].size * sizeof(cell)); memcpy(tmp, preparedArrays[params[i]].ptr, preparedArrays[params[i]].size * sizeof(cell));
} else { }
else
{
char *data = (char*)preparedArrays[params[i]].ptr; char *data = (char*)preparedArrays[params[i]].ptr;
for (unsigned int j = 0; j < preparedArrays[params[i]].size; ++j) for (unsigned int j = 0; j < preparedArrays[params[i]].size; ++j)
*tmp++ = (static_cast<cell>(*data++)) & 0xFF; *tmp++ = (static_cast<cell>(*data++)) & 0xFF;
} }
} else { }
else
{
realParams[i] = params[i]; realParams[i] = params[i];
} }
} }
//Push the parameters in reverse order. Weird, unfriendly part of Small 3.0!
for (i = m_NumParams-1; i >= 0; i--)
{
amx_Push(amx, realParams[i]);
}
// exec // exec
cell retVal; cell retVal;
int err = amx_Exec(amx, &retVal, iter->func); int err = amx_Execv(iter->pPlugin->getAMX(), &retVal, iter->func, m_NumParams, realParams);
// log runtime error, if any // log runtime error, if any
if (err != AMX_ERR_NONE) if (err != AMX_ERR_NONE)
{ AMXXLOG_Log("[AMXX] Run time error %d on line %ld (plugin \"%s\")", err, iter->pPlugin->getAMX()->curline, iter->pPlugin->getName());
//Did something else set an error?
if (pDebugger && pDebugger->ErrorExists())
{
//we don't care, something else logged the error.
}
else if (err != -1)
{
//nothing logged the error so spit it out anyway
LogError(amx, err, NULL);
}
}
amx->error = AMX_ERR_NONE;
if (pDebugger)
pDebugger->EndExec();
// cleanup strings & arrays // cleanup strings & arrays
for (i = 0; i < m_NumParams; ++i) for (i = 0; i < m_NumParams; ++i)
@ -156,24 +122,22 @@ cell CForward::execute(cell *params, ForwardPreparedArray *preparedArrays)
else if (m_ParamTypes[i] == FP_STRINGEX) else if (m_ParamTypes[i] == FP_STRINGEX)
{ {
// copy back // copy back
amx_GetStringOld(reinterpret_cast<char*>(params[i]), physAddrs[i], 0); amx_GetString(reinterpret_cast<char*>(params[i]), physAddrs[i], 0);
amx_Release(iter->pPlugin->getAMX(), realParams[i]); amx_Release(iter->pPlugin->getAMX(), realParams[i]);
} }
else if (m_ParamTypes[i] == FP_ARRAY) else if (m_ParamTypes[i] == FP_ARRAY)
{ {
// copy back // copy back
if (preparedArrays[params[i]].copyBack) cell *tmp = physAddrs[i];
if (preparedArrays[params[i]].type == Type_Cell)
{ {
cell *tmp = physAddrs[i]; memcpy(preparedArrays[params[i]].ptr, tmp, preparedArrays[params[i]].size * sizeof(cell));
if (preparedArrays[params[i]].type == Type_Cell) }
{ else
memcpy(preparedArrays[params[i]].ptr, tmp, preparedArrays[params[i]].size * sizeof(cell)); {
} else { char *data = (char*)preparedArrays[params[i]].ptr;
char *data = (char*)preparedArrays[params[i]].ptr; for (unsigned int j = 0; j < preparedArrays[params[i]].size; ++j)
*data++ = static_cast<char>(*tmp++ & 0xFF);
for (unsigned int j = 0; j < preparedArrays[params[i]].size; ++j)
*data++ = static_cast<char>(*tmp++ & 0xFF);
}
} }
amx_Release(iter->pPlugin->getAMX(), realParams[i]); amx_Release(iter->pPlugin->getAMX(), realParams[i]);
} }
@ -182,25 +146,24 @@ cell CForward::execute(cell *params, ForwardPreparedArray *preparedArrays)
// decide what to do (based on exectype and retval) // decide what to do (based on exectype and retval)
switch (m_ExecType) switch (m_ExecType)
{ {
case ET_IGNORE: case ET_IGNORE:
break; break;
case ET_STOP: case ET_STOP:
if (retVal > 0) if (retVal > 0)
return retVal; return retVal;
case ET_STOP2: case ET_STOP2:
if (retVal == 1) if (retVal == 1)
return 1; return 1;
else if (retVal > globRetVal) else if (retVal > globRetVal)
globRetVal = retVal; globRetVal = retVal;
break; break;
case ET_CONTINUE: case ET_CONTINUE:
if (retVal > globRetVal) if (retVal > globRetVal)
globRetVal = retVal; globRetVal = retVal;
break; break;
} }
} }
} }
return globRetVal; return globRetVal;
} }
@ -211,7 +174,6 @@ void CSPForward::Set(int func, AMX *amx, int numParams, const ForwardParam *para
m_NumParams = numParams; m_NumParams = numParams;
memcpy((void *)m_ParamTypes, paramTypes, numParams * sizeof(ForwardParam)); memcpy((void *)m_ParamTypes, paramTypes, numParams * sizeof(ForwardParam));
m_HasFunc = true; m_HasFunc = true;
isFree = false;
} }
void CSPForward::Set(const char *funcName, AMX *amx, int numParams, const ForwardParam *paramTypes) void CSPForward::Set(const char *funcName, AMX *amx, int numParams, const ForwardParam *paramTypes)
@ -220,14 +182,10 @@ void CSPForward::Set(const char *funcName, AMX *amx, int numParams, const Forwar
m_NumParams = numParams; m_NumParams = numParams;
memcpy((void *)m_ParamTypes, paramTypes, numParams * sizeof(ForwardParam)); memcpy((void *)m_ParamTypes, paramTypes, numParams * sizeof(ForwardParam));
m_HasFunc = (amx_FindPublic(amx, funcName, &m_Func) == AMX_ERR_NONE); m_HasFunc = (amx_FindPublic(amx, funcName, &m_Func) == AMX_ERR_NONE);
isFree = false;
} }
cell CSPForward::execute(cell *params, ForwardPreparedArray *preparedArrays) cell CSPForward::execute(cell *params, ForwardPreparedArray *preparedArrays)
{ {
if (isFree)
return 0;
const int STRINGEX_MAXLENGTH = 128; const int STRINGEX_MAXLENGTH = 128;
cell realParams[FORWARD_MAX_PARAMS]; cell realParams[FORWARD_MAX_PARAMS];
@ -240,70 +198,45 @@ cell CSPForward::execute(cell *params, ForwardPreparedArray *preparedArrays)
if (!pPlugin->isExecutable(m_Func)) if (!pPlugin->isExecutable(m_Func))
return 0; return 0;
Debugger *pDebugger = (Debugger *)m_Amx->userdata[UD_DEBUGGER];
if (pDebugger)
pDebugger->BeginExec();
// handle strings & arrays // handle strings & arrays
int i; int i;
for (i = 0; i < m_NumParams; ++i) for (i = 0; i < m_NumParams; ++i)
{ {
if (m_ParamTypes[i] == FP_STRING || m_ParamTypes[i] == FP_STRINGEX) if (m_ParamTypes[i] == FP_STRING || m_ParamTypes[i] == FP_STRINGEX)
{ {
const char *str = reinterpret_cast<const char*>(params[i]);
if (!str)
str = "";
cell *tmp; cell *tmp;
amx_Allot(m_Amx, (m_ParamTypes[i] == FP_STRING) ? strlen(str) + 1 : STRINGEX_MAXLENGTH, &realParams[i], &tmp); amx_Allot(m_Amx,
amx_SetStringOld(tmp, str, 0, 0); (m_ParamTypes[i] == FP_STRING) ? strlen(reinterpret_cast<const char*>(params[i]))+1 : STRINGEX_MAXLENGTH,
&realParams[i], &tmp);
amx_SetString(tmp, (const char *)(params[i]), 0, 0);
physAddrs[i] = tmp; physAddrs[i] = tmp;
} }
else if (m_ParamTypes[i] == FP_ARRAY) else if (m_ParamTypes[i] == FP_ARRAY)
{ {
cell *tmp; cell *tmp;
amx_Allot(m_Amx, preparedArrays[params[i]].size, &realParams[i], &tmp); amx_Allot(m_Amx, preparedArrays[params[i]].size,
&realParams[i], &tmp);
physAddrs[i] = tmp; physAddrs[i] = tmp;
if (preparedArrays[params[i]].type == Type_Cell) if (preparedArrays[params[i]].type == Type_Cell)
{ {
memcpy(tmp, preparedArrays[params[i]].ptr, preparedArrays[params[i]].size * sizeof(cell)); memcpy(tmp, preparedArrays[params[i]].ptr, preparedArrays[params[i]].size * sizeof(cell));
} else { }
else
{
char *data = (char*)preparedArrays[params[i]].ptr; char *data = (char*)preparedArrays[params[i]].ptr;
for (unsigned int j = 0; j < preparedArrays[params[i]].size; ++j) for (unsigned int j = 0; j < preparedArrays[params[i]].size; ++j)
*tmp++ = (static_cast<cell>(*data++)) & 0xFF; *tmp++ = (static_cast<cell>(*data++)) & 0xFF;
} }
} else { }
else
{
realParams[i] = params[i]; realParams[i] = params[i];
} }
} }
for (i = m_NumParams - 1; i >= 0; i--)
amx_Push(m_Amx, realParams[i]);
// exec // exec
cell retVal; cell retVal;
int err = amx_Exec(m_Amx, &retVal, m_Func); amx_Execv(m_Amx, &retVal, m_Func, m_NumParams, realParams);
if (err != AMX_ERR_NONE)
{
//Did something else set an error?
if (pDebugger && pDebugger->ErrorExists())
{
//we don't care, something else logged the error.
}
else if (err != -1)
{
//nothing logged the error so spit it out anyway
LogError(m_Amx, err, NULL);
}
}
if (pDebugger)
pDebugger->EndExec();
m_Amx->error = AMX_ERR_NONE;
// cleanup strings & arrays // cleanup strings & arrays
for (i = 0; i < m_NumParams; ++i) for (i = 0; i < m_NumParams; ++i)
@ -315,24 +248,22 @@ cell CSPForward::execute(cell *params, ForwardPreparedArray *preparedArrays)
else if (m_ParamTypes[i] == FP_STRINGEX) else if (m_ParamTypes[i] == FP_STRINGEX)
{ {
// copy back // copy back
amx_GetStringOld(reinterpret_cast<char*>(params[i]), physAddrs[i], 0); amx_GetString(reinterpret_cast<char*>(params[i]), physAddrs[i], 0);
amx_Release(m_Amx, realParams[i]); amx_Release(m_Amx, realParams[i]);
} }
else if (m_ParamTypes[i] == FP_ARRAY) else if (m_ParamTypes[i] == FP_ARRAY)
{ {
// copy back // copy back
if (preparedArrays[params[i]].copyBack) cell *tmp = physAddrs[i];
if (preparedArrays[params[i]].type == Type_Cell)
{ {
cell *tmp = physAddrs[i]; memcpy(preparedArrays[params[i]].ptr, tmp, preparedArrays[params[i]].size * sizeof(cell));
if (preparedArrays[params[i]].type == Type_Cell) }
{ else
memcpy(preparedArrays[params[i]].ptr, tmp, preparedArrays[params[i]].size * sizeof(cell)); {
} else { char *data = (char*)preparedArrays[params[i]].ptr;
char *data = (char*)preparedArrays[params[i]].ptr; for (unsigned int j = 0; j < preparedArrays[params[i]].size; ++j)
*data++ = static_cast<char>(*tmp++ & 0xFF);
for (unsigned int j = 0; j < preparedArrays[params[i]].size; ++j)
*data++ = static_cast<char>(*tmp++ & 0xFF);
}
} }
amx_Release(m_Amx, realParams[i]); amx_Release(m_Amx, realParams[i]);
} }
@ -345,48 +276,30 @@ int CForwardMngr::registerForward(const char *funcName, ForwardExecType et, int
{ {
int retVal = m_Forwards.size() << 1; int retVal = m_Forwards.size() << 1;
CForward *tmp = new CForward(funcName, et, numParams, paramTypes); CForward *tmp = new CForward(funcName, et, numParams, paramTypes);
if (!tmp) if (!tmp)
return -1; // should be invalid return -1; // should be invalid
m_Forwards.push_back(tmp); m_Forwards.push_back(tmp);
return retVal; return retVal;
} }
int CForwardMngr::registerSPForward(int func, AMX *amx, int numParams, const ForwardParam *paramTypes) int CForwardMngr::registerSPForward(int func, AMX *amx, int numParams, const ForwardParam *paramTypes)
{ {
int retVal = -1; int retVal = (m_SPForwards.size() << 1) | 1;
CSPForward *pForward; CSPForward *pForward;
if (m_FreeSPForwards.size())
if (!m_FreeSPForwards.empty()) {
pForward = m_SPForwards[m_FreeSPForwards.back()];
m_FreeSPForwards.pop_back();
pForward->Set(func, amx, numParams, paramTypes);
}
else
{ {
retVal = m_FreeSPForwards.front();
pForward = m_SPForwards[retVal >> 1];
pForward->Set(func, amx, numParams, paramTypes);
if (pForward->getFuncsNum() == 0)
return -1;
m_FreeSPForwards.pop();
} else {
retVal = (m_SPForwards.size() << 1) | 1;
pForward = new CSPForward(); pForward = new CSPForward();
if (!pForward) if (!pForward)
return -1; return -1;
pForward->Set(func, amx, numParams, paramTypes); pForward->Set(func, amx, numParams, paramTypes);
if (pForward->getFuncsNum() == 0)
{
return -1;
delete pForward;
}
m_SPForwards.push_back(pForward); m_SPForwards.push_back(pForward);
} }
return retVal; return retVal;
} }
@ -394,58 +307,42 @@ int CForwardMngr::registerSPForward(const char *funcName, AMX *amx, int numParam
{ {
int retVal = (m_SPForwards.size() << 1) | 1; int retVal = (m_SPForwards.size() << 1) | 1;
CSPForward *pForward; CSPForward *pForward;
if (m_FreeSPForwards.size())
if (!m_FreeSPForwards.empty()) {
pForward = m_SPForwards[m_FreeSPForwards.back()];
m_FreeSPForwards.pop_back();
pForward->Set(funcName, amx, numParams, paramTypes);
}
else
{ {
retVal = m_FreeSPForwards.front();
pForward = m_SPForwards[retVal>>1]; // >>1 because unregisterSPForward pushes the id which contains the sp flag
pForward->Set(funcName, amx, numParams, paramTypes);
if (pForward->getFuncsNum() == 0)
return -1;
m_FreeSPForwards.pop();
} else {
pForward = new CSPForward(); pForward = new CSPForward();
if (!pForward) if (!pForward)
return -1; return -1;
pForward->Set(funcName, amx, numParams, paramTypes); pForward->Set(funcName, amx, numParams, paramTypes);
if (pForward->getFuncsNum() == 0)
{
delete pForward;
return -1;
}
m_SPForwards.push_back(pForward); m_SPForwards.push_back(pForward);
} }
return retVal; return retVal;
} }
bool CForwardMngr::isIdValid(int id) const bool CForwardMngr::isIdValid(int id) const
{ {
return (id >= 0) && ((id & 1) ? (static_cast<size_t>(id >> 1) < m_SPForwards.size()) : (static_cast<size_t>(id >> 1) < m_Forwards.size())); return (id >= 0) && ((id & 1) ?
(static_cast<size_t>(id >> 1) < m_SPForwards.size()) :
(static_cast<size_t>(id >> 1) < m_Forwards.size()));
} }
cell CForwardMngr::executeForwards(int id, cell *params) cell CForwardMngr::executeForwards(int id, cell *params)
{ {
int retVal = (id & 1) ? m_SPForwards[id >> 1]->execute(params, m_TmpArrays) : m_Forwards[id >> 1]->execute(params, m_TmpArrays); int retVal = (id & 1) ? m_SPForwards[id >> 1]->execute(params, m_TmpArrays) :
m_Forwards[id >> 1]->execute(params, m_TmpArrays);
m_TmpArraysNum = 0; m_TmpArraysNum = 0;
return retVal; return retVal;
} }
int CForwardMngr::getParamsNum(int id) const int CForwardMngr::getParamsNum(int id) const
{ {
return (id & 1) ? m_SPForwards[id >> 1]->getParamsNum() : m_Forwards[id >> 1]->getParamsNum(); return (id & 1) ? m_SPForwards[id >> 1]->getParamsNum() :
} m_Forwards[id >> 1]->getParamsNum();
ForwardParam CForwardMngr::getParamType(int id, int paramNum) const
{
return (id & 1) ? m_SPForwards[id >> 1]->getParamType(paramNum) : m_Forwards[id >> 1]->getParamType(paramNum);
} }
void CForwardMngr::clear() void CForwardMngr::clear()
@ -454,9 +351,7 @@ void CForwardMngr::clear()
{ {
delete *iter; delete *iter;
} }
SPForwardVec::iterator spIter; SPForwardVec::iterator spIter;
for (spIter = m_SPForwards.begin(); spIter != m_SPForwards.end(); ++spIter) for (spIter = m_SPForwards.begin(); spIter != m_SPForwards.end(); ++spIter)
{ {
delete (*spIter); delete (*spIter);
@ -464,10 +359,7 @@ void CForwardMngr::clear()
m_Forwards.clear(); m_Forwards.clear();
m_SPForwards.clear(); m_SPForwards.clear();
m_FreeSPForwards.clear();
while (!m_FreeSPForwards.empty())
m_FreeSPForwards.pop();
m_TmpArraysNum = 0; m_TmpArraysNum = 0;
} }
@ -478,118 +370,69 @@ bool CForwardMngr::isSPForward(int id) const
void CForwardMngr::unregisterSPForward(int id) void CForwardMngr::unregisterSPForward(int id)
{ {
//make sure the id is valid m_FreeSPForwards.push_back(id);
if (!isIdValid(id) || m_SPForwards.at(id >> 1)->isFree)
return;
m_SPForwards.at(id >> 1)->isFree = true;
m_FreeSPForwards.push(id);
}
int registerForwardC(const char *funcName, ForwardExecType et, cell *list, size_t num)
{
ForwardParam params[FORWARD_MAX_PARAMS];
for (size_t i=0; i<num; i++)
params[i] = static_cast<ForwardParam>(list[i]);
return g_forwards.registerForward(funcName, et, num, params);
} }
int registerForward(const char *funcName, ForwardExecType et, ...) int registerForward(const char *funcName, ForwardExecType et, ...)
{ {
int curParam = 0; int curParam = 0;
va_list argptr; va_list argptr;
va_start(argptr, et); va_start(argptr, et);
ForwardParam params[FORWARD_MAX_PARAMS]; ForwardParam params[FORWARD_MAX_PARAMS];
ForwardParam tmp; ForwardParam tmp;
while (true) while (true)
{ {
if (curParam == FORWARD_MAX_PARAMS) if (curParam == FORWARD_MAX_PARAMS)
break; break;
tmp = (ForwardParam)va_arg(argptr, int); tmp = (ForwardParam)va_arg(argptr, int);
if (tmp == FP_DONE) if (tmp == FP_DONE)
break; break;
params[curParam] = tmp; params[curParam] = tmp;
++curParam; ++curParam;
} }
va_end(argptr); va_end(argptr);
return g_forwards.registerForward(funcName, et, curParam, params); return g_forwards.registerForward(funcName, et, curParam, params);
} }
int registerSPForwardByNameC(AMX *amx, const char *funcName, cell *list, size_t num)
{
ForwardParam params[FORWARD_MAX_PARAMS];
for (size_t i=0; i<num; i++)
params[i] = static_cast<ForwardParam>(list[i]);
return g_forwards.registerSPForward(funcName, amx, num, params);
}
int registerSPForwardByName(AMX *amx, const char *funcName, ...) int registerSPForwardByName(AMX *amx, const char *funcName, ...)
{ {
int curParam = 0; int curParam = 0;
va_list argptr; va_list argptr;
va_start(argptr, funcName); va_start(argptr, funcName);
ForwardParam params[FORWARD_MAX_PARAMS]; ForwardParam params[FORWARD_MAX_PARAMS];
ForwardParam tmp; ForwardParam tmp;
while (true) while (true)
{ {
if (curParam == FORWARD_MAX_PARAMS) if (curParam == FORWARD_MAX_PARAMS)
break; break;
tmp = (ForwardParam)va_arg(argptr, int); tmp = (ForwardParam)va_arg(argptr, int);
if (tmp == FP_DONE) if (tmp == FP_DONE)
break; break;
params[curParam] = tmp; params[curParam] = tmp;
++curParam; ++curParam;
} }
va_end(argptr); va_end(argptr);
return g_forwards.registerSPForward(funcName, amx, curParam, params); return g_forwards.registerSPForward(funcName, amx, curParam, params);
} }
int registerSPForward(AMX *amx, int func, ...) int registerSPForward(AMX *amx, int func, ...)
{ {
int curParam = 0; int curParam = 0;
va_list argptr; va_list argptr;
va_start(argptr, func); va_start(argptr, func);
ForwardParam params[FORWARD_MAX_PARAMS]; ForwardParam params[FORWARD_MAX_PARAMS];
ForwardParam tmp; ForwardParam tmp;
while (true) while (true)
{ {
if (curParam == FORWARD_MAX_PARAMS) if (curParam == FORWARD_MAX_PARAMS)
break; break;
tmp = (ForwardParam)va_arg(argptr, int); tmp = (ForwardParam)va_arg(argptr, int);
if (tmp == FP_DONE) if (tmp == FP_DONE)
break; break;
params[curParam] = tmp; params[curParam] = tmp;
++curParam; ++curParam;
} }
va_end(argptr); va_end(argptr);
return g_forwards.registerSPForward(func, amx, curParam, params); return g_forwards.registerSPForward(func, amx, curParam, params);
} }
@ -599,58 +442,38 @@ cell executeForwards(int id, ...)
return -1; return -1;
cell params[FORWARD_MAX_PARAMS]; cell params[FORWARD_MAX_PARAMS];
int paramsNum = g_forwards.getParamsNum(id); int paramsNum = g_forwards.getParamsNum(id);
va_list argptr; va_list argptr;
va_start(argptr, id); va_start(argptr, id);
for (int i = 0; i < paramsNum && i < FORWARD_MAX_PARAMS; ++i) for (int i = 0; i < paramsNum && i < FORWARD_MAX_PARAMS; ++i)
{ {
if (g_forwards.getParamType(id, i) == FP_FLOAT) if (params[i] == FP_FLOAT)
{ {
REAL tmp = (REAL)va_arg(argptr, double); // floats get converted to doubles REAL tmp = (REAL)va_arg(argptr, double); // floats get converted to doubles
params[i] = *(cell*)&tmp; params[i] = *(cell*)&tmp;
} }
else params[i] = (cell)va_arg(argptr, cell);
params[i] = (cell)va_arg(argptr, cell);
} }
va_end(argptr); va_end(argptr);
return g_forwards.executeForwards(id, params); return g_forwards.executeForwards(id, params);
} }
cell CForwardMngr::prepareArray(void *ptr, unsigned int size, ForwardArrayElemType type, bool copyBack) cell CForwardMngr::prepareArray(void *ptr, unsigned int size, ForwardArrayElemType type)
{ {
if (m_TmpArraysNum >= FORWARD_MAX_PARAMS)
{
#ifdef MEMORY_TEST
m_validateAllAllocUnits();
#endif // MEMORY_TEST
AMXXLOG_Log("[AMXX] Forwards with more than 32 parameters are not supported (tried to prepare array # %d).", m_TmpArraysNum + 1);
m_TmpArraysNum = 0;
return -1;
}
m_TmpArrays[m_TmpArraysNum].ptr = ptr; m_TmpArrays[m_TmpArraysNum].ptr = ptr;
m_TmpArrays[m_TmpArraysNum].size = size; m_TmpArrays[m_TmpArraysNum].size = size;
m_TmpArrays[m_TmpArraysNum].type = type; m_TmpArrays[m_TmpArraysNum].type = type;
m_TmpArrays[m_TmpArraysNum].copyBack = copyBack;
return m_TmpArraysNum++; return m_TmpArraysNum++;
} }
cell prepareCellArray(cell *ptr, unsigned int size, bool copyBack) cell prepareCellArray(cell *ptr, unsigned int size)
{ {
return g_forwards.prepareArray((void*)ptr, size, Type_Cell, copyBack); return g_forwards.prepareArray((void*)ptr, size, Type_Cell);
} }
cell prepareCharArray(char *ptr, unsigned int size, bool copyBack) cell prepareCharArray(char *ptr, unsigned int size)
{ {
return g_forwards.prepareArray((void*)ptr, size, Type_Char, copyBack); return g_forwards.prepareArray((void*)ptr, size, Type_Char);
} }
void unregisterSPForward(int id) void unregisterSPForward(int id)

66
amxmodx/CForward.h
View File

@ -46,10 +46,7 @@
#ifndef FORWARD_H #ifndef FORWARD_H
#define FORWARD_H #define FORWARD_H
#include <stdarg.h> const int FORWARD_MAX_PARAMS = 16;
#include "sh_stack.h"
const int FORWARD_MAX_PARAMS = 32;
enum ForwardExecType enum ForwardExecType
{ {
@ -80,11 +77,8 @@ enum ForwardArrayElemType
struct ForwardPreparedArray struct ForwardPreparedArray
{ {
void *ptr; void *ptr;
ForwardArrayElemType type; ForwardArrayElemType type;
unsigned int size; unsigned int size;
bool copyBack;
}; };
// Normal forward // Normal forward
@ -93,41 +87,27 @@ class CForward
const char *m_FuncName; const char *m_FuncName;
ForwardExecType m_ExecType; ForwardExecType m_ExecType;
int m_NumParams; int m_NumParams;
struct AMXForward struct AMXForward
{ {
CPluginMngr::CPlugin *pPlugin; CPluginMngr::CPlugin *pPlugin;
int func; int func;
}; };
typedef CVector<AMXForward> AMXForwardList; typedef CVector<AMXForward> AMXForwardList;
AMXForwardList m_Funcs; AMXForwardList m_Funcs;
ForwardParam m_ParamTypes[FORWARD_MAX_PARAMS]; ForwardParam m_ParamTypes[FORWARD_MAX_PARAMS];
public: public:
CForward(const char *name, ForwardExecType et, int numParams, const ForwardParam * paramTypes); CForward(const char *name, ForwardExecType et, int numParams, const ForwardParam * paramTypes);
CForward() {} // leaves everything unitialized' CForward()
{ } // leaves everything unitialized'
cell execute(cell *params, ForwardPreparedArray *preparedArrays); cell execute(cell *params, ForwardPreparedArray *preparedArrays);
int getParamsNum() const int getParamsNum() const
{ {
return m_NumParams; return m_NumParams;
} }
int getFuncsNum() const int getFuncsNum() const
{ {
return m_Funcs.size(); return m_Funcs.size();
} }
ForwardParam getParamType(int paramId) const
{
if (paramId < 0 || paramId >= m_NumParams)
return FP_DONE;
return m_ParamTypes[paramId];
}
}; };
// Single plugin forward // Single plugin forward
@ -135,59 +115,45 @@ class CSPForward
{ {
const char *m_FuncName; const char *m_FuncName;
int m_NumParams; int m_NumParams;
ForwardParam m_ParamTypes[FORWARD_MAX_PARAMS]; ForwardParam m_ParamTypes[FORWARD_MAX_PARAMS];
AMX *m_Amx; AMX *m_Amx;
int m_Func; int m_Func;
bool m_HasFunc; bool m_HasFunc;
public:
bool isFree;
public: public:
CSPForward() { m_HasFunc = false; } CSPForward() { m_HasFunc = false; }
void Set(const char *funcName, AMX *amx, int numParams, const ForwardParam * paramTypes); void Set(const char *funcName, AMX *amx, int numParams, const ForwardParam * paramTypes);
void Set(int func, AMX *amx, int numParams, const ForwardParam * paramTypes); void Set(int func, AMX *amx, int numParams, const ForwardParam * paramTypes);
cell execute(cell *params, ForwardPreparedArray *preparedArrays); cell execute(cell *params, ForwardPreparedArray *preparedArrays);
int getParamsNum() const int getParamsNum() const
{ {
return m_NumParams; return m_NumParams;
} }
int getFuncsNum() const int getFuncsNum() const
{ {
return (m_HasFunc) ? 1 : 0; return (m_HasFunc) ? 1 : 0;
} }
ForwardParam getParamType(int paramId) const
{
if (paramId < 0 || paramId >= m_NumParams)
return FP_DONE;
return m_ParamTypes[paramId];
}
}; };
class CForwardMngr class CForwardMngr
{ {
typedef CVector<CForward*> ForwardVec; typedef CVector<CForward*> ForwardVec;
typedef CVector<CSPForward*> SPForwardVec; typedef CVector<CSPForward*> SPForwardVec;
typedef CStack<int> FreeSPVec; // Free SP Forwards typedef CVector<int> FreeSPVec; // Free SP Forwards
ForwardVec m_Forwards; ForwardVec m_Forwards;
SPForwardVec m_SPForwards; SPForwardVec m_SPForwards;
FreeSPVec m_FreeSPForwards; // so we don't have to free memory FreeSPVec m_FreeSPForwards; // so we don't have to free memory
ForwardPreparedArray m_TmpArrays[FORWARD_MAX_PARAMS]; // used by prepareArray ForwardPreparedArray m_TmpArrays[FORWARD_MAX_PARAMS]; // used by prepareArray
int m_TmpArraysNum; int m_TmpArraysNum;
public: public:
CForwardMngr() CForwardMngr()
{ m_TmpArraysNum = 0; } { m_TmpArraysNum = 0; }
~CForwardMngr() {} ~CForwardMngr()
{ }
// Interface // Interface
// Register normal forward // Register normal forward
@ -195,35 +161,29 @@ public:
// Register single plugin forward // Register single plugin forward
int registerSPForward(const char *funcName, AMX *amx, int numParams, const ForwardParam * paramTypes); int registerSPForward(const char *funcName, AMX *amx, int numParams, const ForwardParam * paramTypes);
int registerSPForward(int func, AMX *amx, int numParams, const ForwardParam * paramTypes); int registerSPForward(int func, AMX *amx, int numParams, const ForwardParam * paramTypes);
// Unregister single plugin forward // Unregister single plugin forward
void unregisterSPForward(int id); void unregisterSPForward(int id);
// execute forward // execute forward
cell executeForwards(int id, cell *params); cell executeForwards(int id, cell *params);
void clear(); // delete all forwards void clear(); // delete all forwards
bool isIdValid(int id) const; // check whether forward id is valid bool isIdValid(int id) const; // check whether forward id is valid
bool isSPForward(int id) const; // check whether forward is single plugin bool isSPForward(int id) const; // check whether forward is single plugin
int getParamsNum(int id) const; // get num of params of a forward int getParamsNum(int id) const; // get num of params of a forward
int getFuncsNum(int id) const; // get num of found functions of a forward int getFuncsNum(int id) const; // get num of found functions of a forward
cell prepareArray(void *ptr, unsigned int size, ForwardArrayElemType type); // prepare array
ForwardParam getParamType(int id, int paramId) const;
cell prepareArray(void *ptr, unsigned int size, ForwardArrayElemType type, bool copyBack); // prepare array
}; };
// (un)register forward // (un)register forward
int registerForward(const char *funcName, ForwardExecType et, ...); int registerForward(const char *funcName, ForwardExecType et, ...);
int registerForwardC(const char *funcName, ForwardExecType et, cell *list, size_t num);
int registerSPForwardByName(AMX *amx, const char *funcName, ...); int registerSPForwardByName(AMX *amx, const char *funcName, ...);
int registerSPForwardByNameC(AMX *amx, const char *funcName, cell *list, size_t num);
int registerSPForward(AMX *amx, int func, ...); int registerSPForward(AMX *amx, int func, ...);
void unregisterSPForward(int id); void unregisterSPForward(int id);
// execute forwards // execute forwards
cell executeForwards(int id, ...); cell executeForwards(int id, ...);
// prepare array // prepare array
cell prepareCellArray(cell *ptr, unsigned int size, bool copyBack = false); cell prepareCellArray(cell *ptr, unsigned int size);
cell prepareCharArray(char *ptr, unsigned int size, bool copyBack = false); cell prepareCharArray(char *ptr, unsigned int size);
#endif
#endif //FORWARD_H

1011
amxmodx/CLang.cpp
View File

File diff suppressed because it is too large Load Diff

122
amxmodx/CLang.h
View File

@ -32,56 +32,27 @@
#ifndef _INCLUDE_CLANG_H #ifndef _INCLUDE_CLANG_H
#define _INCLUDE_CLANG_H #define _INCLUDE_CLANG_H
#include "sh_tinyhash.h"
#define LANG_SERVER 0 #define LANG_SERVER 0
#define LANG_PLAYER -1 #define LANG_PLAYER -1
#define ERR_BADKEY 1 // Lang key not found
#define ERR_BADLANG 2 // Invalid lang
struct md5Pair struct md5Pair
{ {
String file; String file;
String val; String val;
}; };
struct keyEntry
{
String key;
uint32_t hash;
};
struct sKeyDef struct sKeyDef
{ {
String *definition; sKeyDef() { key = -1; def = 0; }
~sKeyDef() { if (def) delete def; }
int key; int key;
}; String *def;
struct lang_err
{
lang_err() : last(0.0f)
{
};
float last;
};
class defentry
{
public:
defentry() : definition(NULL)
{
};
defentry(const defentry &src)
{
definition = src.definition;
}
~defentry()
{
}
String *definition;
};
struct keytbl_val
{
keytbl_val() : index(-1)
{
};
int index;
}; };
class CLangMngr class CLangMngr
@ -97,18 +68,17 @@ class CLangMngr
~CLang(); ~CLang();
// Get the definition // Get the definition
const char *GetDef(int key, int &status); const char *GetDef(const char *key);
// Add definitions to this language // Add definitions to this language
void MergeDefinitions(CQueue <sKeyDef> & vec); void MergeDefinitions(CQueue <sKeyDef*> & vec);
// Reset this language // Reset this language
void Clear(); void Clear();
// compare this language to a language name // compare this language to a language name
friend bool operator == (const CLang &left, const char *right) friend bool operator == (const CLang &left, const char *right)
{ {
return strcmp(left.m_LanguageName, right) == 0 ? true : false; return strcmp(left.m_LanguageName, right)==0 ? true : false;
} }
// Get language name // Get language name
const char *GetName() { return m_LanguageName; } const char *GetName() { return m_LanguageName; }
// Save to file // Save to file
@ -118,25 +88,64 @@ class CLangMngr
bool Load(FILE *fp); bool Load(FILE *fp);
void SetMngr(CLangMngr *l) { m_LMan = l; } void SetMngr(CLangMngr *l) { m_LMan = l; }
// Get number of entries // Get number of entries
int Entries(); int Entries() { return m_LookUpTable.size(); }
// Make a hash from a string; convert to lowercase first if needed
static uint32_t MakeHash(const char *src, bool makeLower = false);
protected: protected:
typedef THash<int, defentry> LookUpVec;
typedef LookUpVec::iterator LookUpVecIter; // An entry in the language
class LangEntry
{
// the definition hash
uint32_t m_DefHash;
// index into the lookup table?
int key;
// the definition
String m_pDef;
// is this from the cache or not?
bool m_isCache;
public:
// Set
void SetKey(int key);
void SetDef(const char *pDef);
void SetCache(bool c);
// Get
uint32_t GetDefHash();
int GetKey();
const char *GetDef();
int GetDefLength();
bool GetCache();
// Constructors / destructors
LangEntry();
LangEntry(int key);
LangEntry(int key, const char *pDef);
LangEntry(const LangEntry &other);
LangEntry(int pKey, uint32_t defHash, const char *pDef);
// Reset
void Clear();
};
// Get (construct if needed) an entry
LangEntry * GetEntry(int key);
typedef CVector<LangEntry*> LookUpVec;
typedef LookUpVec::iterator LookUpVecIter;
char m_LanguageName[3]; char m_LanguageName[3];
// our lookup table // our lookup table
LookUpVec m_LookUpTable; LookUpVec m_LookUpTable;
int m_entries;
CLangMngr *m_LMan; CLangMngr *m_LMan;
public: public:
void AddEntry(int key, const char *definition); LangEntry *AddEntry(int pKey, uint32_t defHash, const char *def, bool cache);
}; };
// Merge definitions into a language // Merge definitions into a language
void MergeDefinitions(const char *lang, CQueue <sKeyDef> &tmpVec); void MergeDefinitions(const char *lang, CQueue <sKeyDef*> &tmpVec);
// strip lowercase; make lower if needed // strip lowercase; make lower if needed
static size_t strip(char *str, char *newstr, bool makelower = false); static size_t strip(char *str, char *newstr, bool makelower=false);
typedef CVector<CLang*> LangVec; typedef CVector<CLang*> LangVec;
typedef CVector<CLang*>::iterator LangVecIter; typedef CVector<CLang*>::iterator LangVecIter;
@ -144,8 +153,7 @@ class CLangMngr
LangVec m_Languages; LangVec m_Languages;
CVector<md5Pair *> FileList; CVector<md5Pair *> FileList;
CVector<String *> KeyList; CVector<keyEntry*> KeyList;
THash<String, keytbl_val> KeyTable;
// Get a lang object (construct if needed) // Get a lang object (construct if needed)
CLang * GetLang(const char *name); CLang * GetLang(const char *name);
@ -157,13 +165,12 @@ class CLangMngr
public: public:
// Merge a definitions file // Merge a definitions file
int MergeDefinitionFile(const char *file); int MergeDefinitionFile(const char *file);
// Get a definition from a lang name and a key // Get a definition from a lang name and a kyer
const char *GetDef(const char *langName, const char *key, int &status); const char *GetDef(const char *langName, const char *key);
// Format a string // Format a string
const char *Format(const char *src, ...); const char *Format(const char *src, ...);
// Format a string for an AMX plugin // Format a string for an AMX plugin
char *FormatAmxString(AMX *amx, cell *params, int parm, int &len); char *FormatAmxString(AMX *amx, cell *params, int parm, int &len);
char *FormatString(const char *fmt, va_list &ap);
// Save // Save
bool Save(const char *filename); bool Save(const char *filename);
// Load // Load
@ -171,15 +178,16 @@ public:
// Cache // Cache
bool LoadCache(const char *filename); bool LoadCache(const char *filename);
bool SaveCache(const char *filename); bool SaveCache(const char *filename);
void InvalidateCache();
// Get index // Get index
int GetKeyEntry(String &key); int GetKeyEntry(String &key);
int GetKeyEntry(const char *key); int GetKeyEntry(const char *key);
int GetKeyIndex(const char *key); int GetKeyHash(int key);
// Get key from index // Get key from index
const char *GetKey(int key); const char *GetKey(int key);
// Add key // Add key
int AddKeyEntry(String &key); int AddKeyEntry(String &key);
// Make a hash from a string; convert to lowercase first if needed
uint32_t MakeHash(const char *src, bool makeLower);
// Get the number of languages // Get the number of languages
int GetLangsNum(); int GetLangsNum();
@ -191,8 +199,6 @@ public:
// When a language id in a format string in FormatAmxString is LANG_PLAYER, the glob id decides which language to take. // When a language id in a format string in FormatAmxString is LANG_PLAYER, the glob id decides which language to take.
void SetDefLang(int id); void SetDefLang(int id);
inline int GetDefLang() const { return m_CurGlobId; }
// Reset // Reset
void Clear(); void Clear();

48
amxmodx/CList.h
View File

@ -35,7 +35,6 @@
// ***************************************************** // *****************************************************
// class CList // class CList
// ***************************************************** // *****************************************************
// Linked list // Linked list
template <typename T, typename F = char* > template <typename T, typename F = char* >
class CList class CList
@ -66,10 +65,8 @@ private:
~CElement() ~CElement()
{ {
delete m_pObject; delete m_pObject;
if (m_pNext) if (m_pNext)
m_pNext->m_pPrev = m_pPrev; m_pNext->m_pPrev = m_pPrev;
if (m_pPrev) if (m_pPrev)
m_pPrev->m_pNext = m_pNext; m_pPrev->m_pNext = m_pNext;
} }
@ -105,16 +102,15 @@ private:
} }
}; };
// CList<T, F> class // CList<T,F> class
CElement *m_pHead; // head of the linked list CElement *m_pHead; // head of the linked list
CElement *m_pTail; // tail of the linked list CElement *m_pTail; // tail of the linked list
public: public:
// iterator class // iterator class
class iterator class iterator
{ {
friend class CList<T, F>; friend class CList<T,F>;
CList<T,F> *m_pList; // The list that created this iterator
CList<T, F> *m_pList; // The list that created this iterator
CElement *m_CurPos; // Current position in the list CElement *m_CurPos; // Current position in the list
public: public:
iterator() iterator()
@ -124,7 +120,7 @@ public:
} }
// constructor based on list, element // constructor based on list, element
iterator(CList<T, F> *pList, CElement *startPos) iterator(CList<T,F> *pList, CElement *startPos)
{ {
m_pList = pList; m_pList = pList;
m_CurPos = startPos; m_CurPos = startPos;
@ -151,7 +147,7 @@ public:
// validity check operator // validity check operator
inline operator bool () const inline operator bool () const
{ {
return m_pList != NULL && m_CurPos != NULL && m_CurPos->GetObj() != NULL; return m_pList!=NULL && m_CurPos!=NULL && m_CurPos->GetObj()!=NULL;
} }
// pre increment operator // pre increment operator
@ -166,7 +162,6 @@ public:
{ {
iterator tmp(*this); iterator tmp(*this);
m_CurPos = m_CurPos->next; m_CurPos = m_CurPos->next;
return tmp; return tmp;
} }
@ -181,20 +176,18 @@ public:
{ {
return m_pList->remove(*this); return m_pList->remove(*this);
} }
iterator put(T *obj) iterator put(T *obj)
{ {
return m_pList->put(obj, *this); return m_pList->put(obj, *this);
} }
}; };
CList<T, F>() CList<T,F>()
{ {
m_pHead = NULL; m_pHead = NULL;
m_pTail = NULL; m_pTail = NULL;
} }
~CList<T,F>()
~CList<T, F>()
{ {
clear(); clear();
} }
@ -205,16 +198,12 @@ public:
iterator remove(iterator &where) iterator remove(iterator &where)
{ {
iterator tmp(where.GetNext()); iterator tmp(where.GetNext());
if (where.m_CurPos == m_pHead) if (where.m_CurPos == m_pHead)
m_pHead = where.m_CurPos->GetNext(); m_pHead = where.m_CurPos->GetNext();
if (where.m_CurPos == m_pTail) if (where.m_CurPos == m_pTail)
m_pTail = where.m_CurPos->GetPrev(); m_pTail = where.m_CurPos->GetPrev();
delete where.m_CurPos; delete where.m_CurPos;
where = tmp; where = tmp;
return tmp; return tmp;
} }
@ -223,36 +212,36 @@ public:
iterator put_back(T *pObj) iterator put_back(T *pObj)
{ {
CElement *pTmp = new CElement(pObj); CElement *pTmp = new CElement(pObj);
if (!m_pHead) if (!m_pHead)
{ {
m_pHead = pTmp; m_pHead = pTmp;
m_pTail = pTmp; m_pTail = pTmp;
} else { }
else
{
pTmp->SetNext(NULL); pTmp->SetNext(NULL);
pTmp->SetPrev(m_pTail); pTmp->SetPrev(m_pTail);
m_pTail->SetNext(pTmp); m_pTail->SetNext(pTmp);
m_pTail = pTmp; m_pTail = pTmp;
} }
return iterator(this, pTmp); return iterator(this, pTmp);
} }
iterator put_front(T *pObj) iterator put_front(T *pObj)
{ {
CElement *pTmp = new CElement(pObj); CElement *pTmp = new CElement(pObj);
if (!m_pHead) if (!m_pHead)
{ {
m_pHead = pTmp; m_pHead = pTmp;
m_pTail = pTmp; m_pTail = pTmp;
} else { }
else
{
pTmp->SetNext(m_pHead); pTmp->SetNext(m_pHead);
pTmp->SetPrev(NULL); pTmp->SetPrev(NULL);
m_pHead->SetPrev(pTmp); m_pHead->SetPrev(pTmp);
m_pHead = pTmp; m_pHead = pTmp;
} }
return iterator(this, pTmp); return iterator(this, pTmp);
} }
@ -268,7 +257,6 @@ public:
iterator put(T *pObj, iterator &where) iterator put(T *pObj, iterator &where)
{ {
CElement *pTmp = new CElement(pObj); CElement *pTmp = new CElement(pObj);
if (where.m_CurPos->GetNext()) if (where.m_CurPos->GetNext())
where.m_CurPos->GetNext()->SetPrev(pTmp); where.m_CurPos->GetNext()->SetPrev(pTmp);
else // where = tail else // where = tail
@ -278,7 +266,6 @@ public:
pTmp->SetNext(where.m_CurPos->GetNext()); pTmp->SetNext(where.m_CurPos->GetNext());
where.m_CurPos->SetNext(pTmp); where.m_CurPos->SetNext(pTmp);
return ++where; return ++where;
} }
@ -296,13 +283,12 @@ public:
iterator find(iterator startOn, const F &desc) iterator find(iterator startOn, const F &desc)
{ {
iterator iter = startOn; iterator iter = startOn;
while (iter) while(iter)
{ {
if (*iter == desc) if (*iter == desc)
break; break;
++iter; ++iter;
} }
return iter; return iter;
} }
@ -314,16 +300,14 @@ public:
int size() int size()
{ {
iterator iter = begin(); iterator iter = begin();
int i = 0; int i=0;
while (iter) while (iter)
{ {
++i; ++i;
++iter; ++iter;
} }
return i; return i;
} }
}; };
#endif
#endif //CLIST_H

319
amxmodx/CLogEvent.cpp
View File

@ -35,284 +35,217 @@
// ***************************************************** // *****************************************************
// class LogEventsMngr // class LogEventsMngr
// ***************************************************** // *****************************************************
LogEventsMngr::LogEventsMngr() {
LogEventsMngr::LogEventsMngr() logCurrent = logCounter = 0;
{ logcmplist = 0;
logCurrent = logCounter = 0; arelogevents = false;
logcmplist = 0; memset( logevents, 0, sizeof(logevents) );
arelogevents = false;
memset(logevents, 0, sizeof(logevents));
} }
LogEventsMngr::~LogEventsMngr() LogEventsMngr::~LogEventsMngr() {
{ clearLogEvents();
clearLogEvents();
} }
int LogEventsMngr::CLogCmp::compareCondition(const char* string) int LogEventsMngr::CLogCmp::compareCondition(const char* string){
{ if ( logid == parent->logCounter )
if (logid == parent->logCounter) return result;
return result; logid = parent->logCounter;
if ( in ) return result = strstr( string , text.c_str() ) ? 0 : 1;
logid = parent->logCounter; return result = strcmp(string,text.c_str());
if (in)
return result = strstr(string, text.c_str()) ? 0 : 1;
return result = strcmp(string,text.c_str());
} }
LogEventsMngr::CLogCmp* LogEventsMngr::registerCondition(char* filter) LogEventsMngr::CLogCmp* LogEventsMngr::registerCondition(char* filter){
{
char* temp = filter; char* temp = filter;
// expand "1=message" // expand "1=message"
while ( isdigit(*filter) )
while (isdigit(*filter))
++filter; ++filter;
bool in = (*filter=='&');
bool in = (*filter=='&'); *filter++ = 0;
*filter++ = 0; int pos = atoi(temp);
int pos = atoi(temp); if ( pos < 0 || pos >= MAX_LOGARGS) pos = 0;
if (pos < 0 || pos >= MAX_LOGARGS)
pos = 0;
CLogCmp* c = logcmplist; CLogCmp* c = logcmplist;
while( c ) {
while (c) if ( (c->pos==pos) && (c->in==in) && !strcmp(c->text.c_str(), filter))
{
if ((c->pos == pos) && (c->in == in) && !strcmp(c->text.c_str(), filter))
return c; return c;
c = c->next; c = c->next;
} }
return logcmplist = new CLogCmp( filter , in , pos , logcmplist,this );
return logcmplist = new CLogCmp(filter, in, pos, logcmplist, this);
} }
void LogEventsMngr::CLogEvent::registerFilter(char* filter) void LogEventsMngr::CLogEvent::registerFilter( char* filter ){
{ CLogCmp *cmp = parent->registerCondition( filter );
CLogCmp *cmp = parent->registerCondition(filter); if ( cmp == 0 ) return;
if (cmp == 0) return; for(LogCond* c = filters; c ; c = c->next){
if ( c->argnum == cmp->pos ){
for (LogCond* c = filters; c; c = c->next) c->list = new LogCondEle( cmp , c->list );
{
if (c->argnum == cmp->pos)
{
c->list = new LogCondEle(cmp, c->list);
return; return;
} }
} }
LogCondEle* aa = new LogCondEle( cmp , 0 );
LogCondEle* aa = new LogCondEle(cmp, 0); if ( aa == 0 ) return;
filters = new LogCond( cmp->pos , aa , filters );
if (aa == 0)
return;
filters = new LogCond(cmp->pos, aa, filters);
} }
void LogEventsMngr::setLogString(char* frmt, va_list& vaptr) void LogEventsMngr::setLogString( char* frmt, va_list& vaptr ) {
{
++logCounter; ++logCounter;
int len = vsnprintf(logString, 255, frmt, vaptr); int len = vsnprintf (logString, 255 , frmt, vaptr );
if ( len == - 1) {
if (len == - 1)
{
len = 255; len = 255;
logString[len] = 0; logString[len] = 0;
} }
if ( len ) logString[--len] = 0;
if (len)
logString[--len] = 0;
logArgc = 0; logArgc = 0;
} }
void LogEventsMngr::setLogString(char* frmt, ...) void LogEventsMngr::setLogString( char* frmt, ... ) {
{
++logCounter; ++logCounter;
va_list logArgPtr; va_list logArgPtr;
va_start(logArgPtr, frmt); va_start ( logArgPtr , frmt );
int len = vsnprintf(logString, 255, frmt, logArgPtr); int len = vsnprintf(logString, 255 , frmt, logArgPtr );
if ( len == - 1) {
if (len == - 1)
{
len = 255; len = 255;
logString[len] = 0; logString[len] = 0;
} }
va_end ( logArgPtr );
va_end(logArgPtr); if ( len ) logString[--len] = 0;
if (len)
logString[--len] = 0;
logArgc = 0; logArgc = 0;
} }
void LogEventsMngr::parseLogString() void LogEventsMngr::parseLogString( ) {
{ register const char* b = logString;
register const char* b = logString; register int a;
register int a; while( *b && logArgc < MAX_LOGARGS ){
a = 0;
while (*b && logArgc < MAX_LOGARGS) if ( *b == '"' ) {
{ ++b;
a = 0; while ( *b && *b != '"' && a < 127 )
logArgs[logArgc][a++] = *b++;
if (*b == '"') logArgs[logArgc++][a] = 0;
{ if ( *b) b+=2; // thanks to double terminator
++b; }
else if ( *b == '(' ) {
while (*b && *b != '"' && a < 127) ++b;
logArgs[logArgc][a++] = *b++; while ( *b && *b != ')' && a < 127 )
logArgs[logArgc][a++] = *b++;
logArgs[logArgc++][a] = 0; logArgs[logArgc++][a] = 0;
if (*b) b+=2; // thanks to double terminator if ( *b) b+=2;
} }
else if (*b == '(') else {
{ while ( *b && *b != '(' && *b != '"' && a < 127 )
++b; logArgs[logArgc][a++] = *b++;
if ( *b ) --a;
while (*b && *b != ')' && a < 127) logArgs[logArgc++][a] = 0;
logArgs[logArgc][a++] = *b++; }
}
logArgs[logArgc++][a] = 0;
if (*b) b+=2;
} else {
while (*b && *b != '(' && *b != '"' && a < 127)
logArgs[logArgc][a++] = *b++;
if (*b) --a;
logArgs[logArgc++][a] = 0;
}
}
} }
LogEventsMngr::CLogEvent* LogEventsMngr::registerLogEvent(CPluginMngr::CPlugin* plugin, int func, int pos) LogEventsMngr::CLogEvent* LogEventsMngr::registerLogEvent( CPluginMngr::CPlugin* plugin, int func, int pos )
{ {
if (pos < 1 || pos > MAX_LOGARGS) if ( pos < 1 || pos > MAX_LOGARGS)
return 0; return 0;
arelogevents = true;
arelogevents = true; CLogEvent** d = &logevents[pos];
CLogEvent** d = &logevents[pos]; while(*d) d = &(*d)->next;
return *d = new CLogEvent( plugin , func, this );
while (*d)
d = &(*d)->next;
return *d = new CLogEvent(plugin, func, this);
} }
void LogEventsMngr::executeLogEvents() void LogEventsMngr::executeLogEvents()
{ {
bool valid; int err;
bool valid;
for (CLogEvent* a = logevents[logArgc]; a; a = a->next) for(CLogEvent* a = logevents[ logArgc ]; a ; a = a->next){
{
valid = true; valid = true;
for( CLogEvent::LogCond* b = a->filters; b ; b = b->next){
for (CLogEvent::LogCond* b = a->filters; b; b = b->next)
{
valid = false; valid = false;
for( CLogEvent::LogCondEle* c = b->list; c ; c = c->next) {
for (CLogEvent::LogCondEle* c = b->list; c; c = c->next) if ( c->cmp->compareCondition( logArgs[b->argnum] ) == 0 ){
{
if (c->cmp->compareCondition(logArgs[b->argnum]) == 0)
{
valid = true; valid = true;
break; break;
} }
} }
if (!valid) break;
if (!valid)
break;
} }
if (valid) #ifdef ENABLEEXEPTIONS
try
{ {
executeForwards(a->func); #endif
if (valid){
if ((err = amx_Exec(a->plugin->getAMX(), NULL , a->func , 0)) != AMX_ERR_NONE)
AMXXLOG_Log("[AMXX] Run time error %d on line %ld (plugin \"%s\")",
err,a->plugin->getAMX()->curline,a->plugin->getName());
}
#ifdef ENABLEEXEPTIONS
} }
} catch( ... )
}
void LogEventsMngr::clearLogEvents()
{
logCurrent = logCounter = 0;
arelogevents = false;
for (int i = 0; i < MAX_LOGARGS + 1; ++i)
{
CLogEvent **a = &logevents[i];
while (*a)
{ {
CLogEvent* bb = (*a)->next; AMXXLOG_Log( "[AMXX] fatal error at log forward function execution");
delete *a;
*a = bb;
} }
} #endif
clearConditions(); }
} }
void LogEventsMngr::clearConditions() void LogEventsMngr::clearLogEvents(){
{ logCurrent = logCounter = 0;
while (logcmplist) arelogevents = false;
{ for(int i = 0; i < MAX_LOGARGS + 1; ++i){
CLogCmp* a = logcmplist->next; CLogEvent **a = &logevents[i];
delete logcmplist; while(*a){
logcmplist = a; CLogEvent* bb = (*a)->next;
} delete *a;
*a = bb;
}
}
clearConditions();
} }
LogEventsMngr::CLogEvent::LogCond::~LogCond() void LogEventsMngr::clearConditions() {
{ while (logcmplist){
while (list) CLogCmp* a = logcmplist->next;
{ delete logcmplist;
logcmplist = a;
}
}
LogEventsMngr::CLogEvent::LogCond::~LogCond() {
while( list ) {
LogCondEle* cc = list->next; LogCondEle* cc = list->next;
delete list; delete list;
list = cc; list = cc;
} }
} }
LogEventsMngr::CLogEvent::~CLogEvent() LogEventsMngr::CLogEvent::~CLogEvent() {
{ while( filters ) {
while (filters)
{
LogCond* cc = filters->next; LogCond* cc = filters->next;
delete filters; delete filters;
filters = cc; filters = cc;
} }
} }
LogEventsMngr::CLogEvent *LogEventsMngr::getValidLogEvent(CLogEvent * a) LogEventsMngr::CLogEvent *LogEventsMngr::getValidLogEvent( CLogEvent * a )
{ {
bool valid; bool valid;
while(a){
while (a)
{
valid = true; valid = true;
for( CLogEvent::LogCond* b = a->filters; b ; b = b->next){
for (CLogEvent::LogCond* b = a->filters; b; b = b->next)
{
valid = false; valid = false;
for( CLogEvent::LogCondEle* c = b->list; c ; c = c->next) {
for (CLogEvent::LogCondEle* c = b->list; c; c = c->next) if ( c->cmp->compareCondition( logArgs[b->argnum] ) == 0 ){
{
if (c->cmp->compareCondition(logArgs[b->argnum]) == 0)
{
valid = true; valid = true;
break; break;
} }
} }
if (!valid) break; if (!valid) break;
} }
if (!valid){
if (!valid)
{
a = a->next; a = a->next;
continue; continue;
} }
return a; return a;
} }
return 0; return 0;
} }

225
amxmodx/CLogEvent.h
View File

@ -40,139 +40,126 @@
// class LogEventsMngr // class LogEventsMngr
// ***************************************************** // *****************************************************
class LogEventsMngr class LogEventsMngr {
{
char logString[256]; char logString[256];
char logArgs[MAX_LOGARGS][128]; char logArgs[MAX_LOGARGS][128];
int logArgc; int logArgc;
int logCounter; int logCounter;
int logCurrent; int logCurrent;
bool arelogevents; bool arelogevents;
public: public:
class CLogCmp; class CLogCmp;
class iterator; class iterator;
class CLogEvent; class CLogEvent;
friend class CLogEvent;
friend class CLogCmp;
friend class iterator;
class CLogCmp
{
friend class LogEventsMngr;
friend class CLogEvent; friend class CLogEvent;
friend class CLogCmp; LogEventsMngr* parent;
String text;
int logid;
int pos;
int result;
bool in;
CLogCmp *next;
CLogCmp( const char* s, bool r, int p, CLogCmp *n, LogEventsMngr* mg ) : text(s) {
logid = result = 0;
pos = p;
parent = mg;
in = r;
next = n;
}
public:
int compareCondition(const char* string);
};
private:
CLogCmp *logcmplist;
public:
class CLogEvent {
friend class LogEventsMngr;
friend class iterator; friend class iterator;
struct LogCondEle {
class CLogCmp CLogCmp *cmp;
{ LogCondEle *next;
friend class LogEventsMngr; LogCondEle(CLogCmp *c, LogCondEle *n): cmp(c) , next(n) { }
friend class CLogEvent;
LogEventsMngr* parent;
String text;
int logid;
int pos;
int result;
bool in;
CLogCmp *next;
CLogCmp(const char* s, bool r, int p, CLogCmp *n, LogEventsMngr* mg) : text(s)
{
logid = result = 0;
pos = p;
parent = mg;
in = r;
next = n;
}
public:
int compareCondition(const char* string);
}; };
struct LogCond {
int argnum;
LogCondEle *list;
LogCond *next;
LogCond( int a , LogCondEle* ee , LogCond* n ) : argnum(a) , list(ee), next(n) {}
~LogCond();
};
CPluginMngr::CPlugin *plugin;
int func;
LogCond *filters;
LogEventsMngr* parent;
CLogEvent *next;
CLogEvent(CPluginMngr::CPlugin *p,int f, LogEventsMngr* ppp) : plugin(p),func(f), filters(0),parent(ppp) ,next(0) { }
~CLogEvent();
public:
inline CPluginMngr::CPlugin *getPlugin() { return plugin; }
void registerFilter( char* filter );
inline int getFunction() { return func; }
};
private: private:
CLogCmp *logcmplist;
CLogEvent *logevents[MAX_LOGARGS+1];
CLogEvent *getValidLogEvent( CLogEvent * a );
CLogCmp* registerCondition(char* filter);
void clearConditions();
public: public:
class CLogEvent LogEventsMngr();
{ ~LogEventsMngr();
friend class LogEventsMngr;
friend class iterator;
struct LogCondEle
{
CLogCmp *cmp;
LogCondEle *next;
LogCondEle(CLogCmp *c, LogCondEle *n): cmp(c), next(n) {}
};
struct LogCond
{
int argnum;
LogCondEle *list;
LogCond *next;
LogCond(int a, LogCondEle* ee, LogCond* n) : argnum(a), list(ee), next(n) {}
~LogCond();
};
CPluginMngr::CPlugin *plugin;
int func;
LogCond *filters;
LogEventsMngr* parent;
CLogEvent *next;
CLogEvent(CPluginMngr::CPlugin *p, int f, LogEventsMngr* ppp) : plugin(p), func(f), filters(0), parent(ppp), next(0) {}
~CLogEvent();
public:
inline CPluginMngr::CPlugin *getPlugin() { return plugin; }
void registerFilter(char* filter);
inline int getFunction() { return func; }
};
private:
CLogEvent *logevents[MAX_LOGARGS + 1];
CLogEvent *getValidLogEvent(CLogEvent * a);
CLogCmp* registerCondition(char* filter);
void clearConditions();
public:
LogEventsMngr();
~LogEventsMngr();
// Interface // Interface
CLogEvent* registerLogEvent(CPluginMngr::CPlugin* plugin, int func, int pos);
inline bool logEventsExist() { return arelogevents; }
void setLogString(char* frmt, va_list& vaptr);
void setLogString(char* frmt, ...);
void parseLogString();
void executeLogEvents();
inline const char* getLogString() { return logString; } CLogEvent* registerLogEvent( CPluginMngr::CPlugin* plugin, int func, int pos );
inline int getLogArgNum() { return logArgc; } inline bool logEventsExist() { return arelogevents; }
inline const char* getLogArg(int i) { return (i < 0 || i >= logArgc) ? "" : logArgs[i]; } void setLogString( char* frmt, va_list& vaptr );
void clearLogEvents(); void setLogString( char* frmt , ... );
void parseLogString( );
void executeLogEvents();
inline const char* getLogString() { return logString; }
inline int getLogArgNum() { return logArgc; }
inline const char* getLogArg( int i ) { return ( i < 0 || i >= logArgc ) ? "" : logArgs[ i ]; }
void clearLogEvents();
class iterator
{
CLogEvent* a;
LogEventsMngr* b;
public: class iterator {
inline iterator(CLogEvent*aa, LogEventsMngr* bb) : a(aa), b(bb) {} CLogEvent* a;
LogEventsMngr* b;
inline iterator& operator++() public:
{ inline iterator(CLogEvent*aa,LogEventsMngr* bb) : a(aa), b(bb) {}
a = b->getValidLogEvent(a->next); inline iterator& operator++() {
return *this; a = b->getValidLogEvent( a->next );
} return *this;
}
inline bool operator==(const iterator& c) const { return a == c.a; } inline bool operator==(const iterator& c) const { return a == c.a; }
inline bool operator!=(const iterator& c) const { return !operator == (c); } inline bool operator!=(const iterator& c) const { return !operator==(c); }
CLogEvent& operator*() { return *a; } CLogEvent& operator*() { return *a; }
operator bool () const { return a ? true : false; } operator bool ( ) const { return a ? true : false; }
}; };
inline iterator begin() { return iterator(getValidLogEvent(logevents[ logArgc ]),this); }
inline iterator begin() { return iterator(getValidLogEvent(logevents[logArgc]), this); } inline iterator end() { return iterator(0,this); }
inline iterator end() { return iterator(0, this); }
}; };
#endif //LOGEVENTS_H #endif

105
amxmodx/CMenu.cpp
View File

@ -35,8 +35,7 @@
// ***************************************************** // *****************************************************
// class MenuMngr // class MenuMngr
// ***************************************************** // *****************************************************
MenuMngr::MenuCommand::MenuCommand(CPluginMngr::CPlugin *a, int mi, int k, int f) MenuMngr::MenuCommand::MenuCommand( CPluginMngr::CPlugin *a, int mi, int k, int f ) {
{
plugin = a; plugin = a;
keys = k; keys = k;
menuid = mi; menuid = mi;
@ -47,97 +46,49 @@ MenuMngr::MenuCommand::MenuCommand(CPluginMngr::CPlugin *a, int mi, int k, int f
MenuMngr::~MenuMngr() MenuMngr::~MenuMngr()
{ {
clear(); clear();
MenuMngr::MenuIdEle::uniqueid = 0;
} }
int MenuMngr::findMenuId(const char* name, AMX* amx) int MenuMngr::findMenuId(const char* name, AMX* amx)
{ {
for (MenuIdEle* b = headid; b; b = b->next) for( MenuIdEle* b = headid; b ; b = b->next) {
{ if ( (!b->amx || amx == b->amx) && strstr(name,b->name.c_str()) )
if ((!amx || !b->amx || amx == b->amx) && strstr(name,b->name.c_str())) return b->id;
return b->id; }
} return 0;
return 0;
} }
void MenuMngr::removeMenuId(int id) int MenuMngr::registerMenuId(const char* n, AMX* a )
{ {
MenuIdEle *n = headid; int id = findMenuId( n, a );
MenuIdEle *l = NULL; if (id) return id;
while (n) headid = new MenuIdEle( n, a , headid );
{ if (!headid)
if (n->id == id) return 0; // :TODO: Better error report
{ return headid->id;
if (l)
l->next = n->next;
else
headid = n->next;
delete n;
break;
}
l = n;
n = n->next;
}
MenuCommand *c = headcmd;
MenuCommand *lc = NULL;
MenuCommand *tmp;
while (c)
{
if (c->menuid == id)
{
if (lc)
lc->next = c->next;
else
headcmd = c->next;
tmp = c->next;
delete c;
c = tmp;
} else {
lc = c;
c = c->next;
}
}
} }
int MenuMngr::registerMenuId(const char* n, AMX* a) void MenuMngr::registerMenuCmd( CPluginMngr::CPlugin *a,int mi, int k , int f )
{
int id = findMenuId(n, a);
if (id)
return id;
headid = new MenuIdEle(n, a, headid);
if (!headid)
return 0; // :TODO: Better error report
return headid->id;
}
void MenuMngr::registerMenuCmd(CPluginMngr::CPlugin *a, int mi, int k, int f)
{ {
MenuCommand** temp = &headcmd; MenuCommand** temp = &headcmd;
while (*temp) temp = &(*temp)->next; while(*temp) temp = &(*temp)->next;
*temp = new MenuCommand(a, mi, k, f); *temp = new MenuCommand(a,mi, k,f);
} }
void MenuMngr::clear() void MenuMngr::clear()
{ {
while (headid) while (headid)
{ {
MenuIdEle* a = headid->next; MenuIdEle* a = headid->next;
delete headid; delete headid;
headid = a; headid = a;
} }
while (headcmd) while (headcmd)
{ {
MenuCommand* a = headcmd->next; MenuCommand* a = headcmd->next;
delete headcmd; delete headcmd;
headcmd = a; headcmd = a;
} }
} }
int MenuMngr::MenuIdEle::uniqueid = 0; int MenuMngr::MenuIdEle::uniqueid = 0;

79
amxmodx/CMenu.h
View File

@ -38,57 +38,55 @@
class MenuMngr class MenuMngr
{ {
struct MenuIdEle struct MenuIdEle
{ {
String name; String name;
AMX* amx; AMX* amx;
MenuIdEle* next; MenuIdEle* next;
int id;
int id; static int uniqueid;
static int uniqueid; MenuIdEle( const char* n, AMX* a, MenuIdEle* m ) : name( n ) , amx(a) , next( m ) {
id = ++uniqueid;
MenuIdEle(const char* n, AMX* a, MenuIdEle* m) : name(n), amx(a), next(m) }
{ ~MenuIdEle() { --uniqueid; }
id = ++uniqueid; } *headid;
}
} *headid;
public: public:
class iterator; class iterator;
private: private:
class MenuCommand class MenuCommand
{ {
friend class iterator; friend class iterator;
friend class MenuMngr; friend class MenuMngr;
CPluginMngr::CPlugin *plugin; CPluginMngr::CPlugin *plugin;
int menuid; int menuid;
int keys; int keys;
int function; int function;
MenuCommand* next;
MenuCommand* next; MenuCommand( CPluginMngr::CPlugin *a, int mi, int k, int f );
MenuCommand(CPluginMngr::CPlugin *a, int mi, int k, int f); public:
public: inline int getFunction() { return function; }
inline int getFunction() { return function; } inline CPluginMngr::CPlugin* getPlugin() { return plugin; }
inline CPluginMngr::CPlugin* getPlugin() { return plugin; } inline bool matchCommand( int m, int k ) { return ((m == menuid) && (keys & k)); }
inline bool matchCommand(int m, int k) { return ((m == menuid) && (keys & k)); } } *headcmd;
} *headcmd;
public: public:
MenuMngr() { headid = 0; headcmd = 0; }
MenuMngr() { headid = 0; headcmd = 0; }
~MenuMngr(); ~MenuMngr();
// Interface // Interface
int findMenuId(const char* name, AMX* a = 0); int findMenuId(const char* name, AMX* a = 0);
int registerMenuId(const char* n, AMX* a); int registerMenuId(const char* n, AMX* a );
void removeMenuId(int id); void registerMenuCmd( CPluginMngr::CPlugin *a,int mi, int k , int f );
void registerMenuCmd(CPluginMngr::CPlugin *a, int mi, int k, int f);
void clear(); void clear();
class iterator class iterator {
{
MenuCommand* a; MenuCommand* a;
public: public:
iterator(MenuCommand*aa) : a(aa) {} iterator(MenuCommand*aa) : a(aa) {}
@ -98,9 +96,12 @@ public:
operator bool () const { return a ? true : false; } operator bool () const { return a ? true : false; }
MenuCommand& operator*() { return *a; } MenuCommand& operator*() { return *a; }
}; };
inline iterator begin() const { return iterator(headcmd); } inline iterator begin() const { return iterator(headcmd); }
inline iterator end() const { return iterator(0); } inline iterator end() const { return iterator(0); }
}; };
#endif //MENUS_H #endif

287
amxmodx/CMisc.cpp
View File

@ -29,12 +29,11 @@
* version. * version.
*/ */
#include "amxmodx.h" #include "amxmodx.h"
#include "newmenus.h"
// ***************************************************** // *****************************************************
// class CPlayer // class CPlayer
// ***************************************************** // *****************************************************
void CPlayer::Init(edict_t* e, int i) void CPlayer::Init( edict_t* e , int i )
{ {
index = i; index = i;
pEdict = e; pEdict = e;
@ -49,8 +48,6 @@ void CPlayer::Init(edict_t* e, int i)
aiming = 0; aiming = 0;
menu = 0; menu = 0;
keys = 0; keys = 0;
menuexpire = 0.0;
newmenu = -1;
death_weapon.clear(); death_weapon.clear();
name.clear(); name.clear();
@ -58,268 +55,178 @@ void CPlayer::Init(edict_t* e, int i)
team.clear(); team.clear();
} }
void CPlayer::Disconnect() void CPlayer::Disconnect() {
{ ingame = false;
ingame = false; initialized = false;
initialized = false; authorized = false;
authorized = false; bot = 0;
if (newmenu != -1)
{
Menu *pMenu = g_NewMenus[newmenu];
if (pMenu)
{
//prevent recursion
newmenu = -1;
menu = 0;
executeForwards(pMenu->func,
static_cast<cell>(ENTINDEX(pEdict)),
static_cast<cell>(pMenu->thisId),
static_cast<cell>(MENU_EXIT));
}
}
List<ClientCvarQuery_Info *>::iterator iter, end=queries.end();
for (iter=queries.begin(); iter!=end; iter++)
{
unregisterSPForward((*iter)->resultFwd);
delete [] (*iter)->params;
delete (*iter);
}
queries.clear();
bot = 0;
menu = 0;
newmenu = -1;
} }
void CPlayer::PutInServer() void CPlayer::PutInServer() {
{ playtime = gpGlobals->time;
playtime = gpGlobals->time; ingame = true;
ingame = true; }
bool CPlayer::Connect(const char* connectname,const char* ipaddress) {
name.assign(connectname);
ip.assign(ipaddress);
time = gpGlobals->time;
bot = IsBot();
death_killer = 0;
memset(flags,0,sizeof(flags));
memset(weapons,0,sizeof(weapons));
initialized = true;
authorized = false;
const char* authid = GETPLAYERAUTHID( pEdict );
if ( (authid == 0) || (*authid == 0)
|| (strcmp( authid , "STEAM_ID_PENDING") == 0) )
return true;
return false;
} }
int CPlayer::NextHUDChannel()
{
int ilow = 1;
for (int i=ilow+1; i<=4; i++)
{
if (channels[i] < channels[ilow])
ilow = i;
}
return ilow;
}
bool CPlayer::Connect(const char* connectname, const char* ipaddress)
{
name.assign(connectname);
ip.assign(ipaddress);
time = gpGlobals->time;
bot = IsBot();
death_killer = 0;
menu = 0;
newmenu = -1;
memset(flags, 0, sizeof(flags));
memset(weapons, 0, sizeof(weapons));
initialized = true;
authorized = false;
for (int i=0; i<=4; i++)
{
channels[i] = 0.0f;
hudmap[i] = 0;
}
List<ClientCvarQuery_Info *>::iterator iter, end=queries.end();
for (iter=queries.begin(); iter!=end; iter++)
{
unregisterSPForward((*iter)->resultFwd);
delete [] (*iter)->params;
delete (*iter);
}
queries.clear();
const char* authid = GETPLAYERAUTHID(pEdict);
if ((authid == 0) || (*authid == 0) || (strcmp(authid, "STEAM_ID_PENDING") == 0))
return true;
return false;
}
// ***************************************************** // *****************************************************
// class Grenades // class Grenades
// ***************************************************** // *****************************************************
void Grenades::put( edict_t* grenade, float time, int type, CPlayer* player )
void Grenades::put(edict_t* grenade, float time, int type, CPlayer* player)
{ {
Obj* a = new Obj; Obj* a = new Obj;
if (a == 0) return; if ( a == 0 ) return;
a->player = player; a->player = player;
a->grenade = grenade; a->grenade = grenade;
a->time = gpGlobals->time + time; a->time = gpGlobals->time + time;
a->type = type; a->type = type;
a->next = head; a->next = head;
head = a; head = a;
} }
bool Grenades::find(edict_t* enemy, CPlayer** p, int& type) bool Grenades::find( edict_t* enemy, CPlayer** p, int& type )
{ {
bool found = false; bool found = false;
Obj** a = &head; Obj** a = &head;
while ( *a ){
if ( (*a)->time > gpGlobals->time ) {
if ( (*a)->grenade == enemy ) {
found = true;
(*p) = (*a)->player;
type = (*a)->type;
}
}
else {
Obj* b = (*a)->next;
delete *a;
*a = b;
while (*a) continue;
{
if ((*a)->time > gpGlobals->time)
{
if ((*a)->grenade == enemy)
{
found = true;
(*p) = (*a)->player;
type = (*a)->type;
}
} else {
Obj* b = (*a)->next;
delete *a;
*a = b;
continue;
}
a = &(*a)->next;
}
return found; }
a = &(*a)->next;
}
return found;
} }
void Grenades::clear() void Grenades::clear()
{ {
while (head) while(head){
{ Obj* a = head->next;
Obj* a = head->next; delete head;
delete head; head = a;
head = a; }
}
} }
// ***************************************************** // *****************************************************
// class XVars // class XVars
// ***************************************************** // *****************************************************
void XVars::clear() {
void XVars::clear()
{
delete[] head; delete[] head;
head = 0; head = 0;
num = 0; num = 0;
size = 0; size = 0;
} }
int XVars::put(AMX* p, cell* v) int XVars::put( AMX* p, cell* v )
{ {
for (int a = 0; a < num; ++a) for(int a = 0; a < num; ++a) {
{ if ( (head[a].amx == p) && (head[a].value == v) )
if ((head[a].amx == p) && (head[a].value == v)) return a;
return a; }
}
if ((num >= size) && realloc_array(size ? (size * 2) : 8)) if ( (num >= size) && realloc_array( size ? (size * 2) : 8 ) )
return -1; return -1;
head[num].value = v; head[num].value = v;
head[num].amx = p; head[num].amx = p;
return num++;
return num++;
} }
int XVars::realloc_array(int nsize) int XVars::realloc_array( int nsize )
{ {
XVarEle* me = new XVarEle[nsize]; XVarEle* me = new XVarEle[nsize];
if ( me ){
if (me) for(int a = 0 ; a < num; ++a)
{
for (int a = 0 ; a < num; ++a)
me[a] = head[a]; me[a] = head[a];
delete[] head; delete[] head;
head = me; head = me;
size = nsize; size = nsize;
return 0; return 0;
} }
return 1; return 1;
} }
// ***************************************************** // *****************************************************
// class TeamIds // class TeamIds
// ***************************************************** // *****************************************************
TeamIds::TeamIds() { head = 0; newTeam = 0; } TeamIds::TeamIds() { head = 0; newTeam = 0; }
TeamIds::~TeamIds() {
TeamIds::~TeamIds() while( head ) {
{
while (head)
{
TeamEle* a = head->next; TeamEle* a = head->next;
delete head; delete head;
head = a; head = a;
} }
} }
void TeamIds::registerTeam(const char* n, int s) void TeamIds::registerTeam( const char* n ,int s )
{ {
TeamEle** a = &head; TeamEle** a = &head;
while( *a ){
while (*a) if ( strcmp((*a)->name.c_str(),n) == 0 ){
{ if (s != -1){
if (strcmp((*a)->name.c_str(),n) == 0)
{
if (s != -1)
{
(*a)->id = s; (*a)->id = s;
newTeam &= ~(1<<(*a)->tid); newTeam &= ~(1<<(*a)->tid);
} }
return; return;
} }
a = &(*a)->next; a = &(*a)->next;
} }
*a = new TeamEle( n , s );
*a = new TeamEle(n, s); if ( *a == 0 ) return;
newTeam |= (1<<(*a)->tid);
if (*a == 0)
return;
newTeam |= (1<<(*a)->tid);
} }
int TeamIds::findTeamId(const char* n) int TeamIds::findTeamId( const char* n )
{ {
TeamEle* a = head; TeamEle* a = head;
while( a ){
while (a) if ( !strcmpi(a->name.c_str(),n) )
{
if (!stricmp(a->name.c_str(), n))
return a->id; return a->id;
a = a->next; a = a->next;
} }
return -1; return -1;
} }
int TeamIds::findTeamIdCase(const char* n) int TeamIds::findTeamIdCase( const char* n)
{ {
TeamEle* a = head; TeamEle* a = head;
while( a ){
while (a) if ( !strcmp(a->name.c_str(), n) )
{
if (!strcmp(a->name.c_str(), n))
return a->id; return a->id;
a = a->next; a = a->next;
} }
return -1; return -1;
} }
char TeamIds::TeamEle::uid = 0; char TeamIds::TeamEle::uid = 0;

213
amxmodx/CMisc.h
View File

@ -33,47 +33,38 @@
#define CMISC_H #define CMISC_H
#include "CList.h" #include "CList.h"
#include "sh_list.h"
// ***************************************************** // *****************************************************
// class CCVar // class CCVar
// ***************************************************** // *****************************************************
class CCVar class CCVar
{ {
cvar_t cvar; cvar_t cvar;
String name; String name;
String plugin; String plugin;
public: public:
CCVar(const char* pname, const char* pplugin, int pflags, float pvalue) : name(pname), plugin(pplugin) CCVar( const char* pname, const char* pplugin,
{ int pflags, float pvalue ) : name(pname) , plugin(pplugin ) {
cvar.name = (char*)name.c_str(); cvar.name = (char*)name.c_str();
cvar.flags = pflags; cvar.flags = pflags;
cvar.string = ""; cvar.string = "";
cvar.value = pvalue; cvar.value = pvalue;
} }
inline cvar_t* getCvar() { return &cvar; } inline cvar_t* getCvar() { return &cvar; }
inline const char* getPluginName() { return plugin.c_str(); } inline const char* getPluginName() { return plugin.c_str(); }
inline const char* getName() { return name.c_str(); } inline const char* getName() { return name.c_str(); }
inline bool operator == (const char* string) { return (strcmp(name.c_str(), string) == 0); } inline bool operator == ( const char* string ) { return (strcmp(name.c_str(),string)==0); }
}; };
// ***************************************************** // *****************************************************
// class CPlayer // class CPlayer
// ***************************************************** // *****************************************************
struct ClientCvarQuery_Info
{
int resultFwd;
int requestId;
int paramLen;
cell *params;
};
class CPlayer class CPlayer
{ {
public: public:
edict_t* pEdict; edict_t* pEdict;
@ -85,14 +76,11 @@ public:
bool ingame; bool ingame;
bool bot; bool bot;
bool authorized; bool authorized;
bool vgui;
float time; float time;
float playtime; float playtime;
float menuexpire;
struct struct {
{
int ammo; int ammo;
int clip; int clip;
} weapons[MAX_WEAPONS]; } weapons[MAX_WEAPONS];
@ -111,38 +99,26 @@ public:
int death_victim; int death_victim;
bool death_tk; bool death_tk;
String death_weapon; String death_weapon;
int newmenu;
int page;
float channels[5];
cell hudmap[5];
Vector lastTrace; Vector lastTrace;
Vector thisTrace; Vector thisTrace;
Vector lastHit; Vector lastHit;
List<ClientCvarQuery_Info *> queries; void Init( edict_t* e , int i );
void Init(edict_t* e, int i);
void Disconnect(); void Disconnect();
void PutInServer(); void PutInServer();
bool Connect(const char* connectname,const char* ipaddress);
bool Connect(const char* connectname, const char* ipaddress); inline bool IsBot(){
return ((pEdict->v.flags & FL_FAKECLIENT)?true:false);
inline bool IsBot()
{
return ((pEdict->v.flags & FL_FAKECLIENT) ? true : false);
} }
inline bool IsAlive() inline bool IsAlive(){
{ return ((pEdict->v.deadflag==DEAD_NO)&&(pEdict->v.health>0));
return ((pEdict->v.deadflag == DEAD_NO) && (pEdict->v.health > 0));
} }
inline void Authorize() { authorized = true; } inline void Authorize() { authorized = true; }
int NextHUDChannel();
}; };
// ***************************************************** // *****************************************************
@ -151,44 +127,40 @@ public:
class Grenades class Grenades
{ {
struct Obj struct Obj
{ {
CPlayer* player; CPlayer* player;
edict_t* grenade; edict_t* grenade;
float time; float time;
int type; int type;
Obj* next; Obj* next;
} *head; } *head;
public: public:
Grenades() { head = 0; } Grenades() { head = 0; }
~Grenades() { clear(); } ~Grenades() { clear(); }
void put( edict_t* grenade, float time, int type, CPlayer* player );
void put(edict_t* grenade, float time, int type, CPlayer* player); bool find( edict_t* enemy, CPlayer** p, int& type );
bool find(edict_t* enemy, CPlayer** p, int& type); void clear();
void clear();
}; };
// ***************************************************** // *****************************************************
// class ForceObject // class ForceObject
// ***************************************************** // *****************************************************
class ForceObject {
class ForceObject String filename;
{ FORCE_TYPE type;
String filename; Vector mins;
FORCE_TYPE type; Vector maxs;
Vector mins; AMX* amx;
Vector maxs;
AMX* amx;
public: public:
ForceObject(const char* n, FORCE_TYPE c, Vector& mi, Vector& ma, AMX* a) : filename(n), type(c), mins(mi), maxs(ma), amx(a) {} ForceObject(const char* n, FORCE_TYPE c,Vector& mi, Vector& ma, AMX* a) :
filename(n) , type(c), mins(mi), maxs(ma), amx(a) {}
inline const char* getFilename() { return filename.c_str(); } inline const char* getFilename() { return filename.c_str(); }
inline AMX* getAMX() { return amx; } inline AMX* getAMX() { return amx; }
Vector& getMin() { return mins; } Vector& getMin() { return mins; }
Vector& getMax() { return maxs; } Vector& getMax() { return maxs; }
inline FORCE_TYPE getForceType() { return type; } inline FORCE_TYPE getForceType() { return type; }
}; };
@ -198,92 +170,81 @@ public:
class XVars class XVars
{ {
struct XVarEle struct XVarEle {
{ AMX* amx;
AMX* amx; cell* value;
cell* value; };
};
XVarEle* head; XVarEle* head;
int size;
int num;
int size; int realloc_array( int nsize );
int num;
int realloc_array(int nsize);
public: public:
XVars() { num = 0; size = 0; head = 0; } XVars() { num = 0; size = 0; head = 0; }
~XVars() { clear(); } ~XVars() { clear(); }
void clear();
void clear(); int put( AMX* a, cell* v );
int put(AMX* a, cell* v); inline cell getValue( int a ) {
return ( a >= 0 && a < num ) ? *(head[a].value) : 0;
inline cell getValue(int a) }
{ inline int setValue( int a, cell v ) {
return (a >= 0 && a < num) ? *(head[a].value) : 0; if ( a >= 0 && a < num ){
} *(head[a].value) = v;
return 0;
inline int setValue(int a, cell v) }
{ return 1;
if (a >= 0 && a < num) }
{
*(head[a].value) = v;
return 0;
}
return 1;
}
}; };
// ***************************************************** // *****************************************************
// class CScript // class CScript
// ***************************************************** // *****************************************************
class CScript class CScript
{ {
String filename; String filename;
AMX* amx; AMX* amx;
void* code; void* code;
public: public:
CScript(AMX* aa, void* cc, const char* ff) : filename(ff), amx(aa), code(cc) {} CScript(AMX* aa, void* cc,const char* ff):filename(ff),amx(aa),code(cc){}
inline AMX* getAMX() { return amx; } inline AMX* getAMX() { return amx; }
inline const char* getName() { return filename.c_str(); } inline const char* getName() { return filename.c_str(); }
inline bool operator==(void* a) { return (amx == (AMX*)a); } inline bool operator==( void* a ) { return (amx == (AMX*)a); }
inline void* getCode() { return code; } inline void* getCode() { return code; }
}; };
// ***************************************************** // *****************************************************
// class TeamIds // class TeamIds
// ***************************************************** // *****************************************************
class TeamIds class TeamIds
{ {
struct TeamEle struct TeamEle {
{ String name;
String name; int id;
int id; char tid;
char tid; static char uid;
static char uid; TeamEle* next;
TeamEle* next; TeamEle(const char* n, int& i) : name(n) , id(i) , next(0) {
tid = uid++;
};
~TeamEle(){ --uid; }
} *head;
TeamEle(const char* n, int& i) : name(n), id(i), next(0) int newTeam;
{
tid = uid++;
}
~TeamEle() { --uid; }
} *head;
int newTeam;
public: public:
TeamIds(); TeamIds();
~TeamIds(); ~TeamIds();
void registerTeam( const char* n ,int s );
void registerTeam(const char* n, int s); int findTeamId( const char* n);
int findTeamId(const char* n); int findTeamIdCase( const char* n);
int findTeamIdCase(const char* n); inline bool isNewTeam() { return newTeam ? true : false; }
inline bool isNewTeam() { return newTeam ? true : false; }
}; };
#endif //CMISC_H
#endif

275
amxmodx/CModule.cpp
View File

@ -32,9 +32,14 @@
#include "amxmodx.h" #include "amxmodx.h"
#ifndef FAR #ifndef FAR
#define FAR #define FAR
#endif #endif
// Old
typedef int (FAR *QUERYMOD)(module_info_s**);
typedef int (FAR *ATTACHMOD)(pfnamx_engine_g*,pfnmodule_engine_g*);
typedef int (FAR *DETACHMOD)(void);
// New // New
typedef void* (*PFN_REQ_FNPTR)(const char * /*name*/); typedef void* (*PFN_REQ_FNPTR)(const char * /*name*/);
typedef int (FAR *QUERYMOD_NEW)(int * /*ifvers*/, amxx_module_info_s * /*modInfo*/); typedef int (FAR *QUERYMOD_NEW)(int * /*ifvers*/, amxx_module_info_s * /*modInfo*/);
@ -42,20 +47,94 @@ typedef int (FAR *ATTACHMOD_NEW)(PFN_REQ_FNPTR /*reqFnptrFunc*/);
typedef int (FAR *DETACHMOD_NEW)(void); typedef int (FAR *DETACHMOD_NEW)(void);
typedef void (FAR *PLUGINSLOADED_NEW)(void); typedef void (FAR *PLUGINSLOADED_NEW)(void);
// Old
// These functions are needed since Small Abstract Machine 2.5.0
int wamx_FindPublic(AMX *amx, char *name, int *index)
{ return amx_FindPublic(amx, name, index); }
int wamx_FindPubVar(AMX *amx, char *varname, cell *amx_addr)
{ return amx_FindPubVar(amx, varname, amx_addr); }
int wamx_GetString(char *dest, cell *source)
{ return amx_GetString(dest, source, 0); }
AMX_NATIVE_INFO *wamx_NativeInfo(char *name, AMX_NATIVE func)
{ return amx_NativeInfo(name, func); }
int wamx_SetString(cell *dest, char *source, int pack)
{ return amx_SetString(dest, source, pack, 0); }
pfnamx_engine_g engAmxFunc = {
amx_Align16,
amx_Align32,
amx_Allot,
amx_Callback,
amx_Clone,
amx_Debug,
amx_Exec,
amx_Execv,
wamx_FindPublic,
wamx_FindPubVar,
amx_FindTagId,
amx_Flags,
amx_GetAddr,
amx_GetPublic,
amx_GetPubVar,
wamx_GetString,
amx_GetTag,
amx_GetUserData,
amx_Init,
amx_InitJIT,
amx_MemInfo,
amx_NameLength,
wamx_NativeInfo,
amx_NumPublics,
amx_NumPubVars,
amx_NumTags,
amx_RaiseError,
amx_Register,
amx_Release,
amx_SetCallback,
amx_SetDebugHook,
wamx_SetString,
amx_SetUserData,
amx_StrLen,
};
pfnmodule_engine_g engModuleFunc = {
add_amxnatives,
build_pathname,
copy_amxmemory,
format_amxstring,
get_amxaddr,
get_amxscript,
get_amxscriptname,
get_amxstring,
get_modname,
load_amxscript,
print_srvconsole,
report_error,
set_amxnatives,
set_amxstring,
amxstring_len,
unload_amxscript,
alloc_amxmemory,
free_amxmemory,
};
// ***************************************************** // *****************************************************
// class CModule // class CModule
// ***************************************************** // *****************************************************
CModule::CModule(const char* fname) CModule::CModule(const char* fname) : m_Filename(fname)
{ {
m_Filename.assign(fname);
clear(false); clear(false);
} }
CModule::~CModule() CModule::~CModule()
{ {
// old & new // old & new
if (m_Handle) if ( m_Handle )
DLFREE(m_Handle); DLFREE(m_Handle);
clear(); clear();
@ -67,10 +146,11 @@ void CModule::clear(bool clearFilename)
m_Metamod = false; m_Metamod = false;
m_Handle = NULL; m_Handle = NULL;
m_Status = MODULE_NONE; m_Status = MODULE_NONE;
if (clearFilename) if (clearFilename)
m_Filename.assign("unknown"); m_Filename.assign("unknown");
// old
m_InfoOld = NULL;
// new // new
m_Amxx = false; m_Amxx = false;
m_InfoNew.author = "unknown"; m_InfoNew.author = "unknown";
@ -82,26 +162,6 @@ void CModule::clear(bool clearFilename)
m_Natives.clear(); m_Natives.clear();
} }
bool CModule::attachMetamod(const char *mmfile, PLUG_LOADTIME now)
{
void **handle;
void *dummy = NULL;
if (!m_Handle)
handle = &dummy;
else
handle = (void **)&m_Handle;
int res = LoadMetamodPlugin(mmfile, handle, now);
if (!res)
{
m_Metamod = false;
}
return true;
}
bool CModule::attachModule() bool CModule::attachModule()
{ {
// old & new // old & new
@ -115,7 +175,6 @@ bool CModule::attachModule()
if (!AttachFunc_New) if (!AttachFunc_New)
return false; return false;
g_ModuleCallReason = ModuleCall_Attach; g_ModuleCallReason = ModuleCall_Attach;
g_CurrentlyCalledModule = this; g_CurrentlyCalledModule = this;
int retVal = (*AttachFunc_New)(Module_ReqFnptr); int retVal = (*AttachFunc_New)(Module_ReqFnptr);
@ -124,32 +183,38 @@ bool CModule::attachModule()
switch (retVal) switch (retVal)
{ {
case AMXX_OK: case AMXX_OK:
m_Status = MODULE_LOADED; m_Status = MODULE_LOADED;
return true; return true;
case AMXX_PARAM: case AMXX_PARAM:
AMXXLOG_Log("[AMXX] Internal Error: Module \"%s\" (version \"%s\") retured \"Invalid parameter\" from Attach func.", m_Filename.c_str(), getVersion()); AMXXLOG_Log("[AMXX] Internal Error: Module \"%s\" (version \"%s\") retured \"Invalid parameter\" from Attach func.", m_Filename.c_str(), getVersion());
m_Status = MODULE_INTERROR; m_Status = MODULE_INTERROR;
return false; return false;
case AMXX_FUNC_NOT_PRESENT: case AMXX_FUNC_NOT_PRESENT:
m_Status = MODULE_FUNCNOTPRESENT; m_Status = MODULE_FUNCNOTPRESENT;
m_MissingFunc = g_LastRequestedFunc; m_MissingFunc = g_LastRequestedFunc;
return false; return false;
default: default:
AMXXLOG_Log("[AMXX] Module \"%s\" (version \"%s\") returned an invalid code.", m_Filename.c_str(), getVersion()); AMXXLOG_Log("[AMXX] Module \"%s\" (version \"%s\") returned an invalid code.", m_Filename.c_str(), getVersion());
m_Status = MODULE_BADLOAD; m_Status = MODULE_BADLOAD;
return false; return false;
} }
} else {
m_Status = MODULE_BADLOAD;
} }
else
{
// old
ATTACHMOD AttachFunc = (ATTACHMOD)DLPROC(m_Handle, "AMX_Attach");
return false; if (AttachFunc)
(*AttachFunc)(&engAmxFunc,&engModuleFunc);
m_Status = MODULE_LOADED;
return true;
}
} }
bool CModule::queryModule() bool CModule::queryModule()
{ {
if (m_Status != MODULE_NONE) // don't check if already queried if (m_Status != MODULE_NONE) // don't check if already queried
return false; return false;
m_Handle = DLLOAD(m_Filename.c_str()); // load file m_Handle = DLLOAD(m_Filename.c_str()); // load file
@ -165,7 +230,6 @@ bool CModule::queryModule()
// Try new interface first // Try new interface first
QUERYMOD_NEW queryFunc_New = (QUERYMOD_NEW)DLPROC(m_Handle, "AMXX_Query"); QUERYMOD_NEW queryFunc_New = (QUERYMOD_NEW)DLPROC(m_Handle, "AMXX_Query");
if (queryFunc_New) if (queryFunc_New)
{ {
m_Amxx = true; m_Amxx = true;
@ -175,25 +239,24 @@ bool CModule::queryModule()
int retVal = (*queryFunc_New)(&ifVers, &m_InfoNew); int retVal = (*queryFunc_New)(&ifVers, &m_InfoNew);
g_CurrentlyCalledModule = NULL; g_CurrentlyCalledModule = NULL;
g_ModuleCallReason = ModuleCall_NotCalled; g_ModuleCallReason = ModuleCall_NotCalled;
switch (retVal) switch (retVal)
{ {
case AMXX_PARAM: case AMXX_PARAM:
AMXXLOG_Log("[AMXX] Internal Error: Module \"%s\" (version \"%s\") retured \"Invalid parameter\" from Attach func.", m_Filename.c_str(), getVersion()); AMXXLOG_Log("[AMXX] Internal Error: Module \"%s\" (version \"%s\") retured \"Invalid parameter\" from Attach func.", m_Filename.c_str(), getVersion());
m_Status = MODULE_INTERROR; m_Status = MODULE_INTERROR;
return false; return false;
case AMXX_IFVERS: case AMXX_IFVERS:
if (ifVers < AMXX_INTERFACE_VERSION) if (ifVers < AMXX_INTERFACE_VERSION)
m_Status = MODULE_OLD; m_Status = MODULE_OLD;
else else
m_Status = MODULE_NEWER; m_Status = MODULE_NEWER;
return false; return false;
case AMXX_OK: case AMXX_OK:
break; break;
default: default:
AMXXLOG_Log("[AMXX] Module \"%s\" (version \"%s\") returned an invalid code.", m_Filename.c_str(), getVersion()); AMXXLOG_Log("[AMXX] Module \"%s\" (version \"%s\") returned an invalid code.", m_Filename.c_str(), getVersion());
m_Status = MODULE_BADLOAD; m_Status = MODULE_BADLOAD;
return false; return false;
} }
// Check for attach // Check for attach
@ -205,10 +268,47 @@ bool CModule::queryModule()
m_Status = MODULE_QUERY; m_Status = MODULE_QUERY;
return true; return true;
} else { }
m_Status = MODULE_NOQUERY; else
m_Amxx = false; {
// old interface not 64 bit compatible
#if SMALL_CELL_SIZE == 64
m_Status = MODULE_NOT64BIT;
return false; return false;
#else
// Try old interface
QUERYMOD queryFunc_Old = (QUERYMOD)DLPROC(m_Handle,"AMX_Query"); // check what version
if (!queryFunc_Old)
{
m_Status = MODULE_NOQUERY;
return false;
}
(*queryFunc_Old)(&m_InfoOld);
if (!m_InfoOld)
{
m_Status = MODULE_NOINFO;
return false;
}
if (m_InfoOld->ivers != AMX_INTERFACE_VERSION)
{
m_Status = MODULE_OLD;
return false;
}
// Check for attach
if (!DLPROC(m_Handle, "AMX_Attach"))
{
m_Status = MODULE_NOATTACH;
return false;
}
m_InfoOld->serial = (long int)this;
m_Status = MODULE_QUERY;
return true;
#endif
} }
} }
@ -220,7 +320,6 @@ bool CModule::detachModule()
if (m_Amxx) if (m_Amxx)
{ {
DETACHMOD_NEW detachFunc_New = (DETACHMOD_NEW)DLPROC(m_Handle, "AMXX_Detach"); DETACHMOD_NEW detachFunc_New = (DETACHMOD_NEW)DLPROC(m_Handle, "AMXX_Detach");
if (detachFunc_New) if (detachFunc_New)
{ {
g_ModuleCallReason = ModuleCall_Detach; g_ModuleCallReason = ModuleCall_Detach;
@ -230,17 +329,14 @@ bool CModule::detachModule()
g_ModuleCallReason = ModuleCall_NotCalled; g_ModuleCallReason = ModuleCall_NotCalled;
} }
} }
else
#ifndef FAKEMETA
if (IsMetamod())
{ {
UnloadMetamodPlugin(m_Handle); DETACHMOD detachFunc_Old = (DETACHMOD)DLPROC(m_Handle, "AMX_Detach");
if (detachFunc_Old)
(*detachFunc_Old)();
} }
#endif
DLFREE(m_Handle); DLFREE(m_Handle);
clear(); clear();
return true; return true;
} }
@ -253,31 +349,28 @@ void CModule::CallPluginsLoaded()
return; return;
PLUGINSLOADED_NEW func = (PLUGINSLOADED_NEW)DLPROC(m_Handle, "AMXX_PluginsLoaded"); PLUGINSLOADED_NEW func = (PLUGINSLOADED_NEW)DLPROC(m_Handle, "AMXX_PluginsLoaded");
if (!func) if (!func)
return; return;
func(); func();
} }
const char* CModule::getStatus() const const char* CModule::getStatus() const
{ {
switch (m_Status) switch(m_Status)
{ {
case MODULE_NONE: return "error"; case MODULE_NONE: return "error";
case MODULE_QUERY: return "pending"; case MODULE_QUERY: return "pending";
case MODULE_BADLOAD: return "bad load"; case MODULE_BADLOAD: return "bad load";
case MODULE_LOADED: return "running"; case MODULE_LOADED: return "running";
case MODULE_NOINFO: return "no info"; case MODULE_NOINFO: return "no info";
case MODULE_NOQUERY: return "no query"; case MODULE_NOQUERY: return "no query";
case MODULE_NOATTACH: return "no attach"; case MODULE_NOATTACH: return "no attach";
case MODULE_OLD: return "old"; case MODULE_OLD: return "old";
case MODULE_FUNCNOTPRESENT: case MODULE_FUNCNOTPRESENT:
case MODULE_NEWER: return "newer"; case MODULE_NEWER: return "newer";
case MODULE_INTERROR: return "internal err"; case MODULE_INTERROR: return "internal err";
case MODULE_NOT64BIT: return "not 64bit"; case MODULE_NOT64BIT: return "not 64bit";
default: break; default: break;
} }
return "unknown"; return "unknown";
} }

62
amxmodx/CModule.h
View File

@ -36,20 +36,19 @@
#ifndef CMODULE_H #ifndef CMODULE_H
#define CMODULE_H #define CMODULE_H
enum MODULE_STATUS enum MODULE_STATUS {
{ MODULE_NONE, // No module loaded
MODULE_NONE, // No module loaded MODULE_QUERY, // Query failed
MODULE_QUERY, // Query failed MODULE_BADLOAD, // Bad file or the module writer messed something up ;]
MODULE_BADLOAD, // Bad file or the module writer messed something up ;] MODULE_LOADED, // Loaded
MODULE_LOADED, // Loaded MODULE_NOINFO, // No info
MODULE_NOINFO, // No info MODULE_NOQUERY, // No query function present
MODULE_NOQUERY, // No query function present MODULE_NOATTACH, // No attach function present
MODULE_NOATTACH, // No attach function present MODULE_OLD, // Old interface
MODULE_OLD, // Old interface MODULE_NEWER, // newer interface
MODULE_NEWER, // newer interface MODULE_INTERROR, // Internal error
MODULE_INTERROR, // Internal error MODULE_FUNCNOTPRESENT, // Function not present
MODULE_FUNCNOTPRESENT, // Function not present MODULE_NOT64BIT // Not 64 bit compatible
MODULE_NOT64BIT // Not 64 bit compatible
}; };
struct amxx_module_info_s struct amxx_module_info_s
@ -58,23 +57,22 @@ struct amxx_module_info_s
const char *author; const char *author;
const char *version; const char *version;
int reload; // reload on mapchange when nonzero int reload; // reload on mapchange when nonzero
const char *logtag; //added in version 2
}; };
#define AMXX_OK 0 /* no error */ #define AMXX_OK 0 /* no error */
#define AMXX_IFVERS 1 /* interface version */ #define AMXX_IFVERS 1 /* interface version */
#define AMXX_PARAM 2 /* Invalid parameter */ #define AMXX_PARAM 2 /* Invalid parameter */
#define AMXX_FUNC_NOT_PRESENT 3 /* Function not present */ #define AMXX_FUNC_NOT_PRESENT 3 /* Function not present */
#define AMXX_INTERFACE_VERSION 3 #define AMXX_INTERFACE_VERSION 1
class CModule class CModule
{ {
String m_Filename; // Filename String m_Filename; // Filename
bool m_Metamod; // Using metamod? bool m_Metamod; // Using metamod?
bool m_Amxx; // Using new module interface? bool m_Amxx; // Using new module interface?
module_info_s* m_InfoOld; // module info (old module interface)
amxx_module_info_s m_InfoNew; // module info (new module interface) amxx_module_info_s m_InfoNew; // module info (new module interface)
DLHANDLE m_Handle; // handle DLHANDLE m_Handle; // handle
MODULE_STATUS m_Status; // status MODULE_STATUS m_Status; // status
@ -86,32 +84,30 @@ public:
~CModule(); ~CModule();
// Interface // Interface
bool attachModule(); bool attachModule();
bool queryModule(); bool queryModule();
bool detachModule(); bool detachModule();
#ifndef FAKEMETA
bool attachMetamod(const char *mmfile, PLUG_LOADTIME now);
#endif
const char* getStatus() const; const char* getStatus() const;
inline const char* getType() const { return m_Amxx ? "amxx" : (m_Metamod ? "amx&mm" : "amx"); } inline const char* getType() const { return m_Amxx ? "amxx" : (m_Metamod ? "amx&mm" : "amx"); }
inline const char* getAuthor() const { return m_InfoNew.author; } inline const char* getAuthor() const { return m_Amxx ? (m_InfoNew.author) : (m_InfoOld ? m_InfoOld->author : "unknown"); }
inline const char* getVersion() const { return m_InfoNew.version; } inline const char* getVersion() const { return m_Amxx ? (m_InfoNew.version) : (m_InfoOld ? m_InfoOld->version : "unknown"); }
inline const char* getName() const { return m_InfoNew.name; } inline const char* getName() const { return m_Amxx ? (m_InfoNew.name) : (m_InfoOld ? m_InfoOld->name : "unknown"); }
inline module_info_s* getInfo() const { return m_InfoOld; } // old
inline const amxx_module_info_s* getInfoNew() const { return &m_InfoNew; } // new inline const amxx_module_info_s* getInfoNew() const { return &m_InfoNew; } // new
inline int getStatusValue() { return m_Status; } inline int getStatusValue() { return m_Status; }
inline bool operator==(const char* fname) { return !strcmp(m_Filename.c_str(), fname); } inline bool operator==( void* fname ) { return !strcmp( m_Filename.c_str() , (char*)fname ); }
inline bool isReloadable() { return ((m_Status == MODULE_LOADED) && (m_InfoNew.reload != 0)); } inline bool isReloadable() { return m_Amxx ? ((m_Status == MODULE_LOADED) && (m_InfoNew.reload != 0)) : ( (m_Status==MODULE_LOADED) && (m_InfoOld->type==RELOAD_MODULE)); }
inline bool isAmxx() const { return m_Amxx; } inline bool isAmxx() const { return m_Amxx; }
inline const char *getMissingFunc() const { return m_MissingFunc; } inline const char *getMissingFunc() const { return m_MissingFunc; }
inline const char *getFilename() { return m_Filename.c_str(); } inline const char *getFilename() { return m_Filename.c_str(); }
inline bool IsMetamod() { return m_Metamod; } void CModule::CallPluginsLoaded();
void CallPluginsLoaded();
CList<AMX_NATIVE_INFO*> m_Natives; CList<AMX_NATIVE_INFO*> m_Natives;
}; };
#endif //CMODULE_H
#endif

346
amxmodx/CPlugin.cpp
View File

@ -33,326 +33,135 @@
#include "CPlugin.h" #include "CPlugin.h"
#include "CForward.h" #include "CForward.h"
#include "CFile.h" #include "CFile.h"
#include "amx.h"
#include "natives.h"
#include "debugger.h"
extern const char *no_function; CPluginMngr::CPlugin* CPluginMngr::loadPlugin(const char* path, const char* name, char* error) {
CPluginMngr::CPlugin* CPluginMngr::loadPlugin(const char* path, const char* name, char* error, int debug)
{
CPlugin** a = &head; CPlugin** a = &head;
while( *a ) a = &(*a)->next;
while (*a) *a = new CPlugin( pCounter++ ,path,name,error);
a = &(*a)->next; return *error ? 0 : *a;
*a = new CPlugin(pCounter++, path, name, error, debug);
return (*a);
} }
void CPluginMngr::unloadPlugin(CPlugin** a) void CPluginMngr::unloadPlugin( CPlugin** a ) {
{
CPlugin* next = (*a)->next; CPlugin* next = (*a)->next;
delete *a; delete *a;
*a = next; *a = next;
--pCounter; --pCounter;
} }
void CPluginMngr::Finalize() int CPluginMngr::loadPluginsFromFile( const char* filename )
{ {
if (m_Finalized) File fp( build_pathname("%s",filename) , "r" );
return;
pNatives = BuildNativeTable(); if ( !fp )
CPlugin *a = head;
while (a)
{ {
if (a->getStatusCode() == ps_running) AMXXLOG_Log( "[AMXX] Plugins list not found (file \"%s\")",filename);
{
amx_Register(a->getAMX(), pNatives, -1);
a->Finalize();
}
a = a->next;
}
m_Finalized = true;
}
int CPluginMngr::loadPluginsFromFile(const char* filename)
{
char file[256];
FILE *fp = fopen(build_pathname_r(file, sizeof(file) - 1, "%s", filename), "rt");
if (!fp)
{
AMXXLOG_Log("[AMXX] Plugins list not found (file \"%s\")", filename);
return 1; return 1;
} }
// Find now folder // Find now folder
char pluginName[256], error[256], debug[256]; char pluginName[256], line[256], error[256];
int debugFlag = 0; const char *pluginsDir = get_localinfo("amxx_pluginsdir", "addons/amxx/plugins");
const char *pluginsDir = get_localinfo("amxx_pluginsdir", "addons/amxmodx/plugins");
String line;
while (!feof(fp)) while ( fp.getline(line , 255 ) )
{ {
pluginName[0] = '\0'; *pluginName = 0;
sscanf(line,"%s",pluginName);
if (!isalnum(*pluginName)) continue;
debug[0] = '\0'; CPlugin* plugin = loadPlugin( pluginsDir , pluginName , error );
debugFlag = 0;
line.clear(); if (!plugin)
line._fread(fp); AMXXLOG_Log("[AMXX] %s (plugin \"%s\")", error, pluginName );
sscanf(line.c_str(), "%s %s", pluginName, debug);
if (!isalnum(*pluginName))
continue;
if (isalnum(*debug) && strcmp(debug, "debug") == 0)
{
debugFlag = 1;
}
CPlugin* plugin = loadPlugin(pluginsDir, pluginName, error, debugFlag);
if (plugin->getStatusCode() == ps_bad_load)
{
char errorMsg[255];
sprintf(errorMsg, "%s (plugin \"%s\")", error, pluginName);
plugin->setError(errorMsg);
AMXXLOG_Log("[AMXX] %s", plugin->getError());
}
} }
fclose(fp);
return pCounter; return pCounter;
} }
void CPluginMngr::clear() void CPluginMngr::clear() {
{
CPlugin**a = &head; CPlugin**a = &head;
while ( *a )
while (*a)
unloadPlugin(a); unloadPlugin(a);
m_Finalized = false;
if (pNatives)
{
delete [] pNatives;
pNatives = NULL;
}
} }
CPluginMngr::CPlugin* CPluginMngr::findPlugin(AMX *amx) CPluginMngr::CPlugin* CPluginMngr::findPluginFast(AMX *amx)
{ {
return (CPlugin*)(amx->userdata[3]);
/*CPlugin*a = head;
while ( a && &a->amx != amx )
a=a->next;
return a;*/
}
CPluginMngr::CPlugin* CPluginMngr::findPlugin(AMX *amx) {
CPlugin*a = head; CPlugin*a = head;
while ( a && &a->amx != amx )
while (a && &a->amx != amx) a=a->next;
a = a->next;
return a; return a;
} }
CPluginMngr::CPlugin* CPluginMngr::findPlugin(int index) CPluginMngr::CPlugin* CPluginMngr::findPlugin(int index){
{
CPlugin*a = head; CPlugin*a = head;
while ( a && index--)
while (a && index--) a=a->next;
a = a->next;
return a; return a;
} }
CPluginMngr::CPlugin* CPluginMngr::findPlugin(const char* name) CPluginMngr::CPlugin* CPluginMngr::findPlugin(const char* name) {
{ if (!name) return 0;
if (!name)
return 0;
int len = strlen(name); int len = strlen(name);
if (!len) return 0;
if (!len)
return 0;
CPlugin*a = head; CPlugin*a = head;
while( a && strncmp(a->name.c_str(), name,len) )
while (a && strncmp(a->name.c_str(), name, len)) a=a->next;
a = a->next;
return a; return a;
} }
const char* CPluginMngr::CPlugin::getStatus() const const char* CPluginMngr::CPlugin::getStatus() const {
{ switch(status){
switch (status) case ps_running: return "running";
{ case ps_paused: return "paused";
case ps_running: case ps_bad_load: return "bad load";
{ case ps_stopped: return "stopped";
if (m_Debug) case ps_locked: return "locked";
{
return "debug";
} else {
return "running";
}
break;
}
case ps_paused: return "paused";
case ps_bad_load: return "bad load";
case ps_stopped: return "stopped";
case ps_locked: return "locked";
} }
return "error"; return "error";
} }
CPluginMngr::CPlugin::CPlugin(int i, const char* p, const char* n, char* e, int d) : name(n), title(n) CPluginMngr::CPlugin::CPlugin(int i, const char* p,const char* n, char* e) : name(n), title(n) {
{
const char* unk = "unknown"; const char* unk = "unknown";
title.assign(unk); title.assign(unk);
author.assign(unk); author.assign(unk);
version.assign(unk); version.assign(unk);
char* path = build_pathname("%s/%s",p,n);
char file[256];
char* path = build_pathname_r(file, sizeof(file) - 1, "%s/%s", p, n);
code = 0; code = 0;
memset(&amx, 0, sizeof(AMX)); int err = load_amxscript(&amx,&code,path,e );
int err = load_amxscript(&amx, &code, path, e, d); if ( err == AMX_ERR_NONE ) status = ps_running;
else status = ps_bad_load;
if (err == AMX_ERR_NONE) amx.userdata[3] = this;
{
status = ps_running;
} else {
status = ps_bad_load;
}
amx.userdata[UD_FINDPLUGIN] = this;
paused_fun = 0; paused_fun = 0;
next = 0; next = 0;
id = i; id = i;
}
CPluginMngr::CPlugin::~CPlugin( ){
unload_amxscript( &amx, &code );
}
if (status == ps_running) void CPluginMngr::CPlugin::pauseFunction( int id ) {
{ if (isValid()){
m_PauseFwd = registerSPForwardByName(&amx, "plugin_pause"); paused_fun |= (1<<id);
m_UnpauseFwd = registerSPForwardByName(&amx, "plugin_unpause"); g_commands.clearBufforedInfo();
if (amx.flags & AMX_FLAG_DEBUG)
{
m_Debug = true;
} else {
m_Debug = false;
}
} }
} }
CPluginMngr::CPlugin::~CPlugin() void CPluginMngr::CPlugin::unpauseFunction( int id ) {
{ if (isValid()) {
unload_amxscript(&amx, &code); paused_fun &= ~(1<<id);
} g_commands.clearBufforedInfo();
int AMXAPI native_handler(AMX *amx, int index)
{
Handler *pHandler = (Handler *)amx->userdata[UD_HANDLER];
char name[sNAMEMAX + 1];
amx_GetNative(amx, index, name);
return pHandler->HandleNative(name, index, 0);
}
static cell AMX_NATIVE_CALL invalid_native(AMX *amx, cell *params)
{
//A script has accidentally called an invalid native! give them a
// first chance to block the resulting error.
Handler *pHandler = (Handler *)amx->userdata[UD_HANDLER];
//this should never happen
if (!pHandler)
{
LogError(amx, AMX_ERR_INVNATIVE, "Invalid native attempt");
return 0;
}
//this should never happen because this native won't be called
// if the plugin isn't filtering.
if (!pHandler->IsNativeFiltering())
{
LogError(amx, AMX_ERR_INVNATIVE, "Invalid native attempt");
return 0;
}
char name[sNAMEMAX + 1];
int native = (int)(_INT_PTR)(amx->usertags[UT_NATIVE]);
int err = amx_GetNative(amx, native, name);
if (err != AMX_ERR_NONE)
name[0] = '\0';
//1 - because we're trapping usage
if (!pHandler->HandleNative(name, native, 1))
{
amx->usertags[UT_NATIVE] = (void *)native;
LogError(amx, AMX_ERR_INVNATIVE, NULL);
return 0;
}
//Someday maybe allow native filters to write their own return value?
return 0;
}
void CPluginMngr::CPlugin::Finalize()
{
char buffer[128];
int old_status = status;
if (CheckModules(&amx, buffer))
{
if (amx_Register(&amx, core_Natives, -1) != AMX_ERR_NONE)
{
Handler *pHandler = (Handler *)amx.userdata[UD_HANDLER];
int res = 0;
if (pHandler->IsNativeFiltering())
res = amx_CheckNatives(&amx, native_handler);
if (!res)
{
status = ps_bad_load;
sprintf(buffer, "Plugin uses an unknown function (name \"%s\") - check your modules.ini.", no_function);
errorMsg.assign(buffer);
amx.error = AMX_ERR_NOTFOUND;
} else {
amx_RegisterToAny(&amx, invalid_native);
}
}
} else {
status = ps_bad_load;
errorMsg.assign(buffer);
amx.error = AMX_ERR_NOTFOUND;
}
if (old_status != status)
{
AMXXLOG_Log("[AMXX] Plugin \"%s\" failed to load: %s", name.c_str(), errorMsg.c_str());
} }
} }
void CPluginMngr::CPlugin::pauseFunction(int id) void CPluginMngr::CPlugin::setStatus( int a ) {
{
}
void CPluginMngr::CPlugin::unpauseFunction(int id)
{
}
void CPluginMngr::CPlugin::setStatus(int a)
{
status = a; status = a;
g_commands.clearBufforedInfo(); // ugly way g_commands.clearBufforedInfo(); // ugly way
} }
@ -363,8 +172,16 @@ void CPluginMngr::CPlugin::pausePlugin()
if (isValid()) if (isValid())
{ {
// call plugin_pause if provided // call plugin_pause if provided
if (m_PauseFwd != -1) int func;
executeForwards(m_PauseFwd); cell retval;
if (amx_FindPublic(&amx, "plugin_pause", &func) == AMX_ERR_NONE)
{
if (isExecutable(func))
{
amx_Exec(&amx, &retval, func, 0);
}
}
setStatus(ps_paused); setStatus(ps_paused);
} }
@ -376,10 +193,17 @@ void CPluginMngr::CPlugin::unpausePlugin()
if (isValid()) if (isValid())
{ {
// set status first so the function will be marked executable // set status first so the function will be marked executable
setStatus(ps_running);
setStatus(ps_running);
// call plugin_unpause if provided // call plugin_unpause if provided
if (m_UnpauseFwd != -1) int func;
executeForwards(m_UnpauseFwd); cell retval;
if (amx_FindPublic(&amx, "plugin_unpause", &func) == AMX_ERR_NONE)
{
if (isExecutable(func))
{
amx_Exec(&amx, &retval, func, 0);
}
}
} }
} }

83
amxmodx/CPlugin.h
View File

@ -36,18 +36,18 @@
// class CPluginMngr // class CPluginMngr
// ***************************************************** // *****************************************************
enum enum {
{ ps_bad_load,
ps_bad_load, //Load failed ps_error,
ps_error, //Erroneous state ps_paused,
ps_locked, //UNUSED ps_running,
ps_paused, //Plugin is temporarily paused ps_stopped,
ps_stopped, //Plugin is ... more temporarily paused ps_locked
ps_running, //Plugin is running
}; };
class CPluginMngr class CPluginMngr
{ {
public: public:
class iterator; class iterator;
@ -59,80 +59,62 @@ public:
AMX amx; AMX amx;
void* code; void* code;
String name; String name;
String version; String version;
String title; String title;
String author; String author;
String errorMsg;
int m_PauseFwd;
int m_UnpauseFwd;
int paused_fun; int paused_fun;
int status; int status;
CPlugin* next; CPlugin* next;
int id; int id;
CPlugin(int i , const char* p,const char* n, char* e);
~CPlugin( );
CPlugin(int i, const char* p, const char* n, char* e, int d);
~CPlugin();
bool m_Debug;
public: public:
inline const char* getName() { return name.c_str();} inline const char* getName() { return name.c_str();}
inline const char* getVersion() { return version.c_str();} inline const char* getVersion() { return version.c_str();}
inline const char* getTitle() { return title.c_str();} inline const char* getTitle() { return title.c_str();}
inline const char* getAuthor() { return author.c_str();} inline const char* getAuthor() { return author.c_str();}
inline const char* getError() { return errorMsg.c_str();}
inline int getStatusCode() { return status; }
inline int getId() const { return id; } inline int getId() const { return id; }
inline AMX* getAMX() { return &amx; } inline AMX* getAMX() { return &amx; }
inline const AMX* getAMX() const { return &amx; } inline void setTitle( const char* n ) { title.assign(n); }
inline void setTitle(const char* n) { title.assign(n); } inline void setAuthor( const char* n ) { author.assign(n); }
inline void setAuthor(const char* n) { author.assign(n); } inline void setVersion( const char* n ) { version.assign(n); }
inline void setVersion(const char* n) { version.assign(n); } inline bool isValid() const { return ((status != ps_bad_load) && (status != ps_locked)); }
inline void setError(const char* n) { errorMsg.assign(n); } inline bool isPaused() const { return ( (status == ps_paused) || (status == ps_stopped)); }
inline bool isValid() const { return (status >= ps_paused); } inline bool isFunctionPaused( int id ) const { return (paused_fun & (1<<id)) ? true : false; }
inline bool isPaused() const { return ((status == ps_paused) || (status == ps_stopped)); } inline bool isExecutable(int id) const { return (isValid() && !isPaused() && !isFunctionPaused(id)); }
inline bool isExecutable(int id) const { return (isValid() && !isPaused()); }
void Finalize();
void pausePlugin(); void pausePlugin();
void unpausePlugin(); void unpausePlugin();
void pauseFunction(int id); void pauseFunction( int id );
void unpauseFunction(int id); void unpauseFunction( int id );
void setStatus(int a); void setStatus( int a );
const char* getStatus() const; const char* getStatus() const;
inline bool isDebug() const { return m_Debug; }
}; };
private: private:
CPlugin *head; CPlugin *head;
int pCounter; int pCounter;
public:
CPluginMngr() { head = 0; pCounter = 0; pNatives = NULL; m_Finalized=false;}
~CPluginMngr() { clear(); }
bool m_Finalized;
AMX_NATIVE_INFO *pNatives; public:
CPluginMngr() { head = 0; pCounter = 0; }
~CPluginMngr() { clear(); }
// Interface // Interface
CPlugin* loadPlugin(const char* path, const char* name, char* error, int debug); CPlugin* loadPlugin(const char* path, const char* name, char* error);
void unloadPlugin(CPlugin** a); void unloadPlugin( CPlugin** a );
int loadPluginsFromFile(const char* filename); int loadPluginsFromFile( const char* filename );
CPlugin* findPluginFast(AMX *amx);
inline CPlugin* findPluginFast(AMX *amx) { return (CPlugin*)(amx->userdata[UD_FINDPLUGIN]); }
CPlugin* findPlugin(AMX *amx); CPlugin* findPlugin(AMX *amx);
CPlugin* findPlugin(int index); CPlugin* findPlugin(int index);
CPlugin* findPlugin(const char* name); CPlugin* findPlugin(const char* name);
inline int getPluginsNum() const { return pCounter; } inline int getPluginsNum() const { return pCounter; }
void Finalize();
void clear(); void clear();
class iterator class iterator {
{
CPlugin *a; CPlugin *a;
public: public:
iterator(CPlugin*aa) : a(aa) {} iterator(CPlugin*aa) : a(aa) {}
@ -142,9 +124,10 @@ public:
operator bool () const { return a ? true : false; } operator bool () const { return a ? true : false; }
CPlugin& operator*() { return *a; } CPlugin& operator*() { return *a; }
}; };
inline iterator begin() const { return iterator(head); } inline iterator begin() const { return iterator(head); }
inline iterator end() const { return iterator(0); } inline iterator end() const { return iterator(0); }
}; };
#endif //PLUGIN_H #endif

7
amxmodx/CQueue.h
View File

@ -45,17 +45,14 @@ public:
item = i; item = i;
next = n; next = n;
} }
CQueueItem *GetNext() CQueueItem *GetNext()
{ {
return next; return next;
} }
T & GetItem() T & GetItem()
{ {
return item; return item;
} }
void SetNext(CQueueItem *n) void SetNext(CQueueItem *n)
{ {
next = n; next = n;
@ -74,7 +71,7 @@ public:
bool empty() bool empty()
{ {
return ((mSize == 0) ? true : false); return ((mSize==0)?true:false);
} }
void push(const T &v) void push(const T &v)
@ -122,8 +119,8 @@ public:
private: private:
CQueueItem *mFirst; CQueueItem *mFirst;
CQueueItem *mLast; CQueueItem *mLast;
unsigned int mSize; unsigned int mSize;
}; };
#endif //_INCLUDE_CQUEUE_H #endif //_INCLUDE_CQUEUE_H

245
amxmodx/CString.h
View File

@ -32,9 +32,6 @@
#ifndef _INCLUDE_CSTRING_H #ifndef _INCLUDE_CSTRING_H
#define _INCLUDE_CSTRING_H #define _INCLUDE_CSTRING_H
#include <string.h>
#include <stdio.h>
//by David "BAILOPAN" Anderson //by David "BAILOPAN" Anderson
class String class String
{ {
@ -42,8 +39,10 @@ public:
String() String()
{ {
v = NULL; v = NULL;
a_size = 0; mSize = 0;
//assign(""); cSize = 0;
Grow(2);
assign("");
} }
~String() ~String()
@ -55,45 +54,41 @@ public:
String(const char *src) String(const char *src)
{ {
v = NULL; v = NULL;
a_size = 0; mSize = 0;
assign(src); cSize = 0; assign(src);
} }
const char * _fread(FILE *fp) String(String &src)
{
Grow(512, false);
char *ret = fgets(v, 511, fp);
return ret;
}
String(const String &src)
{ {
v = NULL; v = NULL;
a_size = 0; mSize = 0;
cSize = 0;
assign(src.c_str()); assign(src.c_str());
} }
const char *c_str() { return v?v:""; } const char *c_str() { return v?v:""; }
const char *c_str() const { return v?v:""; } const char *c_str() const { return v?v:""; }
void append(const char *t) void append(const char *t)
{ {
Grow(size() + strlen(t) + 1); Grow(cSize + strlen(t));
strcat(v, t); strcat(v, t);
cSize = strlen(v);
} }
void append(const char c) void append(const char c)
{ {
size_t len = size(); Grow(cSize + 2);
Grow(len + 2); v[cSize] = c;
v[len] = c; v[++cSize] = 0;
v[len + 1] = '\0';
} }
void append(String &d) void append(String &d)
{ {
append(d.c_str()); const char *t = d.c_str();
Grow(cSize + strlen(t));
strcat(v, t);
cSize = strlen(v);
} }
void assign(const String &src) void assign(const String &src)
@ -105,58 +100,79 @@ public:
{ {
if (!d) if (!d)
{ {
clear(); Grow(1);
cSize = 0;
strcpy(v, "");
return;
}
Grow(strlen(d));
if (v)
{
strcpy(v, d);
cSize = strlen(v);
} else { } else {
size_t len = strlen(d); cSize = 0;
Grow(len + 1, false);
memcpy(v, d, len);
v[len] = '\0';
} }
} }
void clear() void clear()
{ {
if (v) if (v)
v[0] = '\0'; {
v[0] = 0;
cSize = 0;
}
} }
int compare (const char *d) const int compare (const char *d)
{ {
if (!v) if (v) {
return strcmp("", d); if (d) {
else return strcmp(v, d);
return strcmp(v, d); } else {
return strlen(v);
}
} else {
if (d) {
return strlen(d);
} else {
return 0;
}
}
} }
//Added this for amxx inclusion //Added this for amxx inclusion
bool empty() bool empty()
{ {
if (!v) if (!v || !cSize)
return true;
if (v[0] == '\0')
return true; return true;
return false; return false;
} }
size_t size() int size()
{ {
if (v) if (!v)
return strlen(v);
else
return 0; return 0;
return cSize;
}
const char * _fread(FILE *fp)
{
Grow(512);
char * ret = fgets(v, 511, fp);
cSize = strlen(v);
return ret;
} }
int find(const char c, int index = 0) int find(const char c, int index = 0)
{ {
int len = static_cast<int>(size()); if (!v)
if (len < 1)
return npos; return npos;
if (index >= len || index < 0) if (index >= (int)cSize || index < 0)
return npos; return npos;
int i = 0; unsigned int i = 0;
for (i=index; i<len; i++) for (i=index; i<cSize; i++)
{ {
if (v[i] == c) if (v[i] == c)
{ {
@ -171,7 +187,7 @@ public:
{ {
if (c == '\f' || c == '\n' || if (c == '\f' || c == '\n' ||
c == '\t' || c == '\r' || c == '\t' || c == '\r' ||
c == '\v' || c == ' ') c == 'v' || c == ' ')
{ {
return true; return true;
} }
@ -179,40 +195,14 @@ public:
return false; return false;
} }
void reparse_newlines()
{
size_t len = size();
int offs = 0;
char c;
if (!len)
return;
for (size_t i=0; i<len; i++)
{
c = v[i];
if (c == '^' && (i != len-1))
{
c = v[++i];
if (c == 'n')
c = '\n';
else if (c == 't')
c = '\t';
offs++;
}
v[i-offs] = c;
}
v[len-offs] = '\0';
}
void trim() void trim()
{ {
if (!v) if (!v)
return; return;
unsigned int i = 0; unsigned int i = 0;
unsigned int j = 0; unsigned int j = 0;
size_t len = strlen(v);
if (len == 1) if (cSize == 1)
{ {
if (is_space(v[i])) if (is_space(v[i]))
{ {
@ -225,9 +215,9 @@ public:
if (is_space(c0)) if (is_space(c0))
{ {
for (i=0; i<len; i++) for (i=0; i<cSize; i++)
{ {
if (!is_space(v[i]) || (is_space(v[i]) && ((unsigned char)i==len-1))) if (!is_space(v[i]) || (is_space(v[i]) && ((unsigned char)i==cSize-1)))
{ {
erase(0, i); erase(0, i);
break; break;
@ -235,16 +225,16 @@ public:
} }
} }
len = strlen(v); cSize = strlen(v);
if (len < 1) if (cSize < 1)
{ {
return; return;
} }
if (is_space(v[len-1])) if (is_space(v[cSize-1]))
{ {
for (i=len-1; i>=0; i--) for (i=cSize-1; i>=0; i--)
{ {
if (!is_space(v[i]) if (!is_space(v[i])
|| (is_space(v[i]) && i==0)) || (is_space(v[i]) && i==0))
@ -256,7 +246,7 @@ public:
} }
} }
if (len == 1) if (cSize == 1)
{ {
if (is_space(v[0])) if (is_space(v[0]))
{ {
@ -266,22 +256,21 @@ public:
} }
} }
void erase(unsigned int start, int num = npos) String & erase(unsigned int start, int num = npos)
{ {
if (!v) if (!v)
return; return (*this);
unsigned int i = 0; unsigned int i = 0;
size_t len = size();
//check for bounds //check for bounds
if (num == npos || start+num > len-start) if (num == npos || start+num > cSize-num+1)
num = len - start; num = cSize - start;
//do the erasing //do the erasing
bool copyflag = false; bool copyflag = false;
for (i=0; i<len; i++) for (i=0; i<cSize; i++)
{ {
if (i>=start && i<start+num) if (i>=start && i<start+num)
{ {
if (i+num < len) if (i+num < cSize)
{ {
v[i] = v[i+num]; v[i] = v[i+num];
} else { } else {
@ -289,7 +278,7 @@ public:
} }
copyflag = true; copyflag = true;
} else if (copyflag) { } else if (copyflag) {
if (i+num < len) if (i+num < cSize)
{ {
v[i] = v[i+num]; v[i] = v[i+num];
} else { } else {
@ -297,39 +286,38 @@ public:
} }
} }
} }
len -= num; cSize -= num;
v[len] = 0; v[cSize] = 0;
return (*this);
} }
String substr(unsigned int index, int num = npos) String substr(unsigned int index, int num = npos)
{ {
if (!v)
{
String b("");
return b;
}
String ns; String ns;
size_t len = size(); if (index >= cSize || !v)
if (index >= len || !v)
return ns; return ns;
if (num == npos) if (num == npos)
{ {
num = len - index; num = cSize - index;
} else if (index+num >= len) { } else if (index+num >= cSize) {
num = len - index; num = cSize - index;
} }
unsigned int i = 0; unsigned int i = 0, j=0;
unsigned int nslen = num + 2; char *s = new char[cSize+1];
ns.Grow(nslen);
for (i=index; i<index+num; i++) for (i=index; i<index+num; i++)
ns.append(v[i]); {
s[j++] = v[i];
}
s[j] = 0;
ns.assign(s);
delete [] s;
return ns; return ns;
} }
@ -339,11 +327,10 @@ public:
if (!v) if (!v)
return; return;
unsigned int i = 0; unsigned int i = 0;
size_t len = strlen(v); for (i=0; i<cSize; i++)
for (i=0; i<len; i++)
{ {
if (v[i] >= 65 && v[i] <= 90) if (v[i] >= 65 && v[i] <= 90)
v[i] &= ~(1<<5); v[i] |= 32;
} }
} }
@ -362,7 +349,7 @@ public:
char operator [] (unsigned int index) char operator [] (unsigned int index)
{ {
if (index > size() || !v) if (index > cSize)
{ {
return -1; return -1;
} else { } else {
@ -372,7 +359,7 @@ public:
int at(int a) int at(int a)
{ {
if (a < 0 || a >= (int)size() || !v) if (a < 0 || a >= (int)cSize)
return -1; return -1;
return v[a]; return v[a];
@ -380,7 +367,7 @@ public:
bool at(int at, char c) bool at(int at, char c)
{ {
if (at < 0 || at >= (int)size() || !v) if (at < 0 || at >= (int)cSize)
return false; return false;
v[at] = c; v[at] = c;
@ -389,23 +376,27 @@ public:
} }
private: private:
void Grow(unsigned int d, bool copy=true) void Grow(unsigned int d)
{ {
if (d <= a_size) if (d<1)
return; return;
char *n = new char[d + 1]; if (d > mSize)
if (copy && v) {
strcpy(n, v); mSize = d + 16; // allocate a buffer
if (v) char *t = new char[d+1];
delete [] v; if (v) {
else strcpy(t, v);
strcpy(n, ""); t[cSize] = 0;
v = n; delete [] v;
a_size = d + 1; }
v = t;
mSize = d;
}
} }
char *v; char *v;
unsigned int a_size; unsigned int mSize;
unsigned int cSize;
public: public:
static const int npos = -1; static const int npos = -1;
}; };

148
amxmodx/CTask.cpp
View File

@ -33,7 +33,6 @@
#include "CTask.h" #include "CTask.h"
/*********************** CTask ***********************/ /*********************** CTask ***********************/
int CTaskMngr::CTask::getTaskId() const int CTaskMngr::CTask::getTaskId() const
{ {
return m_iId; return m_iId;
@ -44,9 +43,8 @@ CPluginMngr::CPlugin *CTaskMngr::CTask::getPlugin() const
return m_pPlugin; return m_pPlugin;
} }
void CTaskMngr::CTask::set(CPluginMngr::CPlugin *pPlugin, int iFunc, int iFlags, cell iId, float fBase, int iParamsLen, const cell *pParams, int iRepeat, float fCurrentTime) void CTaskMngr::CTask::set(CPluginMngr::CPlugin *pPlugin, int iFunc, int iFlags, int iId, float fBase, int iParamsLen, const cell *pParams, int iRepeat, float fCurrentTime)
{ {
clear();
m_bFree = false; m_bFree = false;
m_pPlugin = pPlugin; m_pPlugin = pPlugin;
@ -54,29 +52,23 @@ void CTaskMngr::CTask::set(CPluginMngr::CPlugin *pPlugin, int iFunc, int iFlags,
m_iId = iId; m_iId = iId;
m_fBase = fBase; m_fBase = fBase;
if (iFlags & 2) m_iRepeat = (iFlags & 1) ? iRepeat : 0;
{ m_bLoop = (iFlags & 2) ? true : false;
m_bLoop = true; m_bAfterStart = (iFlags & 4) ? true : false;
m_iRepeat = -1; m_bBeforeEnd = (iFlags & 8) ? true : false;
}
else if (iFlags & 1)
{
m_bLoop = true;
m_iRepeat = iRepeat;
}
m_bAfterStart = (iFlags & 4) ? true : false;
m_bBeforeEnd = (iFlags & 8) ? true : false;
m_fNextExecTime = fCurrentTime + m_fBase; m_fNextExecTime = fCurrentTime + m_fBase;
if (iParamsLen) if (iParamsLen)
{ {
// also add a cell to the back with the value 0
m_iParamLen = iParamsLen + 1; m_iParamLen = iParamsLen + 1;
m_pParams = new cell[m_iParamLen]; m_pParams = new cell[m_iParamLen];
memcpy(m_pParams, pParams, sizeof(cell)*iParamsLen); memcpy(m_pParams, pParams, sizeof(cell)*iParamsLen);
m_pParams[iParamsLen] = 0; m_pParams[iParamsLen] = 0;
} else { }
else
{
m_iParamLen = 0; m_iParamLen = 0;
m_pParams = NULL; m_pParams = NULL;
} }
@ -85,29 +77,8 @@ void CTaskMngr::CTask::set(CPluginMngr::CPlugin *pPlugin, int iFunc, int iFlags,
void CTaskMngr::CTask::clear() void CTaskMngr::CTask::clear()
{ {
m_bFree = true; m_bFree = true;
if (m_iFunc >= 0)
{
unregisterSPForward(m_iFunc);
m_iFunc = -1;
}
if (m_pParams) if (m_pParams)
{
delete [] m_pParams; delete [] m_pParams;
m_pParams = NULL;
}
m_pPlugin = NULL;
m_iId = 0;
m_fBase = 0.0f;
m_iRepeat = 0;
m_bLoop = false;
m_bAfterStart = false;
m_bBeforeEnd = false;
m_fNextExecTime = 0.0f;
} }
bool CTaskMngr::CTask::isFree() const bool CTaskMngr::CTask::isFree() const
@ -127,9 +98,7 @@ void CTaskMngr::CTask::resetNextExecTime(float fCurrentTime)
void CTaskMngr::CTask::executeIfRequired(float fCurrentTime, float fTimeLimit, float fTimeLeft) void CTaskMngr::CTask::executeIfRequired(float fCurrentTime, float fTimeLimit, float fTimeLeft)
{ {
bool execute = false; bool execute=false;
bool done = false;
if (m_bAfterStart) if (m_bAfterStart)
{ {
if (fCurrentTime - fTimeLeft + 1.0f >= m_fBase) if (fCurrentTime - fTimeLeft + 1.0f >= m_fBase)
@ -141,63 +110,49 @@ void CTaskMngr::CTask::executeIfRequired(float fCurrentTime, float fTimeLimit, f
execute = true; execute = true;
} }
else if (m_fNextExecTime <= fCurrentTime) else if (m_fNextExecTime <= fCurrentTime)
{
execute = true; execute = true;
}
if (execute) if (execute)
{ {
//only bother calling if we have something to call if (m_pPlugin->isExecutable(m_iFunc))
if (!(m_bLoop && !m_iRepeat))
{ {
int err;
if (m_iParamLen) // call with parameters if (m_iParamLen) // call with parameters
{ {
cell arr = prepareCellArray(m_pParams, m_iParamLen); cell amx_addr, *phys_addr;
executeForwards(m_iFunc, arr, m_iId); if (amx_Allot(m_pPlugin->getAMX(), m_iParamLen, &amx_addr, &phys_addr) != AMX_ERR_NONE)
} else { AMXXLOG_Log("[AMXX] Failed to allocate AMX memory (task \"%d\") (plugin \"%s\")", m_iId, m_pPlugin->getName());
executeForwards(m_iFunc, m_iId); else
{
copy_amxmemory(phys_addr, m_pParams, m_iParamLen);
if ((err = amx_Exec(m_pPlugin->getAMX(), NULL, m_iFunc, 2, amx_addr, m_iId)) != AMX_ERR_NONE)
AMXXLOG_Log("[AMXX] Run time error %d on line %ld (task \"%d\") (plugin \"%s\")", err, m_pPlugin->getAMX()->curline, m_iId, m_pPlugin->getName());
amx_Release(m_pPlugin->getAMX(), amx_addr);
}
}
else
{
if ((err = amx_Exec(m_pPlugin->getAMX(), NULL, m_iFunc, 1, m_iId)) != AMX_ERR_NONE)
AMXXLOG_Log("[AMXX] Run time error %d on line %ld (task \"%d\") (plugin \"%s\")", err, m_pPlugin->getAMX()->curline, m_iId, m_pPlugin->getName());
} }
} }
if (isFree())
return;
// set new exec time OR remove the task if needed // set new exec time OR remove the task if needed
if (m_bLoop) if (m_bLoop || (--m_iRepeat > 0))
{ {
if (m_iRepeat != -1 && --m_iRepeat <= 0)
done = true;
} else {
done = true;
}
if (done)
{
clear();
} else {
m_fNextExecTime += m_fBase; m_fNextExecTime += m_fBase;
} }
else
{
m_bFree = true;
}
} }
} }
CTaskMngr::CTask::CTask() CTaskMngr::CTask::CTask()
{ {
m_bFree = true; m_bFree = true;
m_pPlugin = NULL;
m_iFunc = -1;
m_iId = 0;
m_fBase = 0.0f;
m_iRepeat = 0;
m_bLoop = false;
m_bAfterStart = false;
m_bBeforeEnd = false;
m_fNextExecTime = 0.0f;
m_iParamLen = 0;
m_pParams = NULL;
} }
CTaskMngr::CTask::~CTask() CTaskMngr::CTask::~CTask()
@ -206,7 +161,6 @@ CTaskMngr::CTask::~CTask()
} }
/*********************** CTaskMngr ***********************/ /*********************** CTaskMngr ***********************/
CTaskMngr::CTaskMngr() CTaskMngr::CTaskMngr()
{ {
m_pTmr_CurrentTime = NULL; m_pTmr_CurrentTime = NULL;
@ -214,11 +168,6 @@ CTaskMngr::CTaskMngr()
m_pTmr_TimeLeft = NULL; m_pTmr_TimeLeft = NULL;
} }
CTaskMngr::~CTaskMngr()
{
clear();
}
void CTaskMngr::registerTimers(float *pCurrentTime, float *pTimeLimit, float *pTimeLeft) void CTaskMngr::registerTimers(float *pCurrentTime, float *pTimeLimit, float *pTimeLeft)
{ {
m_pTmr_CurrentTime = pCurrentTime; m_pTmr_CurrentTime = pCurrentTime;
@ -226,22 +175,21 @@ void CTaskMngr::registerTimers(float *pCurrentTime, float *pTimeLimit, float *pT
m_pTmr_TimeLeft = pTimeLeft; m_pTmr_TimeLeft = pTimeLeft;
} }
void CTaskMngr::registerTask(CPluginMngr::CPlugin *pPlugin, int iFunc, int iFlags, cell iId, float fBase, int iParamsLen, const cell *pParams, int iRepeat) void CTaskMngr::registerTask(CPluginMngr::CPlugin *pPlugin, int iFunc, int iFlags, int iId, float fBase, int iParamsLen, const cell *pParams, int iRepeat)
{ {
// first, search for free tasks // first, search for free tasks
TaskListIter iter = m_Tasks.find(CTaskDescriptor(0, NULL, true)); TaskListIter iter = m_Tasks.find(CTaskDescriptor(0, NULL, true));
if (iter) if (iter)
{ {
// found: reuse it // found: reuse it
iter->set(pPlugin, iFunc, iFlags, iId, fBase, iParamsLen, pParams, iRepeat, *m_pTmr_CurrentTime); iter->set(pPlugin, iFunc, iFlags, iId, fBase, iParamsLen, pParams, iRepeat, *m_pTmr_CurrentTime);
} else { }
else
{
// not found: make a new one // not found: make a new one
CTask *pTmp = new CTask; CTask *pTmp = new CTask;
if (!pTmp) if (!pTmp)
return; return;
pTmp->set(pPlugin, iFunc, iFlags, iId, fBase, iParamsLen, pParams, iRepeat, *m_pTmr_CurrentTime); pTmp->set(pPlugin, iFunc, iFlags, iId, fBase, iParamsLen, pParams, iRepeat, *m_pTmr_CurrentTime);
m_Tasks.put(pTmp); m_Tasks.put(pTmp);
} }
@ -251,15 +199,13 @@ int CTaskMngr::removeTasks(int iId, AMX *pAmx)
{ {
CTaskDescriptor descriptor(iId, pAmx); CTaskDescriptor descriptor(iId, pAmx);
TaskListIter iter = m_Tasks.find(descriptor); TaskListIter iter = m_Tasks.find(descriptor);
int i = 0; int i=0;
while (iter) while (iter)
{ {
iter->clear(); iter->clear();
++i; ++i;
iter = m_Tasks.find(++iter, descriptor); iter = m_Tasks.find(++iter, descriptor);
} }
return i; return i;
} }
@ -267,16 +213,14 @@ int CTaskMngr::changeTasks(int iId, AMX *pAmx, float fNewBase)
{ {
CTaskDescriptor descriptor(iId, pAmx); CTaskDescriptor descriptor(iId, pAmx);
TaskListIter iter = m_Tasks.find(descriptor); TaskListIter iter = m_Tasks.find(descriptor);
int i = 0; int i=0;
while (iter) while (iter)
{ {
iter->changeBase(fNewBase); iter->changeBase(fNewBase);
iter->resetNextExecTime(*m_pTmr_CurrentTime); iter->resetNextExecTime(*m_pTmr_CurrentTime);
++i; ++i;
iter = m_Tasks.find(++iter, descriptor); iter = m_Tasks.find(++iter, descriptor);
} }
return i; return i;
} }

44
amxmodx/CTask.h
View File

@ -39,37 +39,34 @@ private:
class CTask class CTask
{ {
// task settings // task settings
CPluginMngr::CPlugin *m_pPlugin; CPluginMngr::CPlugin *m_pPlugin;
cell m_iId; int m_iId;
int m_iFunc; int m_iFunc;
int m_iRepeat; int m_iRepeat;
bool m_bLoop; bool m_bLoop;
bool m_bAfterStart; bool m_bAfterStart;
bool m_bBeforeEnd; bool m_bBeforeEnd;
float m_fBase; // for normal tasks, stores the interval, for the others, stores the amount of time before start / after end float m_fBase; // for normal tasks, stores the interval, for the others, stores the amount of time before start / after end
int m_iParamLen; int m_iParamLen;
cell *m_pParams; cell *m_pParams;
bool m_bFree; bool m_bFree;
// execution // execution
float m_fNextExecTime; float m_fNextExecTime;
public: public:
void set(CPluginMngr::CPlugin *pPlugin, int iFunc, int iFlags, cell iId, float fBase, int iParamsLen, const cell *pParams, int iRepeat, float fCurrentTime); inline void set(CPluginMngr::CPlugin *pPlugin, int iFunc, int iFlags, int iId, float fBase, int iParamsLen, const cell *pParams, int iRepeat, float fCurrentTime);
void clear(); inline void clear();
bool isFree() const; inline bool isFree() const;
CPluginMngr::CPlugin *getPlugin() const; inline CPluginMngr::CPlugin *getPlugin() const;
int getTaskId() const; inline int getTaskId() const;
void executeIfRequired(float fCurrentTime, float fTimeLimit, float fTimeLeft); // also removes the task if needed inline void executeIfRequired(float fCurrentTime, float fTimeLimit, float fTimeLeft); // also removes the task if needed
void changeBase(float fNewBase); inline void changeBase(float fNewBase);
void resetNextExecTime(float fCurrentTime); inline void resetNextExecTime(float fCurrentTime);
bool shouldRepeat(); inline bool shouldRepeat();
CTask(); CTask();
~CTask(); ~CTask();
@ -78,7 +75,7 @@ private:
class CTaskDescriptor class CTaskDescriptor
{ {
public: public:
cell m_iId; int m_iId;
AMX *m_pAmx; AMX *m_pAmx;
bool m_bFree; bool m_bFree;
@ -94,32 +91,31 @@ private:
if (right.m_bFree) if (right.m_bFree)
return left.isFree(); return left.isFree();
return !left.isFree() && (right.m_pAmx ? left.getPlugin()->getAMX() == right.m_pAmx : true) && left.getTaskId() == right.m_iId; return !left.isFree() &&
(right.m_pAmx ? left.getPlugin()->getAMX() == right.m_pAmx : true) &&
left.getTaskId() == right.m_iId;
} }
}; };
/*** CTaskMngr priv members ***/ /*** CTaskMngr priv members ***/
typedef CList<CTask, CTaskDescriptor> TaskList; typedef CList<CTask, CTaskDescriptor> TaskList;
typedef TaskList::iterator TaskListIter; typedef TaskList::iterator TaskListIter;
TaskList m_Tasks; TaskList m_Tasks;
float *m_pTmr_CurrentTime; float *m_pTmr_CurrentTime;
float *m_pTmr_TimeLimit; float *m_pTmr_TimeLimit;
float *m_pTmr_TimeLeft; float *m_pTmr_TimeLeft;
public: public:
CTaskMngr(); CTaskMngr();
~CTaskMngr();
void registerTimers(float *pCurrentTime, float *pTimeLimit, float *pTimeLeft); // The timers will always point to the right value void registerTimers(float *pCurrentTime, float *pTimeLimit, float *pTimeLeft); // The timers will always point to the right value
void registerTask(CPluginMngr::CPlugin *pPlugin, int iFunc, int iFlags, cell iId, float fBase, int iParamsLen, const cell *pParams, int iRepeat); void registerTask(CPluginMngr::CPlugin *pPlugin, int iFunc, int iFlags, int iId, float fBase, int iParamsLen, const cell *pParams, int iRepeat);
int removeTasks(int iId, AMX *pAmx); // remove all tasks that match the id and amx
int removeTasks(int iId, AMX *pAmx); // remove all tasks that match the id and amx int changeTasks(int iId, AMX *pAmx, float fNewBase); // change all tasks that match the id and amx
int changeTasks(int iId, AMX *pAmx, float fNewBase); // change all tasks that match the id and amx
bool taskExists(int iId, AMX *pAmx); bool taskExists(int iId, AMX *pAmx);
void startFrame(); void startFrame();
void clear(); void clear();
}; };
#endif //CTASK_H #endif

90
amxmodx/CVault.cpp
View File

@ -39,47 +39,46 @@
// ***************************************************** // *****************************************************
// class Vault // class Vault
// ***************************************************** // *****************************************************
bool Vault::exists( const char* k )
bool Vault::exists(const char* k)
{ {
if (*k == 0) return false; if ( *k == 0 ) return false;
return *find(k) != 0; return *find( k ) != 0;
} }
void Vault::put(const char* k, const char* v) void Vault::put( const char* k, const char* v )
{ {
if (*k == 0) return; if ( *k == 0 ) return;
if (*v == 0) if ( *v == 0 )
{ {
remove(k); remove( k );
return; return;
} }
Obj** a = find(k); Obj** a = find( k );
if (*a) if ( *a )
{ {
(*a)->value.assign(v); (*a)->value.assign(v);
(*a)->number = atoi(v); (*a)->number = atoi( v );
} }
else else
*a = new Obj(k, v); *a = new Obj( k , v );
} }
Vault::Obj::Obj(const char* k, const char* v): key(k), value(v), next(0) Vault::Obj::Obj( const char* k, const char* v): key(k) , value(v) , next(0) {
{
number = atoi(v); number = atoi(v);
} }
Vault::Obj** Vault::find(const char* n) Vault::Obj** Vault::find( const char* n )
{ {
Obj** a = &head; Obj** a = &head;
while (*a) while( *a )
{ {
if (strcmp((*a)->key.c_str(), n) == 0) if ( strcmp((*a)->key.c_str(), n) == 0 )
return a; return a;
a = &(*a)->next; a = &(*a)->next;
@ -89,89 +88,90 @@ Vault::Obj** Vault::find(const char* n)
} }
int Vault::get_number(const char* n) int Vault::get_number( const char* n )
{ {
if (*n == 0) return 0; if ( *n == 0 ) return 0;
Obj* b = *find(n); Obj* b = *find( n );
if (b == 0) return 0; if ( b == 0 ) return 0;
return b->number; return b->number;
} }
const char* Vault::get(const char* n) const char* Vault::get( const char* n )
{ {
if (*n == 0) return ""; if ( *n == 0 ) return "";
Obj* b = *find(n); Obj* b = *find( n );
if (b == 0) return ""; if ( b == 0 ) return "";
return b->value.c_str(); return b->value.c_str();
} }
void Vault::clear() void Vault::clear()
{ {
while (head) while ( head )
{ {
Obj* a = head->next; Obj* a = head->next;
delete head; delete head;
head = a; head = a;
} }
} }
void Vault::remove(const char* n) void Vault::remove( const char* n )
{ {
Obj** b = find(n); Obj** b = find( n );
if (*b == 0) return; if ( *b == 0 ) return;
Obj* a = (*b)->next; Obj* a = (*b)->next;
delete *b; delete *b;
*b = a; *b = a;
} }
void Vault::setSource(const char* n) void Vault::setSource( const char* n )
{ {
path.assign(n); path.assign(n);
} }
bool Vault::loadVault()
bool Vault::loadVault( )
{ {
if (path.empty()) return false; if ( path.empty() ) return false;
clear(); clear();
File a(path.c_str(), "r"); File a( path.c_str() , "r" );
if (!a) return false; if ( !a ) return false;
const int sz = 512; const int sz = 512;
char value[sz + 1]; char value[sz+1];
char key[sz + 1]; char key[sz+1];
while (a >> key && a.skipWs() && a.getline(value, sz)) while ( a >> key && a.skipWs() && a.getline( value , sz ) )
{ {
if (isalpha(*key)) if ( isalpha ( *key ) )
put(key, value); put( key, value );
} }
return true; return true;
} }
bool Vault::saveVault() bool Vault::saveVault( )
{ {
if (path.empty()) return false; if ( path.empty() ) return false;
File a(path.c_str(), "w"); File a( path.c_str() , "w" );
if (!a) return false; if ( !a ) return false;
a << "; Don't modify!" << '\n'; a << "; Don't modify!" << '\n';
for (Obj* b = head; b; b = b->next) for (Obj* b = head; b ;b = b->next)
a << b->key << '\t' << b->value << '\n'; a << b->key << '\t' << b->value << '\n';
return true; return true;

76
amxmodx/CVault.h
View File

@ -41,55 +41,53 @@
class Vault class Vault
{ {
struct Obj struct Obj
{ {
String key; String key;
String value; String value;
int number;
Obj *next;
Obj( const char* k, const char* v);
} *head;
int number; String path;
Obj *next;
Obj(const char* k, const char* v);
} *head;
String path; Obj** find( const char* n );
Obj** find(const char* n);
public: public:
Vault() { head = 0; } Vault() {head=0;}
~Vault() { clear(); } ~Vault() { clear();}
// Interface // Interface
bool exists(const char* k); bool exists( const char* k );
void put(const char* k, const char* v);
void remove( const char* k );
const char* get( const char* n );
int get_number( const char* n );
void setSource( const char* n );
bool loadVault( );
bool saveVault( );
void clear();
void put(const char* k, const char* v);
void remove(const char* k);
const char* get(const char* n); class iterator {
int get_number(const char* n); Obj * a;
void setSource(const char* n); public:
iterator(Obj*aa) : a(aa) {}
iterator& operator++() { if ( a ) a = a->next; return *this; }
bool operator==(const iterator& b) const { return a == b.a; }
bool operator!=(const iterator& b) const { return !operator==(b); }
String& key() const { return a->key; }
String& value() const { return a->value; }
};
bool loadVault(); inline iterator begin() const { return iterator(head); }
bool saveVault(); inline iterator end() const { return iterator(0); }
void clear();
class iterator
{
Obj * a;
public:
iterator(Obj* aa) : a(aa) {}
iterator& operator++() { if (a) a = a->next; return *this; }
bool operator==(const iterator& b) const { return a == b.a; }
bool operator!=(const iterator& b) const { return !operator==(b); }
String& key() const { return a->key; }
String& value() const { return a->value; }
};
inline iterator begin() const { return iterator(head); }
inline iterator end() const { return iterator(0); }
}; };
#endif //VAULT_CUSTOM_H #endif

125
amxmodx/CVector.h
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@ -32,8 +32,6 @@
#ifndef __CVECTOR_H__ #ifndef __CVECTOR_H__
#define __CVECTOR_H__ #define __CVECTOR_H__
#include <assert.h>
// Vector // Vector
template <class T> class CVector template <class T> class CVector
{ {
@ -48,8 +46,7 @@ template <class T> class CVector
return false; return false;
if (m_Data) if (m_Data)
{ {
for (size_t i=0; i<m_CurrentUsedSize; i++) memcpy(newData, m_Data, m_Size * sizeof(T));
newData[i] = m_Data[i];
delete [] m_Data; delete [] m_Data;
} }
m_Data = newData; m_Data = newData;
@ -70,58 +67,30 @@ template <class T> class CVector
// change size // change size
if (size == m_Size) if (size == m_Size)
return true; return true;
if (!size)
{
if (m_Data)
{
delete [] m_Data;
m_Data = NULL;
m_Size = 0;
}
return true;
}
T *newData = new T[size]; T *newData = new T[size];
if (!newData) if (!newData)
return false; return false;
if (m_Data) if (m_Data)
{ {
size_t end = (m_CurrentUsedSize < size) ? (m_CurrentUsedSize) : size; memcpy(newData, m_Data, (m_Size < size) ? (m_Size * sizeof(T)) : (size * sizeof(T)));
for (size_t i=0; i<end; i++)
newData[i] = m_Data[i];
delete [] m_Data; delete [] m_Data;
} }
if (m_Size < size)
m_CurrentSize = size;
m_Data = newData; m_Data = newData;
m_Size = size; m_Size = size;
if (m_CurrentUsedSize > m_Size)
m_CurrentUsedSize = m_Size;
return true; return true;
} }
void FreeMemIfPossible() void FreeMemIfPossible()
{ {
if (!m_Data)
return;
if (!m_CurrentUsedSize)
{
ChangeSize(0);
return;
}
size_t newSize = m_Size;
while (m_CurrentUsedSize <= newSize / 2)
newSize /= 2;
if (newSize != m_Size)
ChangeSize(newSize);
} }
protected: protected:
T *m_Data; T *m_Data;
size_t m_Size; size_t m_Size;
size_t m_CurrentUsedSize; size_t m_CurrentUsedSize;
size_t m_CurrentSize;
public: public:
class iterator class iterator
{ {
@ -215,7 +184,7 @@ public:
iterator & operator-=(size_t offset) iterator & operator-=(size_t offset)
{ {
m_Ptr -= offset; m_Ptr += offset;
return (*this); return (*this);
} }
@ -229,7 +198,7 @@ public:
iterator operator-(size_t offset) const iterator operator-(size_t offset) const
{ {
iterator tmp(*this); iterator tmp(*this);
tmp.m_Ptr -= offset; tmp.m_Ptr += offset;
return tmp; return tmp;
} }
@ -280,11 +249,10 @@ public:
CVector<T>(const CVector<T> & other) CVector<T>(const CVector<T> & other)
{ {
// copy data // copy data
m_Data = new T [other.m_CurrentUsedSize]; m_Data = new T [other.m_Size];
m_Size = other.m_CurrentUsedSize; m_Size = other.m_Size;
m_CurrentUsedSize = other.m_CurrentUsedSize; m_CurrentUsedSize = other.m_CurrentUsedSize;
for (size_t i=0; i<other.m_CurrentUsedSize; i++) memcpy(m_Data, other.m_Data, m_CurrentUsedSize * sizeof(T));
m_Data[i] = other.m_Data[i];
} }
~CVector<T>() ~CVector<T>()
@ -303,12 +271,12 @@ public:
return m_Size; return m_Size;
} }
iterator begin() const iterator begin()
{ {
return iterator(m_Data); return iterator(m_Data);
} }
iterator end() const iterator end()
{ {
return iterator(m_Data + m_CurrentUsedSize); return iterator(m_Data + m_CurrentUsedSize);
} }
@ -316,15 +284,13 @@ public:
iterator iterAt(size_t pos) iterator iterAt(size_t pos)
{ {
if (pos > m_CurrentUsedSize) if (pos > m_CurrentUsedSize)
assert(0); ASSERT(0);
return iterator(m_Data + pos); return iterator(m_Data + pos);
} }
bool reserve(size_t newSize) bool reserve(size_t newSize)
{ {
if (newSize > m_Size) return ChangeSize(newSize);
return ChangeSize(newSize);
return true;
} }
bool push_back(const T & elem) bool push_back(const T & elem)
@ -345,15 +311,14 @@ public:
--m_CurrentUsedSize; --m_CurrentUsedSize;
if (m_CurrentUsedSize < 0) if (m_CurrentUsedSize < 0)
m_CurrentUsedSize = 0; m_CurrentUsedSize = 0;
// :TODO: free memory sometimes
FreeMemIfPossible();
} }
bool resize(size_t newSize) bool resize(size_t newSize)
{ {
if (!ChangeSize(newSize)) if (!ChangeSize(newSize))
return false; return false;
m_CurrentUsedSize = newSize; FreeMemIfPossible();
return true; return true;
} }
@ -366,7 +331,7 @@ public:
{ {
if (pos > m_CurrentUsedSize) if (pos > m_CurrentUsedSize)
{ {
assert(0); ASSERT(0);
} }
return m_Data[pos]; return m_Data[pos];
} }
@ -375,7 +340,7 @@ public:
{ {
if (pos > m_CurrentUsedSize) if (pos > m_CurrentUsedSize)
{ {
assert(0); ASSERT(0);
} }
return m_Data[pos]; return m_Data[pos];
} }
@ -394,7 +359,7 @@ public:
{ {
if (m_CurrentUsedSize < 1) if (m_CurrentUsedSize < 1)
{ {
assert(0); ASSERT(0);
} }
return m_Data[0]; return m_Data[0];
} }
@ -403,7 +368,7 @@ public:
{ {
if (m_CurrentUsedSize < 1) if (m_CurrentUsedSize < 1)
{ {
assert(0); ASSERT(0);
} }
return m_Data[0]; return m_Data[0];
} }
@ -412,7 +377,7 @@ public:
{ {
if (m_CurrentUsedSize < 1) if (m_CurrentUsedSize < 1)
{ {
assert(0); ASSERT(0);
} }
return m_Data[m_CurrentUsedSize - 1]; return m_Data[m_CurrentUsedSize - 1];
} }
@ -421,18 +386,20 @@ public:
{ {
if (m_CurrentUsedSize < 1) if (m_CurrentUsedSize < 1)
{ {
assert(0); ASSERT(0);
} }
return m_Data[m_CurrentUsedSize - 1]; return m_Data[m_CurrentUsedSize - 1];
} }
iterator insert(iterator where, const T & value) bool insert(iterator where, const T & value)
{ {
// we have to insert before
// if it is begin, don't decrement
if (where != m_Data)
--where;
// validate iter // validate iter
if (where < m_Data || where > (m_Data + m_CurrentUsedSize)) if (where < m_Data || where >= (m_Data + m_CurrentUsedSize))
return iterator(0); return false;
size_t ofs = where - begin();
++m_CurrentUsedSize; ++m_CurrentUsedSize;
if (!GrowIfNeeded()) if (!GrowIfNeeded())
@ -441,49 +408,33 @@ public:
return false; return false;
} }
where = begin() + ofs; memmove(where.base() + 1, where.base(), m_CurrentUsedSize - (where - m_Data));
memcpy(where.base(), &value, sizeof(T));
// Move subsequent entries return true;
for (T *ptr = m_Data + m_CurrentUsedSize - 2; ptr >= where.base(); --ptr)
*(ptr + 1) = *ptr;
*where.base() = value;
return where;
} }
iterator erase(iterator where) void erase(iterator where)
{ {
// validate iter // validate iter
if (where < m_Data || where >= (m_Data + m_CurrentUsedSize)) if (where < m_Data || where >= (m_Data + m_CurrentUsedSize))
return iterator(0); return false;
size_t ofs = where - begin();
if (m_CurrentUsedSize > 1) if (m_CurrentUsedSize > 1)
{ {
// move // move
T *theend = m_Data + m_CurrentUsedSize; memmove(where.base(), where.base() + 1, m_CurrentUsedSize - 1);
for (T *ptr = where.base() + 1; ptr < theend; ++ptr)
*(ptr - 1) = *ptr;
} }
--m_CurrentUsedSize; --m_CurrentUsedSize;
// :TODO: free memory sometimes
FreeMemIfPossible();
return begin() + ofs;
} }
void clear() void clear()
{ {
m_Size = 0; m_Size = 0;
m_CurrentUsedSize = 0; m_CurrentUsedSize = 0;
if (m_Data) delete [] m_Data;
{ m_Data = NULL;
delete [] m_Data;
m_Data = NULL;
}
} }
}; };

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10
amxmodx/JIT/jits.def Executable file
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@ -0,0 +1,10 @@
LIBRARY jits
DESCRIPTION "JIT for AMX Mod X"
EXPORTS
asm_runJIT @1
getMaxCodeSize @2
amx_exec_asm @3
amx_opcodelist @4
SECTIONS
.data READ WRITE
.code EXECUTE

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167
amxmodx/Makefile
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@ -1,96 +1,123 @@
#(C)2004-2005 AMX Mod X Development Team MODNAME = amxx_mm
# Makefile written by David "BAILOPAN" Anderson SRCFILES = meta_api.cpp CFile.cpp CString.cpp CVault.cpp vault.cpp\
float.cpp file.cpp modules.cpp CMisc.cpp CTask.cpp string.cpp\
amxmodx.cpp CEvent.cpp CCmd.cpp CLogEvent.cpp srvcmd.cpp strptime.cpp\
CForward.cpp CPlugin.cpp CModule.cpp CMenu.cpp emsg.cpp util.cpp \
amxcore.cpp amxtime.cpp power.cpp amxxlog.cpp fakemeta.cpp mmgr/mmgr.cpp \
amxxfile.cpp CLang.cpp md5.cpp amx.cpp
#use this for amd64, remove the above amx.cpp, and rename amx.cpp to amx.c
#CSRCFILES = amx.c minilzo/minilzo.c
CSRCFILES = minilzo/minilzo.c
HLSDK = ../hlsdk/SourceCode EXTRA_LIBS_LINUX =
MM_ROOT = ../metamod/metamod EXTRA_LIBS_WIN32 =
EXTRA_LIBDIRS_LINUX = -Lextra/lib_linux
EXTRA_LIBDIRS_WIN32 = -Lextra/lib_win32
### EDIT BELOW FOR OTHER PROJECTS ### EXTRA_INCLUDEDIRS = -Iextra/include
OPT_FLAGS = -O2 -funroll-loops -s -fomit-frame-pointer -pipe EXTRA_FLAGS = -Dstrcmpi=strcasecmp
DEBUG_FLAGS = -g -ggdb3
CPP = gcc
NAME = amxmodx_mm
OBJECTS = meta_api.cpp CFile.cpp CVault.cpp vault.cpp float.cpp file.cpp modules.cpp \ SDKTOP=../hlsdk
CMisc.cpp CTask.cpp string.cpp amxmodx.cpp CEvent.cpp CCmd.cpp CLogEvent.cpp \ METADIR=../metamod/metamod
srvcmd.cpp strptime.cpp amxcore.cpp amxtime.cpp power.cpp amxxlog.cpp fakemeta.cpp \
amxxfile.cpp CLang.cpp md5.cpp emsg.cpp CForward.cpp CPlugin.cpp CModule.cpp \
CMenu.cpp util.cpp amx.cpp amxdbg.cpp natives.cpp newmenus.cpp debugger.cpp \
optimizer.cpp format.cpp
LINK = -lz /lib/libstdc++.a
INCLUDE = -I. -I$(HLSDK) -I$(HLSDK)/dlls -I$(HLSDK)/engine -I$(HLSDK)/game_shared -I$(HLSDK)/game_shared \ SDKSRC=$(SDKTOP)/SourceCode
-I$(MM_ROOT) -Lzlib -I$(HLSDK)/common OBJDIR_LINUX=obj.linux
OBJDIR_WIN32=obj.win32
SRCDIR=.
ifeq "$(DEBUG)" "true" ifdef windir
BIN_DIR = Debug OS=WIN32
CFLAGS = $(DEBUG_FLAGS)
else else
BIN_DIR = Release OS=LINUX
CFLAGS = $(OPT_FLAGS)
endif endif
ifeq "$(MMGR)" "true" CC_LINUX=gcc
OBJECTS += mmgr/mmgr.cpp ifeq "$(OS)" "WIN32"
CFLAGS += -DMEMORY_TEST CC_WIN32=gcc
endif LD_WINDLL=dllwrap
DEFAULT=win32
CFLAGS += -DLINUX -DNDEBUG -fPIC -Wno-deprecated -DHAVE_STDINT_H -static-libgcc -fno-rtti -fno-exceptions CLEAN=clean_win32
ifeq "$(AMD64)" "true"
BINARY = $(NAME)_amd64.so
CFLAGS += -DPAWN_CELL_SIZE=64 -DHAVE_I64 -DAMD64 -m64
OBJECTS += JIT/natives-amd64.o
else else
BINARY = $(NAME)_i386.so CC_WIN32=/usr/local/cross-tools/i386-mingw32msvc/bin/gcc
OBJECTS += JIT/amxexecn.o JIT/amxjitsn.o JIT/natives-x86.o LD_WINDLL=/usr/local/cross-tools/bin/i386-mingw32msvc-dllwrap
CFLAGS += -DPAWN_CELL_SIZE=32 -DJIT -DASM32 DEFAULT=linux win32
OPT_FLAGS += -march=i586 CLEAN=clean_both
endif endif
OBJ_LINUX := $(OBJECTS:%.cpp=$(BIN_DIR)/%.o)
$(BIN_DIR)/%.o: %.cpp #use this for AMD64
$(CPP) $(INCLUDE) $(CFLAGS) -o $@ -c $< #LIBFILE_LINUX = $(MODNAME)_amd64.so
LIBFILE_LINUX = $(MODNAME)_i386.so
LIBFILE_WIN32 = $(MODNAME).dll
TARGET_LINUX = $(OBJDIR_LINUX)/$(LIBFILE_LINUX)
TARGET_WIN32 = $(OBJDIR_WIN32)/$(LIBFILE_WIN32)
all: FILES_ALL = *.cpp *.h [A-Z]* *.rc
mkdir -p $(BIN_DIR) ifeq "$(OS)" "LINUX"
$(MAKE) amxmodx ASRCFILES := $(shell ls -t $(SRCFILES))
else
ASRCFILES := $(shell dir /b)
endif
OBJ_LINUX := $(SRCFILES:%.cpp=$(OBJDIR_LINUX)/%.o)
OBJC_LINUX := $(CSRCFILES:%.c=$(OBJDIR_LINUX)/%.o)
OBJ_WIN32 := $(SRCFILES:%.cpp=$(OBJDIR_WIN32)/%.o)
OBJC_WIN32 := $(CSRCFILES:%.c=$(OBJDIR_WIN32)/%.o)
amd64: #use this for amd64
rm -f zlib/libz.a #CCOPT = -m64 -g -ggdb3 -DHAVE_I64 -DSMALL_CELL_SIZE=64
$(MAKE) all AMD64=true CCOPT = -march=i386 -s -DNDEBUG -O2 -fomit-frame-pointer -fno-exceptions -fno-rtti -ffast math
amd64_mmgr: INCLUDEDIRS=-I../curl/include -I$(SRCDIR) -I$(METADIR) -I$(SDKSRC)/engine -I$(SDKSRC)/common -I$(SDKSRC)/pm_shared -I$(SDKSRC)/dlls -I$(SDKSRC) $(EXTRA_INCLUDEDIRS)
rm -f zlib/libz.a CFLAGS=-Wall -Wno-unknown-pragmas
$(MAKE) all AMD64=true MMGR=true ODEF = -DOPT_TYPE=\"optimized\"
CFLAGS:=$(CCOPT) $(CFLAGS) $(ODEF) $(EXTRA_FLAGS)
amd64_debug_mmgr: DO_CC_LINUX=$(CC_LINUX) $(CFLAGS) -fPIC $(INCLUDEDIRS) -o $@ -c $<
rm -f zlib/libz.a DO_CC_WIN32=$(CC_WIN32) $(CFLAGS) $(INCLUDEDIRS) -o $@ -c $<
$(MAKE) all AMD64=true DEBUG=true MMGR=true LINK_LINUX=$(CC_LINUX) $(CFLAGS) -shared -ldl -lm $(OBJ_LINUX) $(OBJC_LINUX) $(EXTRA_LIBDIRS_LINUX) $(EXTRA_LIBS_LINUX) -o $@
LINK_WIN32=$(LD_WINDLL) -mwindows --def $(MODNAME).def --add-stdcall-alias $(OBJ_WIN32) $(OBJC_WIN32) $(EXTRA_LIBDIRS_WIN32) $(EXTRA_LIBS_WIN32) -o $@
amd64_debug: $(OBJDIR_LINUX)/%.o: $(SRCDIR)/%.c
rm -f zlib/libz.a $(DO_CC_LINUX)
$(MAKE) all AMD64=true DEBUG=true
mmgr: $(OBJDIR_LINUX)/%.o: $(SRCDIR)/%.cpp
$(MAKE) all MMGR=true $(DO_CC_LINUX)
debug_mmgr: $(OBJDIR_WIN32)/%.o: $(SRCDIR)/%.c
$(MAKE) all MMGR=true DEBUG=true $(DO_CC_WIN32)
amxmodx: $(OBJ_LINUX) $(OBJDIR_WIN32)/%.o: $(SRCDIR)/%.cpp
$(CPP) $(INCLUDE) $(CFLAGS) $(OBJ_LINUX) $(LINK) -shared -ldl -lm -o$(BIN_DIR)/$(BINARY) $(DO_CC_WIN32)
debug: default: $(DEFAULT)
$(MAKE) all DEBUG=true
default: all $(TARGET_LINUX): $(OBJDIR_LINUX) $(OBJ_LINUX) $(OBJC_LINUX)
$(LINK_LINUX)
$(TARGET_WIN32): $(OBJDIR_WIN32) $(OBJ_WIN32) $(OBJC_WIN32)
$(LINK_WIN32)
$(OBJDIR_LINUX):
mkdir $@
mkdir $@/mmgr
$(OBJDIR_WIN32):
mkdir $@
mkdir $@/mmgr
win32: $(TARGET_WIN32)
linux: $(TARGET_LINUX)
clean: $(CLEAN)
clean_both:
-rm -f $(OBJDIR_LINUX)/*
-rm -f $(OBJDIR_WIN32)/*
clean_win32:
del /q $(OBJDIR_WIN32)
clean:
rm -rf Release/*.o
rm -rf Release/$(BINARY)
rm -rf Debug/*.o
rm -rf Debug/$(BINARY)

222
amxmodx/Makefile.pl Executable file
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@ -0,0 +1,222 @@
#!/usr/bin/perl
#(C)2004 AMX Mod X Development Team
# by David "BAILOPAN" Anderson
# output will occur in bin.x.proc
# where x is debug or opt and proc is ix86 or amd64
# You must use this script from the amxmodx src dir
#options =
# jit - use the JIT
# debug - enable gdb debugging
# amd64 - compile for AMD64 (impiles no jit)
# proc=ix86 - assumed not amd64
# clean - clean the specifications above
$PROJECT = "amxx_mm";
$sdk = "../hlsdk/SourceCode";
$mm = "../metamod/metamod";
@CPP_SOURCE_FILES = ("meta_api.cpp", "CFile.cpp", "CVault.cpp", "vault.cpp", "float.cpp", "file.cpp", "modules.cpp", "CMisc.cpp", "CTask.cpp", "string.cpp", "amxmodx.cpp", "CEvent.cpp", "CCmd.cpp", "CLogEvent.cpp", "srvcmd.cpp", "strptime.cpp", "amxcore.cpp", "amxtime.cpp", "power.cpp", "amxxlog.cpp", "fakemeta.cpp", "MMGR/MMGR.cpp", "amxxfile.cpp", "CLang.cpp", "md5.cpp", "emsg.cpp", "CForward.cpp", "CPlugin.cpp", "CModule.cpp", "CMenu.cpp", "util.cpp");
@C_SOURCE_FILES = ("minilzo/minilzo.c");
my %OPTIONS, %OPT;
$OPT{"debug"} = "-g -ggdb";
$OPT{"opt"} = "-O2 -ffast-math -funroll-loops -fomit-frame-pointer -s -DNDEBUG -Wall -Wno-unknown-pragmas -DOPT_TYPE=\"optimized\"";
$OPTIONS{"include"} = "-I$sdk -I. -I$mm -I$sdk/engine -I$sdk/common -I$sdk/pm_shared -I$sdk/dlls";
while ($cmd = shift)
{
if ($cmd =~ /jit/)
{
if ($OPTIONS{"amd64"})
{
die "You cannot compile the JIT and AMD64 yet.\n";
} else {
$OPTIONS{"jit"} = 1;
}
} elsif ($cmd =~ /amd64/) {
if ($OPTIONS{"jit"})
{
die "You cannot compile the JIT and AMD64 yet.\n";
} else {
$OPTIONS{"amd64"} = 1;
}
} elsif ($cmd =~ /debug/) {
$OPTIONS{"debug"} = 1;
} elsif ($cmd =~ /proc=i(\d)86/) {
$proc = $1;
if ($OPTIONS{"amd64"})
{
die "You cannot compile for i".$proc."86 and AMD64.\n";
} else {
$OPTIONS{"proc"} = "i".$proc."86";
}
} elsif ($cmd =~ /clean/) {
$OPTIONS{"clean"} = 1;
}
}
$gcc = `g++ --version`;
if ($gcc =~ /2\.9/)
{
`cp amx.cpp amx.c`;
push(@C_SOURCE_FILES, "amx.c");
$OPT{"opt"} .= " -malign-loops=2 -malign-jumps=2 -malign-functions=2";
} else {
if ($OPTIONS{"amd64"})
{
`cp amx.cpp amx.c`;
push(@C_SOURCE_FILES, "amx.c");
} else {
push(@CPP_SOURCE_FILES, "amx.cpp");
}
$OPT{"opt"} .= " -falign-loops=2 -falign-jumps=2 -falign-functions=2";
}
if ($OPTIONS{"debug"})
{
$cflags = $OPT{"debug"};
} else {
if (!$OPTIONS{"amd64"})
{
$proc = $OPTIONS{"proc"};
if (!$proc)
{
$proc = 3;
}
$cflags = "-march=i".$proc."86 ".$OPT{"opt"};
} else {
$cflags = $OPT{"opt"};
}
}
if ($OPTIONS{"amd64"})
{
$cflags .= " -m64 -DSMALL_CELL_SIZE=64 -DHAVE_I64 $cflags";
}
if ($OPTIONS{"jit"})
{
$cflags .= "-DJIT";
}
if ($OPTIONS{"debug"})
{
$outdir = "bin.debug";
} else {
$outdir = "bin.opt";
}
if ($OPTIONS{"amd64"})
{
$outdir .= ".amd64";
$bin = $PROJECT."_amd64.so";
} else {
$proc = $OPTIONS{"proc"};
if ($proc)
{
$outdir .= ".i".$proc."86";
$bin = $PROJECT."_i".$proc."86.so";
} else {
$outdir .= ".i386";
$bin = $PROJECT."_i386.so";
}
}
if ($OPTIONS{"clean"})
{
`rm $outdir/*.o`;
`rm $outdir/MMGR/*.o`;
`rm $outdir/minilzo/*.o`;
`rm $outdir/$bin`;
die("Project cleaned.\n");
}
#create the dirs
#build link list
my @LINK;
for ($i=0; $i<=$#CPP_SOURCE_FILES; $i++)
{
$file = $CPP_SOURCE_FILES[$i];
$file =~ s/\.cpp/\.o/;
push(@LINK, $outdir."/".$file);
}
for ($i=0; $i<=$#C_SOURCE_FILES; $i++)
{
$file = $C_SOURCE_FILES[$i];
$file =~ s/\.c/\.o/;
push(@LINK, $outdir."/".$file);
}
if ($OPTIONS{"jit"})
{
push(@LINK, "JIT/jits.o");
}
if (!(-d $outdir))
{
mkdir($outdir);
}
if (!(-d "$outdir/MMGR"))
{
mkdir("$outdir/MMGR");
}
if (!(-d "$outdir/JIT"))
{
mkdir("$outdir/JIT");
}
if (!(-d "$outdir/minilzo"))
{
mkdir("$outdir/minilzo");
}
$inc = $OPTIONS{"include"};
for ($i=0; $i<=$#CPP_SOURCE_FILES; $i++)
{
$file = $CPP_SOURCE_FILES[$i];
$ofile = $file;
$ofile =~ s/\.cpp/\.o/;
$ofile = "$outdir/$ofile";
$gcc = "g++ $cflags -Dstrcmpi=strcasecmp -fPIC $inc -c $file -o $ofile";
if (-e $ofile)
{
$file_time = (stat($file))[9];
$ofile_time = (stat($file))[9];
if ($file_time > $ofile_time)
{
print "$gcc\n";
`$gcc`;
}
} else {
print "$gcc\n";
`$gcc`;
}
}
for ($i=0; $i<=$#CPP_SOURCE_FILES; $i++)
{
$file = $C_SOURCE_FILES[$i];
$ofile = $file;
$ofile =~ s/\.c/\.o/;
$ofile = "$outdir/$ofile";
$gcc = "cc $cflags -Dstrcmpi=strcasecmp -fPIC $inc -c $file -o $ofile";
if (-e $ofile)
{
$file_time = (stat($file))[9];
$ofile_time = (stat($file))[9];
if ($file_time > $ofile_time)
{
print "$gcc\n";
`$gcc`;
}
} else {
print "$gcc\n";
`$gcc`;
}
}
$gcc = "g++ $cflags -shared -ldl -lm @LINK -o $outdir/$bin";
`$gcc`;

1836
amxmodx/amx.cpp
View File

File diff suppressed because it is too large Load Diff

277
amxmodx/amx.h
View File

@ -1,6 +1,6 @@
/* Pawn Abstract Machine (for the Pawn language) /* Abstract Machine for the Small compiler
* *
* Copyright (c) ITB CompuPhase, 1997-2005 * Copyright (c) ITB CompuPhase, 1997-2004
* *
* This software is provided "as-is", without any express or implied warranty. * This software is provided "as-is", without any express or implied warranty.
* In no event will the authors be held liable for any damages arising from * In no event will the authors be held liable for any damages arising from
@ -21,81 +21,55 @@
* Version: $Id$ * Version: $Id$
*/ */
#if defined FREEBSD && !defined __FreeBSD__ #if defined __linux__
#define __FreeBSD__ #include "sclinux.h"
#endif
#if defined LINUX || defined __FreeBSD__ || defined __OpenBSD__
#include <sclinux.h>
#endif #endif
#ifndef AMX_H_INCLUDED #ifndef AMX_H_INCLUDED
#define AMX_H_INCLUDED #define AMX_H_INCLUDED
#if defined HAVE_STDINT_H //#define JIT
#if defined __LCC__ || defined __DMC__ || defined __linux__
#include <stdint.h> #include <stdint.h>
#else #elif !defined __STDC_VERSION__ || __STDC_VERSION__ < 199901L
#if defined __LCC__ || defined __DMC__ || defined LINUX /* The ISO C99 defines the int16_t and int_32t types. If the compiler got
#if defined HAVE_INTTYPES_H * here, these types are probably undefined.
#include <inttypes.h> */
#if defined __FreeBSD__
#include <inttypes.h>
#else
typedef short int int16_t;
typedef unsigned short int uint16_t;
#if defined SN_TARGET_PS2
typedef int int32_t;
typedef unsigned int uint32_t;
#else #else
#include <stdint.h> typedef long int int32_t;
typedef unsigned long int uint32_t;
#endif #endif
#elif !defined __STDC_VERSION__ || __STDC_VERSION__ < 199901L #if defined __WIN32__ || defined _WIN32 || defined WIN32
/* The ISO C99 defines the int16_t and int_32t types. If the compiler got typedef __int64 int64_t;
* here, these types are probably undefined. typedef unsigned __int64 uint64_t;
*/ #define HAVE_I64
#if defined __MACH__ #elif defined __GNUC__
#include <ppc/types.h> typedef long long int64_t;
typedef unsigned short int uint16_t; typedef unsigned long long uint64_t;
typedef unsigned long int uint32_t; #define HAVE_I64
#elif defined __FreeBSD__
#include <inttypes.h>
#else
typedef short int int16_t;
typedef unsigned short int uint16_t;
#if defined SN_TARGET_PS2
typedef int int32_t;
typedef unsigned int uint32_t;
#else
typedef long int int32_t;
typedef unsigned long int uint32_t;
#endif
#if defined __WIN32__ || defined _WIN32 || defined WIN32
typedef __int64 int64_t;
typedef unsigned __int64 uint64_t;
#define HAVE_I64
#elif defined __GNUC__
typedef long long int64_t;
typedef unsigned long long uint64_t;
#define HAVE_I64
#endif
#endif #endif
#endif #endif
#define HAVE_STDINT_H
#endif
#if defined _LP64 || defined WIN64 || defined _WIN64
#if !defined __64BIT__
#define __64BIT__
#endif
#endif #endif
#if !defined arraysize #if defined __WIN32__ || defined _WIN32 || defined WIN32 /* || defined __MSDOS__ */
#define arraysize(array) (sizeof(array) / sizeof((array)[0])) #if !defined alloca
#define alloca(n) _alloca(n)
#endif
#endif #endif
#ifdef __cplusplus #ifdef __cplusplus
extern "C" { extern "C" {
#endif #endif
#if defined PAWN_DLL
#if !defined AMX_NATIVE_CALL
#define AMX_NATIVE_CALL __stdcall
#endif
#if !defined AMXAPI
#define AMXAPI __stdcall
#endif
#endif
/* calling convention for native functions */ /* calling convention for native functions */
#if !defined AMX_NATIVE_CALL #if !defined AMX_NATIVE_CALL
#define AMX_NATIVE_CALL #define AMX_NATIVE_CALL
@ -106,8 +80,6 @@ extern "C" {
#define AMXAPI __stdcall #define AMXAPI __stdcall
#elif defined CDECL #elif defined CDECL
#define AMXAPI __cdecl #define AMXAPI __cdecl
#elif defined GCC_HASCLASSVISIBILITY
#define AMXAPI __attribute__ ((visibility("default")))
#else #else
#define AMXAPI #define AMXAPI
#endif #endif
@ -125,39 +97,45 @@ extern "C" {
* 5 (tagnames table) 4 * 5 (tagnames table) 4
* 6 (reformatted header) 6 * 6 (reformatted header) 6
* 7 (name table, opcodes SYMTAG & SYSREQ.D) 7 * 7 (name table, opcodes SYMTAG & SYSREQ.D) 7
* 8 (opcode STMT, renewed debug interface) 8
*/ */
#define CUR_FILE_VERSION 8 /* current file version; also the current AMX version */ #define CUR_FILE_VERSION 7 /* current file version; also the current AMX version */
#define MIN_FILE_VERSION 6 /* lowest supported file format version for the current AMX version */ #define MIN_FILE_VERSION 6 /* lowest supported file format version for the current AMX version */
#define MIN_AMX_VERSION 8 /* minimum AMX version needed to support the current file format */ #define MIN_AMX_VERSION 7 /* minimum AMX version needed to support the current file format */
#if !defined PAWN_CELL_SIZE #if defined BIT16
#define PAWN_CELL_SIZE 32 /* by default, use 32-bit cells */ #define SMALL_CELL_SIZE 16 /* for backward compatibility */
#endif #endif
#if PAWN_CELL_SIZE==16 #if !defined SMALL_CELL_SIZE
#define SMALL_CELL_SIZE 32 /* by default, use 32-bit cells */
#endif
#if SMALL_CELL_SIZE==16
typedef uint16_t ucell; typedef uint16_t ucell;
typedef int16_t cell; typedef int16_t cell;
#elif PAWN_CELL_SIZE==32 #elif SMALL_CELL_SIZE==32
typedef uint32_t ucell; typedef uint32_t ucell;
typedef int32_t cell; typedef int32_t cell;
#define REAL float #elif SMALL_CELL_SIZE==64
#elif PAWN_CELL_SIZE==64
typedef uint64_t ucell; typedef uint64_t ucell;
typedef int64_t cell; typedef int64_t cell;
#define REAL double
#else #else
#error Unsupported cell size (PAWN_CELL_SIZE) #error Unsupported cell size (SMALL_CELL_SIZE)
#endif #endif
#define UNPACKEDMAX ((1L << (sizeof(cell)-1)*8) - 1) #if SMALL_CELL_SIZE==32
#define UNLIMITED (~1u >> 1) #define REAL float
#elif SMALL_CELL_SIZE==64
#define REAL double
#else
#error Unsupported cell size
#endif
#define UNPACKEDMAX ((1 << (sizeof(cell)-1)*8) - 1)
struct tagAMX; struct tagAMX;
typedef cell (AMX_NATIVE_CALL *AMX_NATIVE)(struct tagAMX *amx, cell *params); typedef cell (AMX_NATIVE_CALL *AMX_NATIVE)(struct tagAMX *amx, cell *params);
typedef int (AMXAPI *AMX_CALLBACK)(struct tagAMX *amx, cell index, typedef int (AMXAPI *AMX_CALLBACK)(struct tagAMX *amx, cell index,
cell *result, cell *params); cell *result, cell *params);
typedef int (AMXAPI *AMX_DEBUG)(struct tagAMX *amx); typedef int (AMXAPI *AMX_DEBUG)(struct tagAMX *amx);
typedef int (AMXAPI *AMX_NATIVE_FILTER)(struct tagAMX *amx, int index);
#if !defined _FAR #if !defined _FAR
#define _FAR #define _FAR
#endif #endif
@ -171,7 +149,7 @@ typedef int (AMXAPI *AMX_NATIVE_FILTER)(struct tagAMX *amx, int index);
/* Some compilers do not support the #pragma align, which should be fine. Some /* Some compilers do not support the #pragma align, which should be fine. Some
* compilers give a warning on unknown #pragmas, which is not so fine... * compilers give a warning on unknown #pragmas, which is not so fine...
*/ */
#if (defined SN_TARGET_PS2 || defined __GNUC__) && !defined AMX_NO_ALIGN #if defined SN_TARGET_PS2 || defined __GNUC__
#define AMX_NO_ALIGN #define AMX_NO_ALIGN
#endif #endif
@ -182,10 +160,8 @@ typedef int (AMXAPI *AMX_NATIVE_FILTER)(struct tagAMX *amx, int index);
#endif #endif
#if !defined AMX_NO_ALIGN #if !defined AMX_NO_ALIGN
#if defined LINUX || defined __FreeBSD__ #if defined __linux__
#pragma pack(1) /* structures must be packed (byte-aligned) */ #pragma pack(1) /* structures must be packed (byte-aligned) */
#elif defined MACOS && defined __MWERKS__
#pragma options align=mac68k
#else #else
#pragma pack(push) #pragma pack(push)
#pragma pack(1) /* structures must be packed (byte-aligned) */ #pragma pack(1) /* structures must be packed (byte-aligned) */
@ -195,30 +171,25 @@ typedef int (AMXAPI *AMX_NATIVE_FILTER)(struct tagAMX *amx, int index);
#endif #endif
#endif #endif
typedef struct tagAMX_NATIVE_INFO { typedef struct {
const char _FAR *name PACKED; const char _FAR *name PACKED;
AMX_NATIVE func PACKED; AMX_NATIVE func PACKED;
} PACKED AMX_NATIVE_INFO; } AMX_NATIVE_INFO;
#define AMX_USERNUM 4 #define AMX_USERNUM 4
#define sEXPMAX 19 /* maximum name length for file version <= 6 */ #define sEXPMAX 19 /* maximum name length for file version <= 6 */
#define sNAMEMAX 31 /* maximum name length of symbol name */ #define sNAMEMAX 31 /* maximum name length of symbol name */
typedef struct tagAMX_FUNCSTUB { typedef struct tagAMX_FUNCSTUB {
ucell address PACKED; ucell address PACKED;
char name[sEXPMAX+1] PACKED; const char name[sEXPMAX+1] PACKED;
} PACKED AMX_FUNCSTUB; } AMX_FUNCSTUB;
typedef struct tagFUNCSTUBNT {
ucell address PACKED;
ucell nameofs PACKED; //we need this for amxx to be backwards comaptible
} PACKED AMX_FUNCSTUBNT;
/* The AMX structure is the internal structure for many functions. Not all /* The AMX structure is the internal structure for many functions. Not all
* fields are valid at all times; many fields are cached in local variables. * fields are valid at all times; many fields are cached in local variables.
*/ */
typedef struct tagAMX { typedef struct tagAMX {
unsigned char _FAR *base PACKED; /* points to the AMX header plus the code, optionally also the data */ unsigned char _FAR *base PACKED; /* points to the AMX header ("amxhdr") plus the code, optionally also the data */
unsigned char _FAR *data PACKED; /* points to separate data+stack+heap, may be NULL */ unsigned char _FAR *data PACKED; /* points to separate data+stack+heap, may be NULL */
AMX_CALLBACK callback PACKED; AMX_CALLBACK callback PACKED;
AMX_DEBUG debug PACKED; /* debug callback */ AMX_DEBUG debug PACKED; /* debug callback */
@ -230,26 +201,30 @@ typedef struct tagAMX {
cell stk PACKED; /* stack pointer: relative to base + amxhdr->dat */ cell stk PACKED; /* stack pointer: relative to base + amxhdr->dat */
cell stp PACKED; /* top of the stack: relative to base + amxhdr->dat */ cell stp PACKED; /* top of the stack: relative to base + amxhdr->dat */
int flags PACKED; /* current status, see amx_Flags() */ int flags PACKED; /* current status, see amx_Flags() */
/* for assertions and debug hook */
cell curline PACKED;
cell curfile PACKED;
int dbgcode PACKED;
cell dbgaddr PACKED;
cell dbgparam PACKED;
char _FAR *dbgname PACKED;
/* user data */ /* user data */
void _FAR *usertags[AMX_USERNUM] PACKED; long usertags[AMX_USERNUM] PACKED;
//okay userdata[3] in AMX Mod X is for the CPlugin * pointer
//we're also gonna set userdata[2] to a special debug structure
//lastly, userdata[1] is for opcode_list from amx_BrowseRelocate
void _FAR *userdata[AMX_USERNUM] PACKED; void _FAR *userdata[AMX_USERNUM] PACKED;
/* native functions can raise an error */ /* native functions can raise an error */
int error PACKED; int error PACKED;
/* passing parameters requires a "count" field */
int paramcount;
/* the sleep opcode needs to store the full AMX status */ /* the sleep opcode needs to store the full AMX status */
cell pri PACKED; cell pri PACKED;
cell alt PACKED; cell alt PACKED;
cell reset_stk PACKED; cell reset_stk PACKED;
cell reset_hea PACKED; cell reset_hea PACKED;
cell sysreq_d PACKED; /* relocated address/value for the SYSREQ.D opcode */ cell sysreq_d PACKED; /* relocated address/value for the SYSREQ.D opcode */
/* support variables for the JIT */ #if defined JIT
int reloc_size PACKED; /* required temporary buffer for relocations */ /* support variables for the JIT */
long code_size PACKED; /* estimated memory footprint of the native code */ int reloc_size PACKED; /* required temporary buffer for relocations */
} PACKED AMX; long code_size PACKED; /* estimated memory footprint of the native code */
#endif
} AMX;
/* The AMX_HEADER structure is both the memory format as the file format. The /* The AMX_HEADER structure is both the memory format as the file format. The
* structure is used internaly. * structure is used internaly.
@ -271,11 +246,9 @@ typedef struct tagAMX_HEADER {
int32_t libraries PACKED; /* offset to the table of libraries */ int32_t libraries PACKED; /* offset to the table of libraries */
int32_t pubvars PACKED; /* the "public variables" table */ int32_t pubvars PACKED; /* the "public variables" table */
int32_t tags PACKED; /* the "public tagnames" table */ int32_t tags PACKED; /* the "public tagnames" table */
int32_t nametable PACKED; /* name table */ int32_t nametable PACKED; /* name table, file version 7 only */
} PACKED AMX_HEADER; } AMX_HEADER PACKED;
#define AMX_MAGIC 0xf1e0
//This is always the same for us
#define AMX_MAGIC 0xf1e0
enum { enum {
AMX_ERR_NONE, AMX_ERR_NONE,
@ -292,8 +265,6 @@ enum {
AMX_ERR_NATIVE, /* native function failed */ AMX_ERR_NATIVE, /* native function failed */
AMX_ERR_DIVIDE, /* divide by zero */ AMX_ERR_DIVIDE, /* divide by zero */
AMX_ERR_SLEEP, /* go into sleepmode - code can be restarted */ AMX_ERR_SLEEP, /* go into sleepmode - code can be restarted */
AMX_ERR_INVSTATE, /* invalid state for this access */
AMX_ERR_INVNATIVE, /* invalid native was used */
AMX_ERR_MEMORY = 16, /* out of memory */ AMX_ERR_MEMORY = 16, /* out of memory */
AMX_ERR_FORMAT, /* invalid file format */ AMX_ERR_FORMAT, /* invalid file format */
@ -306,18 +277,27 @@ enum {
AMX_ERR_INIT_JIT, /* cannot initialize the JIT */ AMX_ERR_INIT_JIT, /* cannot initialize the JIT */
AMX_ERR_PARAMS, /* parameter error */ AMX_ERR_PARAMS, /* parameter error */
AMX_ERR_DOMAIN, /* domain error, expression result does not fit in range */ AMX_ERR_DOMAIN, /* domain error, expression result does not fit in range */
AMX_ERR_GENERAL, /* general error (unknown or unspecific error) */ };
enum {
DBG_INIT, /* query/initialize */
DBG_FILE, /* file number in curfile, filename in name */
DBG_LINE, /* line number in curline, file number in curfile */
DBG_SYMBOL, /* address in dbgaddr, class/type in dbgparam */
DBG_CLRSYM, /* stack address below which locals should be removed. stack address in stk */
DBG_CALL, /* function call, address jumped to in dbgaddr */
DBG_RETURN, /* function returns */
DBG_TERMINATE, /* program ends, code address in dbgaddr, reason in dbgparam */
DBG_SRANGE, /* symbol size and dimensions (arrays); level in dbgaddr (!); length in dbgparam */
DBG_SYMTAG, /* tag of the most recent symbol (if non-zero), tag in dbgparam */
}; };
/* AMX_FLAG_CHAR16 0x01 no longer used */ /* AMX_FLAG_CHAR16 0x01 no longer used */
#define AMX_FLAG_DEBUG 0x02 /* symbolic info. available */ #define AMX_FLAG_DEBUG 0x02 /* symbolic info. available */
#define AMX_FLAG_COMPACT 0x04 /* compact encoding */ #define AMX_FLAG_COMPACT 0x04 /* compact encoding */
#define AMX_FLAG_BYTEOPC 0x08 /* opcode is a byte (not a cell) */ #define AMX_FLAG_BIGENDIAN 0x08 /* big endian encoding */
#define AMX_FLAG_NOCHECKS 0x10 /* no array bounds checking; no STMT opcode */ #define AMX_FLAG_NOCHECKS 0x10 /* no array bounds checking */
#define AMX_FLAG_PRENIT 0x100 /* pre-initialized, do not check natives */ #define AMX_FLAG_BROWSE 0x4000 /* browsing/relocating or executing */
#define AMX_FLAG_NTVREG 0x1000 /* all native functions are registered */
#define AMX_FLAG_JITC 0x2000 /* abstract machine is JIT compiled */
#define AMX_FLAG_BROWSE 0x4000 /* busy browsing */
#define AMX_FLAG_RELOC 0x8000 /* jump/call addresses relocated */ #define AMX_FLAG_RELOC 0x8000 /* jump/call addresses relocated */
#define AMX_EXEC_MAIN -1 /* start at program entry point */ #define AMX_EXEC_MAIN -1 /* start at program entry point */
@ -325,28 +305,16 @@ enum {
#define AMX_USERTAG(a,b,c,d) ((a) | ((b)<<8) | ((long)(c)<<16) | ((long)(d)<<24)) #define AMX_USERTAG(a,b,c,d) ((a) | ((b)<<8) | ((long)(c)<<16) | ((long)(d)<<24))
#if !defined AMX_COMPACTMARGIN #define AMX_EXPANDMARGIN 64
#define AMX_COMPACTMARGIN 64
#endif
#define UD_FINDPLUGIN 3
#define UD_DEBUGGER 2
#define UD_OPCODELIST 1
#define UD_HANDLER 0
#define UT_NATIVE 3
#define UT_OPTIMIZER 2
#define UT_BROWSEHOOK 1
typedef void (*BROWSEHOOK)(AMX *amx, cell *oplist, cell *cip);
/* for native functions that use floating point parameters, the following /* for native functions that use floating point parameters, the following
* two macros are convenient for casting a "cell" into a "float" type _without_ * two macros are convenient for casting a "cell" into a "float" type _without_
* changing the bit pattern * changing the bit pattern
*/ */
#if PAWN_CELL_SIZE==32 #if SMALL_CELL_SIZE==32
#define amx_ftoc(f) ( * ((cell*)&f) ) /* float to cell */ #define amx_ftoc(f) ( * ((cell*)&f) ) /* float to cell */
#define amx_ctof(c) ( * ((float*)&c) ) /* cell to float */ #define amx_ctof(c) ( * ((float*)&c) ) /* cell to float */
#elif PAWN_CELL_SIZE==64 #elif SMALL_CELL_SIZE==64
#define amx_ftoc(f) ( * ((cell*)&f) ) /* float to cell */ #define amx_ftoc(f) ( * ((cell*)&f) ) /* float to cell */
#define amx_ctof(c) ( * ((double*)&c) ) /* cell to float */ #define amx_ctof(c) ( * ((double*)&c) ) /* cell to float */
#else #else
@ -360,7 +328,7 @@ typedef void (*BROWSEHOOK)(AMX *amx, cell *oplist, cell *cip);
amx_StrLen(amx_cstr_, &amx_length_); \ amx_StrLen(amx_cstr_, &amx_length_); \
if (amx_length_ > 0 && \ if (amx_length_ > 0 && \
((result) = (void*)alloca((amx_length_ + 1) * sizeof(*(result)))) != NULL) \ ((result) = (void*)alloca((amx_length_ + 1) * sizeof(*(result)))) != NULL) \
amx_GetString((char*)(result), amx_cstr_, sizeof(*(result))>1, amx_length_); \ amx_GetString((char*)(result), amx_cstr_, sizeof(*(result))>1); \
else (result) = NULL; \ else (result) = NULL; \
} while (0) } while (0)
@ -369,12 +337,20 @@ uint32_t * AMXAPI amx_Align32(uint32_t *v);
#if defined _I64_MAX || defined HAVE_I64 #if defined _I64_MAX || defined HAVE_I64
uint64_t * AMXAPI amx_Align64(uint64_t *v); uint64_t * AMXAPI amx_Align64(uint64_t *v);
#endif #endif
#if SMALL_CELL_SIZE==32
#define amx_AlignCell amx_Align32
#elif SMALL_CELL_SIZE==64
#define amx_AlignCell amx_Align64
#else
#error Unsupported cell size
#endif
int AMXAPI amx_Allot(AMX *amx, int cells, cell *amx_addr, cell **phys_addr); int AMXAPI amx_Allot(AMX *amx, int cells, cell *amx_addr, cell **phys_addr);
int AMXAPI amx_Callback(AMX *amx, cell index, cell *result, cell *params); int AMXAPI amx_Callback(AMX *amx, cell index, cell *result, cell *params);
int AMXAPI amx_CheckNatives(AMX *amx, AMX_NATIVE_FILTER nf);
int AMXAPI amx_Cleanup(AMX *amx); int AMXAPI amx_Cleanup(AMX *amx);
int AMXAPI amx_Clone(AMX *amxClone, AMX *amxSource, void *data); int AMXAPI amx_Clone(AMX *amxClone, AMX *amxSource, void *data);
int AMXAPI amx_Exec(AMX *amx, cell *retval, int index); int AMXAPI amx_Debug(AMX *amx); /* default debug procedure, does nothing */
int AMXAPI amx_Exec(AMX *amx, cell *retval, int index, int numparams, ...);
int AMXAPI amx_Execv(AMX *amx, cell *retval, int index, int numparams, cell params[]);
int AMXAPI amx_FindNative(AMX *amx, const char *name, int *index); int AMXAPI amx_FindNative(AMX *amx, const char *name, int *index);
int AMXAPI amx_FindPublic(AMX *amx, const char *funcname, int *index); int AMXAPI amx_FindPublic(AMX *amx, const char *funcname, int *index);
int AMXAPI amx_FindPubVar(AMX *amx, const char *varname, cell *amx_addr); int AMXAPI amx_FindPubVar(AMX *amx, const char *varname, cell *amx_addr);
@ -384,57 +360,34 @@ int AMXAPI amx_GetAddr(AMX *amx,cell amx_addr,cell **phys_addr);
int AMXAPI amx_GetNative(AMX *amx, int index, char *funcname); int AMXAPI amx_GetNative(AMX *amx, int index, char *funcname);
int AMXAPI amx_GetPublic(AMX *amx, int index, char *funcname); int AMXAPI amx_GetPublic(AMX *amx, int index, char *funcname);
int AMXAPI amx_GetPubVar(AMX *amx, int index, char *varname, cell *amx_addr); int AMXAPI amx_GetPubVar(AMX *amx, int index, char *varname, cell *amx_addr);
int AMXAPI amx_GetString(char *dest,const cell *source, int use_wchar, size_t size); int AMXAPI amx_GetString(char *dest,const cell *source, int use_wchar);
int AMXAPI amx_GetTag(AMX *amx, int index, char *tagname, cell *tag_id); int AMXAPI amx_GetTag(AMX *amx, int index, char *tagname, cell *tag_id);
int AMXAPI amx_GetUserData(AMX *amx, long tag, void **ptr); int AMXAPI amx_GetUserData(AMX *amx, long tag, void **ptr);
int AMXAPI amx_Init(AMX *amx, void *program); int AMXAPI amx_Init(AMX *amx, void *program);
int AMXAPI amx_InitJIT(AMX *amx, void *reloc_table, void *native_code); int AMXAPI amx_InitJIT(AMX *amx, void *reloc_table, void *native_code);
int AMXAPI amx_MemInfo(AMX *amx, long *codesize, long *datasize, long *stackheap); int AMXAPI amx_MemInfo(AMX *amx, long *codesize, long *datasize, long *stackheap);
int AMXAPI amx_NameLength(AMX *amx, int *length); int AMXAPI amx_NameLength(AMX *amx, int *length);
AMX_NATIVE_INFO * AMXAPI amx_NativeInfo(const char *name, AMX_NATIVE func); AMX_NATIVE_INFO * AMXAPI amx_NativeInfo(const char *name,AMX_NATIVE func);
int AMXAPI amx_NumNatives(AMX *amx, int *number); int AMXAPI amx_NumNatives(AMX *amx, int *number);
int AMXAPI amx_NumPublics(AMX *amx, int *number); int AMXAPI amx_NumPublics(AMX *amx, int *number);
int AMXAPI amx_NumPubVars(AMX *amx, int *number); int AMXAPI amx_NumPubVars(AMX *amx, int *number);
int AMXAPI amx_NumTags(AMX *amx, int *number); int AMXAPI amx_NumTags(AMX *amx, int *number);
int AMXAPI amx_Push(AMX *amx, cell value);
int AMXAPI amx_PushArray(AMX *amx, cell *amx_addr, cell **phys_addr, const cell array[], int numcells);
int AMXAPI amx_PushString(AMX *amx, cell *amx_addr, cell **phys_addr, const char *string, int pack, int use_wchar);
int AMXAPI amx_RaiseError(AMX *amx, int error); int AMXAPI amx_RaiseError(AMX *amx, int error);
int AMXAPI amx_Register(AMX *amx, const AMX_NATIVE_INFO *nativelist, int number); int AMXAPI amx_Register(AMX *amx, AMX_NATIVE_INFO *nativelist, int number);
int AMXAPI amx_RegisterToAny(AMX *amx, AMX_NATIVE f);
int AMXAPI amx_Release(AMX *amx, cell amx_addr); int AMXAPI amx_Release(AMX *amx, cell amx_addr);
int AMXAPI amx_SetCallback(AMX *amx, AMX_CALLBACK callback); int AMXAPI amx_SetCallback(AMX *amx, AMX_CALLBACK callback);
int AMXAPI amx_SetDebugHook(AMX *amx, AMX_DEBUG debug); int AMXAPI amx_SetDebugHook(AMX *amx, AMX_DEBUG debug);
int AMXAPI amx_SetString(cell *dest, const char *source, int pack, int use_wchar, size_t size); int AMXAPI amx_SetString(cell *dest, const char *source, int pack, int use_wchar);
int AMXAPI amx_SetUserData(AMX *amx, long tag, void *ptr); int AMXAPI amx_SetUserData(AMX *amx, long tag, void *ptr);
int AMXAPI amx_StrLen(const cell *cstring, int *length); int AMXAPI amx_StrLen(cell *cstring, int *length);
int AMXAPI amx_UTF8Check(const char *string, int *length);
int AMXAPI amx_UTF8Get(const char *string, const char **endptr, cell *value); int AMXAPI amx_UTF8Get(const char *string, const char **endptr, cell *value);
int AMXAPI amx_UTF8Len(const cell *cstr, int *length);
int AMXAPI amx_UTF8Put(char *string, char **endptr, int maxchars, cell value); int AMXAPI amx_UTF8Put(char *string, char **endptr, int maxchars, cell value);
int AMXAPI amx_GetLibraries(AMX *amx); int AMXAPI amx_UTF8Check(const char *string);
const char *AMXAPI amx_GetLibrary(AMX *amx, int index, char *buffer, int len);
int AMXAPI amx_SetStringOld(cell *dest,const char *source,int pack,int use_wchar);
int AMXAPI amx_GetStringOld(char *dest,const cell *source,int use_wchar);
#if PAWN_CELL_SIZE==16
#define amx_AlignCell(v) amx_Align16(v)
#elif PAWN_CELL_SIZE==32
#define amx_AlignCell(v) amx_Align32(v)
#elif PAWN_CELL_SIZE==64 && (defined _I64_MAX || defined HAVE_I64)
#define amx_AlignCell(v) amx_Align64(v)
#else
#error Unsupported cell size
#endif
#define amx_RegisterFunc(amx, name, func) \
amx_Register((amx), amx_NativeInfo((name),(func)), 1);
#if !defined AMX_NO_ALIGN #if !defined AMX_NO_ALIGN
#if defined LINUX || defined __FreeBSD__ #if defined __linux__
#pragma pack() /* reset default packing */ #pragma pack() /* reset default packing */
#elif defined MACOS && defined __MWERKS__
#pragma options align=reset
#else #else
#pragma pack(pop) /* reset previous packing */ #pragma pack(pop) /* reset previous packing */
#endif #endif

11
amxmodx/amx_mm.def Executable file
View File

@ -0,0 +1,11 @@
; /usr/local/cross-tools/bin/i386-mingw32msvc-dlltool --base-file /tmp/cc4kB6s0.base --output-exp amx_mm.exp --dllname amx_mm.dll --output-def amx_mm.def --add-stdcall-alias --exclude-symbol=DllMainCRTStartup@12 --def /tmp/ccyI7I7K.def
EXPORTS
GetEngineFunctions @ 1 ;
GetEngineFunctions_Post @ 2 ;
GetEntityAPI2 @ 3 ;
GetEntityAPI2_Post @ 4 ;
GiveFnptrsToDll = GiveFnptrsToDll@8 @ 5 ;
GiveFnptrsToDll@8 @ 6 ;
Meta_Attach @ 7 ;
Meta_Detach @ 8 ;
Meta_Query @ 9 ;

218
amxmodx/amxcore.cpp
View File

@ -1,6 +1,6 @@
/* Core module for the Pawn AMX /* Core module for the Small AMX
* *
* Copyright (c) ITB CompuPhase, 1997-2005 * Copyright (c) ITB CompuPhase, 1997-2004
* *
* This software is provided "as-is", without any express or implied warranty. * This software is provided "as-is", without any express or implied warranty.
* In no event will the authors be held liable for any damages arising from * In no event will the authors be held liable for any damages arising from
@ -34,7 +34,14 @@
#include <string.h> #include <string.h>
#include <limits.h> #include <limits.h>
#include <assert.h> #include <assert.h>
// this file does not include amxmodx.h, so we have to include the memory manager here
#ifdef MEMORY_TEST
#include "mmgr/mmgr.h"
#endif // MEMORY_TEST
#include "amx.h" #include "amx.h"
#if defined __WIN32__ || defined _WIN32 || defined WIN32 || defined _Windows #if defined __WIN32__ || defined _WIN32 || defined WIN32 || defined _Windows
#include <windows.h> #include <windows.h>
#endif #endif
@ -53,13 +60,14 @@
# define _tcscpy strcpy # define _tcscpy strcpy
# define _tcsdup strdup # define _tcsdup strdup
# define _tcslen strlen # define _tcslen strlen
# define _stprintf sprintf
#endif #endif
#define CHARBITS (8*sizeof(char)) #define CHARBITS (8*sizeof(char))
typedef unsigned char uchar; typedef unsigned char uchar;
#if !defined AMX_NOPROPLIST #if !defined NOPROPLIST
typedef struct _property_list { typedef struct _property_list {
struct _property_list *next; struct _property_list *next;
cell id; cell id;
@ -68,7 +76,7 @@ typedef struct _property_list {
//??? safe AMX (owner of the property) //??? safe AMX (owner of the property)
} proplist; } proplist;
static proplist proproot = { NULL, 0, NULL, 0 }; static proplist proproot = { NULL };
static proplist *list_additem(proplist *root) static proplist *list_additem(proplist *root)
{ {
@ -134,13 +142,15 @@ static proplist *list_finditem(proplist *root,cell id,char *name,cell value,
} }
#endif #endif
#if defined __BORLANDC__ || defined __WATCOMC__
#pragma argsused
#endif
static cell AMX_NATIVE_CALL numargs(AMX *amx, cell *params) static cell AMX_NATIVE_CALL numargs(AMX *amx, cell *params)
{ {
AMX_HEADER *hdr; AMX_HEADER *hdr;
uchar *data; uchar *data;
cell bytes; cell bytes;
(void)params;
hdr=(AMX_HEADER *)amx->base; hdr=(AMX_HEADER *)amx->base;
data=amx->data ? amx->data : amx->base+(int)hdr->dat; data=amx->data ? amx->data : amx->base+(int)hdr->dat;
/* the number of bytes is on the stack, at "frm + 2*cell" */ /* the number of bytes is on the stack, at "frm + 2*cell" */
@ -180,16 +190,18 @@ static cell AMX_NATIVE_CALL setarg(AMX *amx, cell *params)
/* adjust the address in "value" in case of an array access */ /* adjust the address in "value" in case of an array access */
value+=params[2]*sizeof(cell); value+=params[2]*sizeof(cell);
/* verify the address */ /* verify the address */
if (value<0 || value>=amx->hea && value<amx->stk) if (value<0 || (value>=amx->hea && value<amx->stk))
return 0; return 0;
/* set the value indirectly */ /* set the value indirectly */
* (cell *)(data+(int)value) = params[3]; * (cell *)(data+(int)value) = params[3];
return 1; return 1;
} }
#if defined __BORLANDC__ || defined __WATCOMC__
#pragma argsused
#endif
static cell AMX_NATIVE_CALL heapspace(AMX *amx,cell *params) static cell AMX_NATIVE_CALL heapspace(AMX *amx,cell *params)
{ {
(void)params;
return amx->stk - amx->hea; return amx->stk - amx->hea;
} }
@ -208,22 +220,142 @@ static cell AMX_NATIVE_CALL funcidx(AMX *amx,cell *params)
return 0; return 0;
} /* if */ } /* if */
amx_GetString(name,cstr,0,UNLIMITED); amx_GetString(name,cstr,0);
err=amx_FindPublic(amx,name,&index); err=amx_FindPublic(amx,name,&index);
if (err!=AMX_ERR_NONE) if (err!=AMX_ERR_NONE)
index=-1; /* this is not considered a fatal error */ index=-1; /* this is not considered a fatal error */
return index; return index;
} }
int amx_StrPack(cell *dest,cell *source)
{
int len;
amx_StrLen(source,&len);
if ((ucell)*source>UNPACKEDMAX) {
/* source string is already packed */
while (len >= 0) {
*dest++ = *source++;
len-=sizeof(cell);
} /* while */
} else {
/* pack string, from bottom up */
cell c;
int i;
for (c=0,i=0; i<len; i++) {
assert((*source & ~0xffL)==0);
c=(c<<CHARBITS) | *source++;
if (i%sizeof(cell) == sizeof(cell)-1) {
*dest++=c;
c=0;
} /* if */
} /* for */
if (i%sizeof(cell) != 0) /* store remaining packed characters */
*dest=c << (sizeof(cell)-i%sizeof(cell))*CHARBITS;
else
*dest=0; /* store full cell of zeros */
} /* if */
return AMX_ERR_NONE;
}
int amx_StrUnpack(cell *dest,cell *source)
{
if ((ucell)*source>UNPACKEDMAX) {
/* unpack string, from top down (so string can be unpacked in place) */
cell c;
int i,len;
amx_StrLen(source,&len);
dest[len]=0;
for (i=len-1; i>=0; i--) {
c=source[i/sizeof(cell)] >> (sizeof(cell)-i%sizeof(cell)-1)*CHARBITS;
dest[i]=c & UCHAR_MAX;
} /* for */
} else {
/* source string is already unpacked */
while ((*dest++ = *source++) != 0)
/* nothing */;
} /* if */
return AMX_ERR_NONE;
}
static int verify_addr(AMX *amx,cell addr)
{
int err;
cell *cdest;
err=amx_GetAddr(amx,addr,&cdest);
if (err!=AMX_ERR_NONE)
amx_RaiseError(amx,err);
return err;
}
static cell AMX_NATIVE_CALL core_strlen(AMX *amx,cell *params)
{
cell *cptr;
int len = 0;
if (amx_GetAddr(amx,params[1],&cptr)==AMX_ERR_NONE)
amx_StrLen(cptr,&len);
return len;
}
static cell AMX_NATIVE_CALL strpack(AMX *amx,cell *params)
{
cell *cdest,*csrc;
int len,needed,err;
size_t lastaddr;
/* calculate number of cells needed for (packed) destination */
amx_GetAddr(amx,params[2],&csrc);
amx_StrLen(csrc,&len);
needed=(len+sizeof(cell))/sizeof(cell); /* # of cells needed */
assert(needed>0);
lastaddr=(size_t)(params[1]+sizeof(cell)*needed-1);
if (verify_addr(amx,(cell)lastaddr)!=AMX_ERR_NONE)
return 0;
amx_GetAddr(amx,params[1],&cdest);
err=amx_StrPack(cdest,csrc);
if (err!=AMX_ERR_NONE)
return amx_RaiseError(amx,err);
return len;
}
static cell AMX_NATIVE_CALL strunpack(AMX *amx,cell *params)
{
cell *cdest,*csrc;
int len,err;
size_t lastaddr;
/* calculate number of cells needed for (packed) destination */
amx_GetAddr(amx,params[2],&csrc);
amx_StrLen(csrc,&len);
assert(len>=0);
lastaddr=(size_t)(params[1]+sizeof(cell)*(len+1)-1);
if (verify_addr(amx,(cell)lastaddr)!=AMX_ERR_NONE)
return 0;
amx_GetAddr(amx,params[1],&cdest);
err=amx_StrUnpack(cdest,csrc);
if (err!=AMX_ERR_NONE)
return amx_RaiseError(amx,err);
return len;
}
#if defined __BORLANDC__ || defined __WATCOMC__
#pragma argsused
#endif
static cell AMX_NATIVE_CALL swapchars(AMX *amx,cell *params) static cell AMX_NATIVE_CALL swapchars(AMX *amx,cell *params)
{ {
union { union {
cell c; cell c;
#if PAWN_CELL_SIZE==16 #if SMALL_CELL_SIZE==16
uchar b[2]; uchar b[2];
#elif PAWN_CELL_SIZE==32 #elif SMALL_CELL_SIZE==32
uchar b[4]; uchar b[4];
#elif PAWN_CELL_SIZE==64 #elif SMALL_CELL_SIZE==64
uchar b[8]; uchar b[8];
#else #else
#error Unsupported cell size #error Unsupported cell size
@ -231,21 +363,20 @@ static cell AMX_NATIVE_CALL swapchars(AMX *amx,cell *params)
} value; } value;
uchar t; uchar t;
(void)amx;
assert((size_t)params[0]==sizeof(cell)); assert((size_t)params[0]==sizeof(cell));
value.c = params[1]; value.c = params[1];
#if PAWN_CELL_SIZE==16 #if SMALL_CELL_SIZE==16
t = value.b[0]; t = value.b[0];
value.b[0] = value.b[1]; value.b[0] = value.b[1];
value.b[1] = t; value.b[1] = t;
#elif PAWN_CELL_SIZE==32 #elif SMALL_CELL_SIZE==32
t = value.b[0]; t = value.b[0];
value.b[0] = value.b[3]; value.b[0] = value.b[3];
value.b[3] = t; value.b[3] = t;
t = value.b[1]; t = value.b[1];
value.b[1] = value.b[2]; value.b[1] = value.b[2];
value.b[2] = t; value.b[2] = t;
#elif PAWN_CELL_SIZE==64 #elif SMALL_CELL_SIZE==64
t = value.b[0]; t = value.b[0];
value.b[0] = value.b[7]; value.b[0] = value.b[7];
value.b[7] = t; value.b[7] = t;
@ -264,9 +395,11 @@ static cell AMX_NATIVE_CALL swapchars(AMX *amx,cell *params)
return value.c; return value.c;
} }
#if defined __BORLANDC__ || defined __WATCOMC__
#pragma argsused
#endif
static cell AMX_NATIVE_CALL core_tolower(AMX *amx,cell *params) static cell AMX_NATIVE_CALL core_tolower(AMX *amx,cell *params)
{ {
(void)amx;
#if defined __WIN32__ || defined _WIN32 || defined WIN32 #if defined __WIN32__ || defined _WIN32 || defined WIN32
return (cell)CharLower((LPTSTR)params[1]); return (cell)CharLower((LPTSTR)params[1]);
#elif defined _Windows #elif defined _Windows
@ -276,9 +409,11 @@ static cell AMX_NATIVE_CALL core_tolower(AMX *amx,cell *params)
#endif #endif
} }
#if defined __BORLANDC__ || defined __WATCOMC__
#pragma argsused
#endif
static cell AMX_NATIVE_CALL core_toupper(AMX *amx,cell *params) static cell AMX_NATIVE_CALL core_toupper(AMX *amx,cell *params)
{ {
(void)amx;
#if defined __WIN32__ || defined _WIN32 || defined WIN32 #if defined __WIN32__ || defined _WIN32 || defined WIN32
return (cell)CharUpper((LPTSTR)params[1]); return (cell)CharUpper((LPTSTR)params[1]);
#elif defined _Windows #elif defined _Windows
@ -288,15 +423,19 @@ static cell AMX_NATIVE_CALL core_toupper(AMX *amx,cell *params)
#endif #endif
} }
#if defined __BORLANDC__ || defined __WATCOMC__
#pragma argsused
#endif
static cell AMX_NATIVE_CALL core_min(AMX *amx,cell *params) static cell AMX_NATIVE_CALL core_min(AMX *amx,cell *params)
{ {
(void)amx;
return params[1] <= params[2] ? params[1] : params[2]; return params[1] <= params[2] ? params[1] : params[2];
} }
#if defined __BORLANDC__ || defined __WATCOMC__
#pragma argsused
#endif
static cell AMX_NATIVE_CALL core_max(AMX *amx,cell *params) static cell AMX_NATIVE_CALL core_max(AMX *amx,cell *params)
{ {
(void)amx;
return params[1] >= params[2] ? params[1] : params[2]; return params[1] >= params[2] ? params[1] : params[2];
} }
@ -312,7 +451,7 @@ static cell AMX_NATIVE_CALL core_clamp(AMX *amx,cell *params)
return value; return value;
} }
#if !defined AMX_NOPROPLIST #if !defined NOPROPLIST
static char *MakePackedString(cell *cptr) static char *MakePackedString(cell *cptr)
{ {
int len; int len;
@ -320,21 +459,10 @@ static char *MakePackedString(cell *cptr)
amx_StrLen(cptr,&len); amx_StrLen(cptr,&len);
dest=(char *)malloc(len+sizeof(cell)); dest=(char *)malloc(len+sizeof(cell));
amx_GetString(dest,cptr,0,UNLIMITED); amx_GetString(dest,cptr,0);
return dest; return dest;
} }
static int verify_addr(AMX *amx,cell addr)
{
int err;
cell *cdest;
err=amx_GetAddr(amx,addr,&cdest);
if (err!=AMX_ERR_NONE)
amx_RaiseError(amx,err);
return err;
}
static cell AMX_NATIVE_CALL getproperty(AMX *amx,cell *params) static cell AMX_NATIVE_CALL getproperty(AMX *amx,cell *params)
{ {
cell *cstr; cell *cstr;
@ -352,7 +480,7 @@ static cell AMX_NATIVE_CALL getproperty(AMX *amx,cell *params)
return 0; return 0;
} /* if */ } /* if */
amx_GetAddr(amx,params[4],&cstr); amx_GetAddr(amx,params[4],&cstr);
amx_SetString(cstr,item->name,1,0,UNLIMITED); amx_SetString(cstr,item->name,1,0);
} /* if */ } /* if */
free(name); free(name);
return (item!=NULL) ? item->value : 0; return (item!=NULL) ? item->value : 0;
@ -417,14 +545,12 @@ static cell AMX_NATIVE_CALL existproperty(AMX *amx,cell *params)
} }
#endif #endif
#if !defined AMX_NORANDOM
/* This routine comes from the book "Inner Loops" by Rick Booth, Addison-Wesley /* This routine comes from the book "Inner Loops" by Rick Booth, Addison-Wesley
* (ISBN 0-201-47960-5). This is a "multiplicative congruential random number * (ISBN 0-201-47960-5). This is a "multiplicative congruential random number
* generator" that has been extended to 31-bits (the standard C version returns * generator" that has been extended to 31-bits (the standard C version returns
* only 15-bits). * only 15-bits).
*/ */
#define INITIAL_SEED 0xcaa938dbL static unsigned long IL_StandardRandom_seed = 0L;
static unsigned long IL_StandardRandom_seed = INITIAL_SEED; /* always use a non-zero seed */
#define IL_RMULT 1103515245L #define IL_RMULT 1103515245L
#if defined __BORLANDC__ || defined __WATCOMC__ #if defined __BORLANDC__ || defined __WATCOMC__
#pragma argsused #pragma argsused
@ -436,7 +562,7 @@ static cell AMX_NATIVE_CALL core_random(AMX *amx,cell *params)
/* one-time initialization (or, mostly one-time) */ /* one-time initialization (or, mostly one-time) */
#if !defined SN_TARGET_PS2 && !defined _WIN32_WCE #if !defined SN_TARGET_PS2 && !defined _WIN32_WCE
if (IL_StandardRandom_seed == INITIAL_SEED) if (IL_StandardRandom_seed == 0L)
IL_StandardRandom_seed=(unsigned long)time(NULL); IL_StandardRandom_seed=(unsigned long)time(NULL);
#endif #endif
@ -453,7 +579,6 @@ static cell AMX_NATIVE_CALL core_random(AMX *amx,cell *params)
result %= params[1]; result %= params[1];
return (cell)result; return (cell)result;
} }
#endif
AMX_NATIVE_INFO core_Natives[] = { AMX_NATIVE_INFO core_Natives[] = {
@ -462,13 +587,22 @@ AMX_NATIVE_INFO core_Natives[] = {
{ "setarg", setarg }, { "setarg", setarg },
{ "heapspace", heapspace }, { "heapspace", heapspace },
{ "funcidx", funcidx }, { "funcidx", funcidx },
{ "strlen", core_strlen },
{ "strpack", strpack },
{ "strunpack", strunpack },
{ "swapchars", swapchars }, { "swapchars", swapchars },
{ "tolower", core_tolower }, { "tolower", core_tolower },
{ "toupper", core_toupper }, { "toupper", core_toupper },
{ "random", core_random },
{ "min", core_min }, { "min", core_min },
{ "max", core_max }, { "max", core_max },
{ "clamp", core_clamp }, { "clamp", core_clamp },
{ "random", core_random }, #if !defined NOPROPLIST
{ "getproperty", getproperty },
{ "setproperty", setproperty },
{ "deleteproperty",delproperty },
{ "existproperty", existproperty },
#endif
{ NULL, NULL } /* terminator */ { NULL, NULL } /* terminator */
}; };
@ -477,10 +611,12 @@ int AMXEXPORT amx_CoreInit(AMX *amx)
return amx_Register(amx, core_Natives, -1); return amx_Register(amx, core_Natives, -1);
} }
#if defined __BORLANDC__ || defined __WATCOMC__
#pragma argsused
#endif
int AMXEXPORT amx_CoreCleanup(AMX *amx) int AMXEXPORT amx_CoreCleanup(AMX *amx)
{ {
(void)amx; #if !defined NOPROPLIST
#if !defined AMX_NOPROPLIST
//??? delete only the properties owned by the AMX //??? delete only the properties owned by the AMX
while (proproot.next!=NULL) while (proproot.next!=NULL)
list_delete(&proproot,proproot.next); list_delete(&proproot,proproot.next);

498
amxmodx/amxdbg.cpp
View File

@ -1,498 +0,0 @@
/* Pawn debugger interface
*
* Support functions for debugger applications
*
* Copyright (c) ITB CompuPhase, 2005
*
* This software is provided "as-is", without any express or implied warranty.
* In no event will the authors be held liable for any damages arising from
* the use of this software.
*
* Permission is granted to anyone to use this software for any purpose,
* including commercial applications, and to alter it and redistribute it
* freely, subject to the following restrictions:
*
* 1. The origin of this software must not be misrepresented; you must not
* claim that you wrote the original software. If you use this software in
* a product, an acknowledgment in the product documentation would be
* appreciated but is not required.
* 2. Altered source versions must be plainly marked as such, and must not be
* misrepresented as being the original software.
* 3. This notice may not be removed or altered from any source distribution.
*
* Version: $Id$
*/
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include "osdefs.h" /* for _MAX_PATH */
#include "amx.h"
#include "amxdbg.h"
// this file does not include amxmodx.h, so we have to include the memory manager here
#ifdef MEMORY_TEST
#include "mmgr/mmgr.h"
#endif // MEMORY_TEST
int AMXAPI dbg_FreeInfo(AMX_DBG *amxdbg)
{
assert(amxdbg != NULL);
if (amxdbg->hdr != NULL)
free(amxdbg->hdr);
if (amxdbg->filetbl != NULL)
free(amxdbg->filetbl);
if (amxdbg->symboltbl != NULL)
free(amxdbg->symboltbl);
if (amxdbg->tagtbl != NULL)
free(amxdbg->tagtbl);
if (amxdbg->automatontbl != NULL)
free(amxdbg->automatontbl);
if (amxdbg->statetbl != NULL)
free(amxdbg->statetbl);
memset(amxdbg, 0, sizeof(AMX_DBG));
return AMX_ERR_NONE;
}
void memread(void *dest, char **src, size_t size)
{
void *ptr = *src;
memcpy(dest, ptr, size);
*src += size;
}
const char *ClipFileName(const char *inp)
{
static char buffer[256];
size_t len = strlen(inp);
const char *ptr = inp;
for (size_t i=0; i<len; i++)
{
if ((inp[i] == '\\' || inp[i] == '/') && (i != len-1))
ptr = inp + i + 1;
}
strcpy(buffer, ptr);
return buffer;
}
//Note - I changed this function to read from memory instead.
// -- BAILOPAN
int AMXAPI dbg_LoadInfo(AMX_DBG *amxdbg, void *dbg_addr)
{
AMX_DBG_HDR dbghdr;
unsigned char *ptr;
int index, dim;
AMX_DBG_SYMDIM *symdim;
assert(amxdbg != NULL);
char *addr = (char *)(dbg_addr);
memset(&dbghdr, 0, sizeof(AMX_DBG_HDR));
memread(&dbghdr, &addr, sizeof(AMX_DBG_HDR));
//brabbby graa gragghty graaahhhh
#if BYTE_ORDER==BIG_ENDIAN
amx_Align32((uint32_t*)&dbghdr.size);
amx_Align16(&dbghdr.magic);
amx_Align16(&dbghdr.flags);
amx_Align16(&dbghdr.files);
amx_Align16(&dbghdr.lines);
amx_Align16(&dbghdr.symbols);
amx_Align16(&dbghdr.tags);
amx_Align16(&dbghdr.automatons);
amx_Align16(&dbghdr.states);
#endif
if (dbghdr.magic != AMX_DBG_MAGIC)
return AMX_ERR_FORMAT;
/* allocate all memory */
memset(amxdbg, 0, sizeof(AMX_DBG));
amxdbg->hdr = (AMX_DBG_HDR *)malloc((size_t)dbghdr.size);
if (dbghdr.files > 0)
amxdbg->filetbl = (AMX_DBG_FILE **)malloc(dbghdr.files * sizeof(AMX_DBG_FILE *));
if (dbghdr.symbols > 0)
amxdbg->symboltbl = (AMX_DBG_SYMBOL **)malloc(dbghdr.symbols * sizeof(AMX_DBG_SYMBOL *));
if (dbghdr.tags > 0)
amxdbg->tagtbl = (AMX_DBG_TAG **)malloc(dbghdr.tags * sizeof(AMX_DBG_TAG *));
if (dbghdr.automatons > 0)
amxdbg->automatontbl = (AMX_DBG_MACHINE **)malloc(dbghdr.automatons * sizeof(AMX_DBG_MACHINE *));
if (dbghdr.states > 0)
amxdbg->statetbl = (AMX_DBG_STATE **)malloc(dbghdr.states * sizeof(AMX_DBG_STATE *));
if (amxdbg->hdr == NULL
|| (dbghdr.files > 0 && amxdbg->filetbl == NULL)
|| (dbghdr.symbols > 0 && amxdbg->symboltbl == NULL)
|| (dbghdr.tags > 0 && amxdbg->tagtbl == NULL)
|| (dbghdr.states > 0 && amxdbg->statetbl == NULL)
|| (dbghdr.automatons > 0 && amxdbg->automatontbl == NULL))
{
dbg_FreeInfo(amxdbg);
return AMX_ERR_MEMORY;
} /* if */
/* load the entire symbolic information block into memory */
memcpy(amxdbg->hdr, &dbghdr, sizeof dbghdr);
ptr = (unsigned char *)(amxdbg->hdr + 1);
memread(ptr, &addr, (size_t)(dbghdr.size-sizeof(dbghdr)));
/* file table */
for (index = 0; index < dbghdr.files; index++) {
assert(amxdbg->filetbl != NULL);
amxdbg->filetbl[index] = (AMX_DBG_FILE *)ptr;
#if BYTE_ORDER==BIG_ENDIAN
amx_AlignCell(&amxdbg->filetbl[index]->address);
#endif
for (ptr = ptr + sizeof(AMX_DBG_FILE); *ptr != '\0'; ptr++)
/* nothing */;
ptr++; /* skip '\0' too */
} /* for */
//debug("Files: %d\n", amxdbg->hdr->files);
for (index=0;index<amxdbg->hdr->files; index++)
{
strcpy((char *)amxdbg->filetbl[index]->name, ClipFileName(amxdbg->filetbl[index]->name));
//debug(" [%d] %s\n", index, amxdbg->filetbl[index]->name);
}
/* line table */
amxdbg->linetbl = (AMX_DBG_LINE*)ptr;
#if BYTE_ORDER==BIG_ENDIAN
for (index = 0; index < dbghdr.lines; index++) {
amx_AlignCell(&amxdbg->linetbl[index].address);
amx_Align32((uint32_t*)&amxdbg->linetbl[index].line);
} /* for */
#endif
ptr += dbghdr.lines * sizeof(AMX_DBG_LINE);
/* symbol table (plus index tags) */
for (index = 0; index < dbghdr.symbols; index++) {
assert(amxdbg->symboltbl != NULL);
amxdbg->symboltbl[index] = (AMX_DBG_SYMBOL *)ptr;
#if BYTE_ORDER==BIG_ENDIAN
amx_AlignCell(&amxdbg->symboltbl[index]->address);
amx_Align16((uint16_t*)&amxdbg->symboltbl[index]->tag);
amx_AlignCell(&amxdbg->symboltbl[index]->codestart);
amx_AlignCell(&amxdbg->symboltbl[index]->codeend);
amx_Align16((uint16_t*)&amxdbg->symboltbl[index]->dim);
#endif
for (ptr = ptr + sizeof(AMX_DBG_SYMBOL); *ptr != '\0'; ptr++)
/* nothing */;
ptr++; /* skip '\0' too */
for (dim = 0; dim < amxdbg->symboltbl[index]->dim; dim++) {
symdim = (AMX_DBG_SYMDIM *)ptr;
amx_Align16((uint16_t*)&symdim->tag);
amx_AlignCell(&symdim->size);
ptr += sizeof(AMX_DBG_SYMDIM);
} /* for */
} /* for */
/* tag name table */
for (index = 0; index < dbghdr.tags; index++) {
assert(amxdbg->tagtbl != NULL);
amxdbg->tagtbl[index] = (AMX_DBG_TAG *)ptr;
#if BYTE_ORDER==BIG_ENDIAN
amx_Align16(&amxdbg->tagtbl[index]->tag);
#endif
for (ptr = ptr + sizeof(AMX_DBG_TAG) - 1; *ptr != '\0'; ptr++)
/* nothing */;
ptr++; /* skip '\0' too */
} /* for */
/* automaton name table */
for (index = 0; index < dbghdr.automatons; index++) {
assert(amxdbg->automatontbl != NULL);
amxdbg->automatontbl[index] = (AMX_DBG_MACHINE *)ptr;
#if BYTE_ORDER==BIG_ENDIAN
amx_Align16(&amxdbg->automatontbl[index]->automaton);
amx_AlignCell(&amxdbg->automatontbl[index]->address);
#endif
for (ptr = ptr + sizeof(AMX_DBG_MACHINE) - 1; *ptr != '\0'; ptr++)
/* nothing */;
ptr++; /* skip '\0' too */
} /* for */
/* state name table */
for (index = 0; index < dbghdr.states; index++) {
assert(amxdbg->statetbl != NULL);
amxdbg->statetbl[index] = (AMX_DBG_STATE *)ptr;
#if BYTE_ORDER==BIG_ENDIAN
amx_Align16(&amxdbg->statetbl[index]->state);
amx_Align16(&amxdbg->automatontbl[index]->automaton);
#endif
for (ptr = ptr + sizeof(AMX_DBG_STATE) - 1; *ptr != '\0'; ptr++)
/* nothing */;
ptr++; /* skip '\0' too */
} /* for */
return AMX_ERR_NONE;
}
int AMXAPI dbg_LookupFile(AMX_DBG *amxdbg, ucell address, const char **filename)
{
int index;
assert(amxdbg != NULL);
assert(filename != NULL);
*filename = NULL;
/* this is a simple linear look-up; a binary search would be possible too */
for (index = 0; index < amxdbg->hdr->files && amxdbg->filetbl[index]->address <= address; index++)
/* nothing */;
/* reset for overrun */
if (--index < 0)
return AMX_ERR_NOTFOUND;
*filename = amxdbg->filetbl[index]->name;
return AMX_ERR_NONE;
}
int AMXAPI dbg_LookupLine(AMX_DBG *amxdbg, ucell address, long *line)
{
int index;
assert(amxdbg != NULL);
assert(line != NULL);
*line = 0;
/* this is a simple linear look-up; a binary search would be possible too */
for (index = 0; index < amxdbg->hdr->lines && amxdbg->linetbl[index].address <= address; index++)
/* nothing */;
/* reset for overrun */
if (--index < 0)
return AMX_ERR_NOTFOUND;
*line = (long)amxdbg->linetbl[index].line;
return AMX_ERR_NONE;
}
int AMXAPI dbg_LookupFunction(AMX_DBG *amxdbg, ucell address, const char **funcname)
{
/* dbg_LookupFunction() finds the function a code address is in. It can be
* used for stack walking, and for stepping through a function while stepping
* over sub-functions
*/
int index;
assert(amxdbg != NULL);
assert(funcname != NULL);
*funcname = NULL;
for (index = 0; index < amxdbg->hdr->symbols; index++) {
if (amxdbg->symboltbl[index]->ident == iFUNCTN
&& amxdbg->symboltbl[index]->codestart <= address
&& amxdbg->symboltbl[index]->codeend > address)
break;
} /* for */
if (index >= amxdbg->hdr->symbols)
return AMX_ERR_NOTFOUND;
*funcname = amxdbg->symboltbl[index]->name;
return AMX_ERR_NONE;
}
int AMXAPI dbg_GetTagName(AMX_DBG *amxdbg, int tag, const char **name)
{
int index;
assert(amxdbg != NULL);
assert(name != NULL);
*name = NULL;
for (index = 0; index < amxdbg->hdr->tags && amxdbg->tagtbl[index]->tag != tag; index++)
/* nothing */;
if (index >= amxdbg->hdr->tags)
return AMX_ERR_NOTFOUND;
*name = amxdbg->tagtbl[index]->name;
return AMX_ERR_NONE;
}
int AMXAPI dbg_GetAutomatonName(AMX_DBG *amxdbg, int automaton, const char **name)
{
int index;
assert(amxdbg != NULL);
assert(name != NULL);
*name = NULL;
for (index = 0; index < amxdbg->hdr->automatons && amxdbg->automatontbl[index]->automaton != automaton; index++)
/* nothing */;
if (index >= amxdbg->hdr->automatons)
return AMX_ERR_NOTFOUND;
*name = amxdbg->automatontbl[index]->name;
return AMX_ERR_NONE;
}
int AMXAPI dbg_GetStateName(AMX_DBG *amxdbg, int state, const char **name)
{
int index;
assert(amxdbg != NULL);
assert(name != NULL);
*name = NULL;
for (index = 0; index < amxdbg->hdr->states && amxdbg->statetbl[index]->state != state; index++)
/* nothing */;
if (index >= amxdbg->hdr->states)
return AMX_ERR_NOTFOUND;
*name = amxdbg->statetbl[index]->name;
return AMX_ERR_NONE;
}
int AMXAPI dbg_GetLineAddress(AMX_DBG *amxdbg, long line, const char *filename, ucell *address)
{
/* Find a suitable "breakpoint address" close to the indicated line (and in
* the specified file). The address is moved up to the next "breakable" line
* if no "breakpoint" is available on the specified line. You can use function
* dbg_LookupLine() to find out at which precise line the breakpoint was set.
*
* The filename comparison is strict (case sensitive and path sensitive); the
* "filename" parameter should point into the "filetbl" of the AMX_DBG
* structure.
*/
int file, index;
ucell bottomaddr,topaddr;
assert(amxdbg != NULL);
assert(filename != NULL);
assert(address != NULL);
*address = 0;
index = 0;
for (file = 0; file < amxdbg->hdr->files; file++) {
/* find the (next) mathing instance of the file */
if (strcmp(amxdbg->filetbl[file]->name, filename) != 0)
continue;
/* get address range for the current file */
bottomaddr = amxdbg->filetbl[file]->address;
topaddr = (file + 1 < amxdbg->hdr->files) ? amxdbg->filetbl[file+1]->address : (ucell)(cell)-1;
/* go to the starting address in the line table */
while (index < amxdbg->hdr->lines && amxdbg->linetbl[index].address < bottomaddr)
index++;
/* browse until the line is found or until the top address is exceeded */
while (index < amxdbg->hdr->lines
&& amxdbg->linetbl[index].line < line
&& amxdbg->linetbl[index].address < topaddr)
index++;
if (index >= amxdbg->hdr->lines)
return AMX_ERR_NOTFOUND;
if (amxdbg->linetbl[index].line >= line)
break;
/* if not found (and the line table is not yet exceeded) try the next
* instance of the same file (a file may appear twice in the file table)
*/
} /* for */
if (strcmp(amxdbg->filetbl[file]->name, filename) != 0)
return AMX_ERR_NOTFOUND;
assert(index < amxdbg->hdr->lines);
*address = amxdbg->linetbl[index].address;
return AMX_ERR_NONE;
}
int AMXAPI dbg_GetFunctionAddress(AMX_DBG *amxdbg, const char *funcname, const char *filename, ucell *address)
{
/* Find a suitable "breakpoint address" close to the indicated line (and in
* the specified file). The address is moved up to the first "breakable" line
* in the function. You can use function dbg_LookupLine() to find out at which
* precise line the breakpoint was set.
*
* The filename comparison is strict (case sensitive and path sensitive); the
* "filename" parameter should point into the "filetbl" of the AMX_DBG
* structure. The function name comparison is case sensitive too.
*/
int index, err;
const char *tgtfile;
ucell funcaddr;
assert(amxdbg != NULL);
assert(funcname != NULL);
assert(filename != NULL);
assert(address != NULL);
*address = 0;
index = 0;
for ( ;; ) {
/* find (next) matching function */
while (index < amxdbg->hdr->symbols
&& (amxdbg->symboltbl[index]->ident != iFUNCTN || strcmp(amxdbg->symboltbl[index]->name, funcname) != 0))
index++;
if (index >= amxdbg->hdr->symbols)
return AMX_ERR_NOTFOUND;
/* verify that this line falls in the appropriate file */
err = dbg_LookupFile(amxdbg, amxdbg->symboltbl[index]->address, &tgtfile);
if (err == AMX_ERR_NONE || strcmp(filename, tgtfile) == 0)
break;
index++; /* line is the wrong file, search further */
} /* for */
/* now find the first line in the function where we can "break" on */
assert(index < amxdbg->hdr->symbols);
funcaddr = amxdbg->symboltbl[index]->address;
for (index = 0; index < amxdbg->hdr->lines && amxdbg->linetbl[index].address < funcaddr; index++)
/* nothing */;
if (index >= amxdbg->hdr->lines)
return AMX_ERR_NOTFOUND;
*address = amxdbg->linetbl[index].address;
return AMX_ERR_NONE;
}
int AMXAPI dbg_GetVariable(AMX_DBG *amxdbg, const char *symname, ucell scopeaddr, const AMX_DBG_SYMBOL **sym)
{
ucell codestart,codeend;
int index;
assert(amxdbg != NULL);
assert(symname != NULL);
assert(sym != NULL);
*sym = NULL;
codestart = codeend = 0;
index = 0;
for ( ;; ) {
/* find (next) matching variable */
while (index < amxdbg->hdr->symbols
&& (amxdbg->symboltbl[index]->ident == iFUNCTN || strcmp(amxdbg->symboltbl[index]->name, symname) != 0)
&& (amxdbg->symboltbl[index]->codestart > scopeaddr || amxdbg->symboltbl[index]->codeend < scopeaddr))
index++;
if (index >= amxdbg->hdr->symbols)
break;
/* check the range, keep a pointer to the symbol with the smallest range */
if (strcmp(amxdbg->symboltbl[index]->name, symname) == 0
&& (codestart == 0 && codeend == 0
|| amxdbg->symboltbl[index]->codestart >= codestart && amxdbg->symboltbl[index]->codeend <= codeend))
{
*sym = amxdbg->symboltbl[index];
codestart = amxdbg->symboltbl[index]->codestart;
codeend = amxdbg->symboltbl[index]->codeend;
} /* if */
index++;
} /* for */
return (*sym == NULL) ? AMX_ERR_NOTFOUND : AMX_ERR_NONE;
}
int AMXAPI dbg_GetArrayDim(AMX_DBG *amxdbg, const AMX_DBG_SYMBOL *sym, const AMX_DBG_SYMDIM **symdim)
{
/* retrieves a pointer to the array dimensions structures of an array symbol */
const char *ptr;
assert(amxdbg != NULL);
assert(sym != NULL);
assert(symdim != NULL);
*symdim = NULL;
if (sym->ident != iARRAY && sym->ident != iREFARRAY)
return AMX_ERR_PARAMS;
assert(sym->dim > 0); /* array must have at least one dimension */
/* find the end of the symbol name */
for (ptr = sym->name; *ptr != '\0'; ptr++)
/* nothing */;
*symdim = (AMX_DBG_SYMDIM *)(ptr + 1);/* skip '\0' too */
return AMX_ERR_NONE;
}

172
amxmodx/amxdbg.h
View File

@ -1,172 +0,0 @@
/* Abstract Machine for the Pawn compiler, debugger support
*
* This file contains extra definitions that are convenient for debugger
* support.
*
* Copyright (c) ITB CompuPhase, 2005
*
* This software is provided "as-is", without any express or implied warranty.
* In no event will the authors be held liable for any damages arising from
* the use of this software.
*
* Permission is granted to anyone to use this software for any purpose,
* including commercial applications, and to alter it and redistribute it
* freely, subject to the following restrictions:
*
* 1. The origin of this software must not be misrepresented; you must not
* claim that you wrote the original software. If you use this software in
* a product, an acknowledgment in the product documentation would be
* appreciated but is not required.
* 2. Altered source versions must be plainly marked as such, and must not be
* misrepresented as being the original software.
* 3. This notice may not be removed or altered from any source distribution.
*
* Version: $Id$
*/
#ifndef AMXDBG_H_INCLUDED
#define AMXDBG_H_INCLUDED
#ifndef AMX_H_INCLUDED
#include "amx.h"
#endif
#ifdef __cplusplus
extern "C" {
#endif
/* Some compilers do not support the #pragma align, which should be fine. Some
* compilers give a warning on unknown #pragmas, which is not so fine...
*/
#if defined SN_TARGET_PS2 || defined __GNUC__
#define AMX_NO_ALIGN
#endif
#if defined __GNUC__
#define PACKED __attribute__((packed))
#else
#define PACKED
#endif
#if !defined AMX_NO_ALIGN
#if defined LINUX || defined __FreeBSD__
#pragma pack(1) /* structures must be packed (byte-aligned) */
#elif defined MACOS && defined __MWERKS__
#pragma options align=mac68k
#else
#pragma pack(push)
#pragma pack(1) /* structures must be packed (byte-aligned) */
#if defined __TURBOC__
#pragma option -a- /* "pack" pragma for older Borland compilers */
#endif
#endif
#endif
typedef struct tagAMX_DBG_HDR {
int32_t size PACKED; /* size of the debug information chunk */
uint16_t magic PACKED; /* signature, must be 0xf1ef */
char file_version PACKED; /* file format version */
char amx_version PACKED; /* required version of the AMX */
int16_t flags PACKED; /* currently unused */
int16_t files PACKED; /* number of entries in the "file" table */
int16_t lines PACKED; /* number of entries in the "line" table */
int16_t symbols PACKED; /* number of entries in the "symbol" table */
int16_t tags PACKED; /* number of entries in the "tag" table */
int16_t automatons PACKED; /* number of entries in the "automaton" table */
int16_t states PACKED; /* number of entries in the "state" table */
} AMX_DBG_HDR PACKED;
#define AMX_DBG_MAGIC 0xf1ef
typedef struct tagAMX_DBG_FILE {
ucell address PACKED; /* address in the code segment where generated code (for this file) starts */
const char name[1] PACKED; /* ASCII string, zero-terminated */
} AMX_DBG_FILE PACKED;
typedef struct tagAMX_DBG_LINE {
ucell address PACKED; /* address in the code segment where generated code (for this line) starts */
int32_t line PACKED; /* line number */
} AMX_DBG_LINE PACKED;
typedef struct tagAMX_DBG_SYMBOL {
ucell address PACKED; /* address in the data segment or relative to the frame */
int16_t tag PACKED; /* tag for the symbol */
ucell codestart PACKED; /* address in the code segment from which this symbol is valid (in scope) */
ucell codeend PACKED; /* address in the code segment until which this symbol is valid (in scope) */
char ident PACKED; /* kind of symbol (function/variable) */
char vclass PACKED; /* class of symbol (global/local) */
int16_t dim PACKED; /* number of dimensions */
const char name[1] PACKED; /* ASCII string, zero-terminated */
} AMX_DBG_SYMBOL PACKED;
typedef struct tagAMX_DBG_SYMDIM {
int16_t tag PACKED; /* tag for the array dimension */
ucell size PACKED; /* size of the array dimension */
} AMX_DBG_SYMDIM PACKED;
typedef struct tagAMX_DBG_TAG {
int16_t tag PACKED; /* tag id */
const char name[1] PACKED; /* ASCII string, zero-terminated */
} AMX_DBG_TAG PACKED;
typedef struct tagAMX_DBG_MACHINE {
int16_t automaton PACKED; /* automaton id */
ucell address PACKED; /* address of state variable */
const char name[1] PACKED; /* ASCII string, zero-terminated */
} AMX_DBG_MACHINE PACKED;
typedef struct tagAMX_DBG_STATE {
int16_t state PACKED; /* state id */
int16_t automaton PACKED; /* automaton id */
const char name[1] PACKED; /* ASCII string, zero-terminated */
} AMX_DBG_STATE PACKED;
typedef struct tagAMX_DBG {
AMX_DBG_HDR _FAR *hdr PACKED; /* points to the AMX_DBG header */
AMX_DBG_FILE _FAR **filetbl PACKED;
AMX_DBG_LINE _FAR *linetbl PACKED;
AMX_DBG_SYMBOL _FAR **symboltbl PACKED;
AMX_DBG_TAG _FAR **tagtbl PACKED;
AMX_DBG_MACHINE _FAR **automatontbl PACKED;
AMX_DBG_STATE _FAR **statetbl PACKED;
} AMX_DBG PACKED;
#if !defined iVARIABLE
#define iVARIABLE 1 /* cell that has an address and that can be fetched directly (lvalue) */
#define iREFERENCE 2 /* iVARIABLE, but must be dereferenced */
#define iARRAY 3
#define iREFARRAY 4 /* an array passed by reference (i.e. a pointer) */
#define iFUNCTN 9
#endif
int AMXAPI dbg_FreeInfo(AMX_DBG *amxdbg);
int AMXAPI dbg_LoadInfo(AMX_DBG *amxdbg, void *dbg_addr);
int AMXAPI dbg_LookupFile(AMX_DBG *amxdbg, ucell address, const char **filename);
int AMXAPI dbg_LookupFunction(AMX_DBG *amxdbg, ucell address, const char **funcname);
int AMXAPI dbg_LookupLine(AMX_DBG *amxdbg, ucell address, long *line);
int AMXAPI dbg_GetFunctionAddress(AMX_DBG *amxdbg, const char *funcname, const char *filename, ucell *address);
int AMXAPI dbg_GetLineAddress(AMX_DBG *amxdbg, long line, const char *filename, ucell *address);
int AMXAPI dbg_GetAutomatonName(AMX_DBG *amxdbg, int automaton, const char **name);
int AMXAPI dbg_GetStateName(AMX_DBG *amxdbg, int state, const char **name);
int AMXAPI dbg_GetTagName(AMX_DBG *amxdbg, int tag, const char **name);
int AMXAPI dbg_GetVariable(AMX_DBG *amxdbg, const char *symname, ucell scopeaddr, const AMX_DBG_SYMBOL **sym);
int AMXAPI dbg_GetArrayDim(AMX_DBG *amxdbg, const AMX_DBG_SYMBOL *sym, const AMX_DBG_SYMDIM **symdim);
#if !defined AMX_NO_ALIGN
#if defined LINUX || defined __FreeBSD__
#pragma pack() /* reset default packing */
#elif defined MACOS && defined __MWERKS__
#pragma options align=reset
#else
#pragma pack(pop) /* reset previous packing */
#endif
#endif
#ifdef __cplusplus
}
#endif
#endif /* AMXDBG_H_INCLUDED */

86
amxmodx/amxdefn.asm
View File

@ -1,86 +0,0 @@
; Definition of the AMX structure for assembler syntax (NASM)
struc amx_s
_base: resd 1
_dataseg: resd 1
_callback: resd 1
_debug: resd 1
_cip: resd 1
_frm: resd 1
_hea: resd 1
_hlw: resd 1
_stk: resd 1
_stp: resd 1
_flags: resd 1
_usertags: resd 4 ; 4 = AMX_USERNUM (#define'd in amx.h)
_userdata: resd 4 ; 4 = AMX_USERNUM (#define'd in amx.h)
_error: resd 1
_paramcount: resd 1
_pri: resd 1
_alt: resd 1
_reset_stk: resd 1
_reset_hea: resd 1
_syscall_d: resd 1
%ifdef JIT
; the two fields below are for the JIT; they do not exist in
; the non-JIT version of the abstract machine
_reloc_size: resd 1 ; memory block for relocations
_code_size: resd 1 ; memory size of the native code
%endif
endstruc
struc amxhead_s
_size: resd 1 ; size of the "file"
_magic: resw 1 ; signature
_file_version: resb 1; file format version
_amx_version: resb 1 ; required version of the AMX
_h_flags: resw 1
_defsize: resw 1 ; size of one public/native function entry
_cod: resd 1 ; initial value of COD - code block
_dat: resd 1 ; initial value of DAT - data block
_h_hea: resd 1 ; initial value of HEA - start of the heap
_h_stp: resd 1 ; initial value of STP - stack top
_h_cip: resd 1 ; initial value of CIP - the instruction pointer
_publics: resd 1 ; offset to the "public functions" table
_natives: resd 1 ; offset to the "native functions" table
_libraries: resd 1 ; offset to the "library" table
_pubvars: resd 1 ; offset to the "public variables" table
_tags: resd 1 ; offset to the "public tagnames" table
_nametable: resd 1 ; offset to the name table, file version 7 only
endstruc
AMX_ERR_NONE EQU 0
AMX_ERR_EXIT EQU 1
AMX_ERR_ASSERT EQU 2
AMX_ERR_STACKERR EQU 3
AMX_ERR_BOUNDS EQU 4
AMX_ERR_MEMACCESS EQU 5
AMX_ERR_INVINSTR EQU 6
AMX_ERR_STACKLOW EQU 7
AMX_ERR_HEAPLOW EQU 8
AMX_ERR_CALLBACK EQU 9
AMX_ERR_NATIVE EQU 10
AMX_ERR_DIVIDE EQU 11 ; for catching divide errors
AMX_ERR_SLEEP EQU 12
AMX_ERR_MEMORY EQU 16
AMX_ERR_FORMAT EQU 17
AMX_ERR_VERSION EQU 18
AMX_ERR_NOTFOUND EQU 19
AMX_ERR_INDEX EQU 20
AMX_ERR_DEBUG EQU 21
AMX_ERR_INIT EQU 22
AMX_ERR_USERDATA EQU 23
AMX_ERR_INIT_JIT EQU 24
AMX_ERR_PARAMS EQU 25
AMX_ERR_DOMAIN EQU 26
AMX_ERR_GENERAL EQU 27
AMX_FLAG_DEBUG EQU 0002h ; symbolic info. available
AMX_FLAG_COMPACT EQU 0004h
AMX_FLAG_BYTEOPC EQU 0008h
AMX_FLAG_NOCHECKS EQU 0010h
AMX_FLAG_BROWSE EQU 4000h
AMX_FLAG_RELOC EQU 8000h ; jump/call addresses relocated

1749
amxmodx/amxexecn.asm
View File

File diff suppressed because it is too large Load Diff

4749
amxmodx/amxmodx.cpp
View File

File diff suppressed because it is too large Load Diff

157
amxmodx/amxmodx.h
View File

@ -32,18 +32,13 @@
#ifndef AMXMODX_H #ifndef AMXMODX_H
#define AMXMODX_H #define AMXMODX_H
#ifdef __linux__
#include <unistd.h>
#include <stdlib.h>
#include "sclinux.h"
#endif
#include <ctype.h> //tolower, etc
#include "string.h" #include "string.h"
#include <extdll.h> #include <extdll.h>
#include <meta_api.h> #include <meta_api.h>
#ifdef MEMORY_TEST #ifdef MEMORY_TEST
#include "mmgr/mmgr.h" #include "mmgr/mmgr.h"
#endif #endif
#include "md5.h" #include "md5.h"
@ -67,43 +62,32 @@
#include "amxxlog.h" #include "amxxlog.h"
#define AMXXLOG_Log g_log.Log #define AMXXLOG_Log g_log.Log
#define AMX_VERSION "1.70" #define AMX_VERSION "0.2"
extern AMX_NATIVE_INFO core_Natives[];
extern AMX_NATIVE_INFO time_Natives[];
extern AMX_NATIVE_INFO power_Natives[];
extern AMX_NATIVE_INFO amxmod_Natives[];
extern AMX_NATIVE_INFO file_Natives[];
extern AMX_NATIVE_INFO float_Natives[];
extern AMX_NATIVE_INFO string_Natives[];
extern AMX_NATIVE_INFO vault_Natives[];
extern AMX_NATIVE_INFO core_Natives[];
extern AMX_NATIVE_INFO time_Natives[];
extern AMX_NATIVE_INFO power_Natives[];
extern AMX_NATIVE_INFO amxmodx_Natives[];
extern AMX_NATIVE_INFO file_Natives[];
extern AMX_NATIVE_INFO float_Natives[];
extern AMX_NATIVE_INFO string_Natives[];
extern AMX_NATIVE_INFO vault_Natives[];
#ifndef __linux__ #ifndef __linux__
#define DLLOAD(path) (DLHANDLE)LoadLibrary(path) #define DLLOAD(path) (DLHANDLE)LoadLibrary(path)
#define DLPROC(m, func) GetProcAddress(m, func) #define DLPROC(m,func) GetProcAddress(m,func)
#define DLFREE(m) FreeLibrary(m) #define DLFREE(m) FreeLibrary(m)
#else #else
#define DLLOAD(path) (DLHANDLE)dlopen(path, RTLD_NOW) #define DLLOAD(path) (DLHANDLE)dlopen(path, RTLD_NOW)
#define DLPROC(m, func) dlsym(m, func) #define DLPROC(m,func) dlsym(m,func)
#define DLFREE(m) dlclose(m) #define DLFREE(m) dlclose(m)
#endif #endif
#if defined __GNUC__
#include <stdint.h>
typedef intptr_t _INT_PTR;
#else
#if defined AMD64
typedef __int64 _INT_PTR;
#else
typedef __int32 _INT_PTR;
#endif
#endif
#ifndef __linux__ #ifndef __linux__
typedef HINSTANCE DLHANDLE; typedef HINSTANCE DLHANDLE;
#else #else
typedef void* DLHANDLE; typedef void* DLHANDLE;
#define INFINITE 0xFFFFFFFF
#endif #endif
#ifndef GETPLAYERAUTHID #ifndef GETPLAYERAUTHID
@ -119,35 +103,31 @@ extern AMX_NATIVE_INFO vault_Natives[];
char* UTIL_SplitHudMessage(register const char *src); char* UTIL_SplitHudMessage(register const char *src);
int UTIL_ReadFlags(const char* c); int UTIL_ReadFlags(const char* c);
void UTIL_ClientPrint( edict_t *pEntity, int msg_dest, char *msg );
void UTIL_ClientPrint(edict_t *pEntity, int msg_dest, char *msg);
void UTIL_FakeClientCommand(edict_t *pEdict, const char *cmd, const char *arg1 = NULL, const char *arg2 = NULL); void UTIL_FakeClientCommand(edict_t *pEdict, const char *cmd, const char *arg1 = NULL, const char *arg2 = NULL);
void UTIL_GetFlags(char* flags, int flag); void UTIL_GetFlags(char* flags,int flag);
void UTIL_HudMessage(edict_t *pEntity, const hudtextparms_t &textparms, char *pMessage); void UTIL_HudMessage(edict_t *pEntity, const hudtextparms_t &textparms, char *pMessage);
void UTIL_IntToString(int value, char *output); void UTIL_IntToString(int value, char *output);
void UTIL_ShowMOTD(edict_t *client, char *motd, int mlen, const char *name); void UTIL_ShowMOTD( edict_t *client , char *motd, int mlen, const char *name);
void UTIL_ShowMenu(edict_t* pEntity, int slots, int time, char *menu, int mlen); void UTIL_ShowMenu( edict_t* pEntity, int slots, int time, char *menu, int mlen );
char *UTIL_VarArgs(const char *fmt, ...);
#define GET_PLAYER_POINTER(e) (&g_players[ENTINDEX(e)]) #define GET_PLAYER_POINTER(e) (&g_players[ENTINDEX(e)])
//#define GET_PLAYER_POINTER(e) (&g_players[(((int)e-g_edict_point)/sizeof(edict_t))]) //#define GET_PLAYER_POINTER(e) (&g_players[(((int)e-g_edict_point)/sizeof(edict_t ))])
#define GET_PLAYER_POINTER_I(i) (&g_players[i]) #define GET_PLAYER_POINTER_I(i) (&g_players[i])
struct WeaponsVault struct WeaponsVault {
{ String fullName;
String fullName; short int iId;
short int iId; short int ammoSlot;
short int ammoSlot;
}; };
struct fakecmd_t struct fakecmd_t {
{ char args[256];
char args[256]; const char *argv[3];
const char *argv[3]; //char argv[3][128];
int argc; int argc;
bool fake; bool fake;
}; };
extern CLog g_log; extern CLog g_log;
@ -160,8 +140,7 @@ extern CList<CCVar> g_cvars;
extern CList<ForceObject> g_forcemodels; extern CList<ForceObject> g_forcemodels;
extern CList<ForceObject> g_forcesounds; extern CList<ForceObject> g_forcesounds;
extern CList<ForceObject> g_forcegeneric; extern CList<ForceObject> g_forcegeneric;
extern CList<CModule, const char *> g_modules; extern CList<CModule> g_modules;
extern CList<CScript, AMX*> g_loadedscripts;
extern CList<CPlayer*> g_auth; extern CList<CPlayer*> g_auth;
extern EventsMngr g_events; extern EventsMngr g_events;
extern Grenades g_grenades; extern Grenades g_grenades;
@ -172,12 +151,13 @@ extern String g_log_dir;
extern String g_mod_name; extern String g_mod_name;
extern TeamIds g_teamsIds; extern TeamIds g_teamsIds;
extern Vault g_vault; extern Vault g_vault;
extern CForwardMngr g_forwards; extern CForwardMngr g_forwards;
extern WeaponsVault g_weaponsData[MAX_WEAPONS]; extern WeaponsVault g_weaponsData[MAX_WEAPONS];
extern XVars g_xvars; extern XVars g_xvars;
extern bool g_bmod_cstrike; extern bool g_bmod_cstrike;
extern bool g_bmod_dod; extern bool g_bmod_dod;
extern bool g_dontprecache; extern bool g_dontprecache;
extern bool g_initialized;
extern int g_srvindex; extern int g_srvindex;
extern cvar_t* amxmodx_version; extern cvar_t* amxmodx_version;
extern cvar_t* hostname; extern cvar_t* hostname;
@ -187,7 +167,6 @@ extern float g_game_restarting;
extern float g_game_timeleft; extern float g_game_timeleft;
extern float g_task_time; extern float g_task_time;
extern float g_auth_time; extern float g_auth_time;
extern bool g_NewDLL_Available;
extern hudtextparms_t g_hudset; extern hudtextparms_t g_hudset;
//extern int g_edict_point; //extern int g_edict_point;
extern int g_players_num; extern int g_players_num;
@ -236,16 +215,14 @@ void Client_DeathMsg(void*);
void amx_command(); void amx_command();
void plugin_srvcmd(); void plugin_srvcmd();
const char* stristr(const char* a, const char* b); const char* stristr(const char* a,const char* b);
char *strptime(const char *buf, const char *fmt, struct tm *tm, short addthem); char *strptime(const char *buf, const char *fmt, struct tm *tm, short addthem);
int loadModules(const char* filename, PLUG_LOADTIME now); int loadModules(const char* filename);
void detachModules(); void detachModules();
void detachReloadModules(); void detachReloadModules();
void attachModules();
#ifdef FAKEMETA void attachMetaModModules(PLUG_LOADTIME now, const char* filename);
void attachModules();
#endif
// Count modules // Count modules
enum CountModulesMode enum CountModulesMode
@ -258,47 +235,39 @@ enum CountModulesMode
int countModules(CountModulesMode mode); int countModules(CountModulesMode mode);
void modules_callPluginsLoaded(); void modules_callPluginsLoaded();
cell* get_amxaddr(AMX *amx, cell amx_addr); int add_amxnatives(module_info_s* info,AMX_NATIVE_INFO*natives);
char* build_pathname(char *fmt, ...); cell* get_amxaddr(AMX *amx,cell amx_addr);
char* build_pathname_r(char *buffer, size_t maxlen, char *fmt, ...); char* build_pathname(char *fmt, ... );
char* format_amxstring(AMX *amx, cell *params, int parm, int& len); char* format_amxstring(AMX *amx, cell *params, int parm,int& len);
AMX* get_amxscript(int, void**, const char**); AMX* get_amxscript(int, void**,const char**);
const char* get_amxscriptname(AMX* amx); const char* get_amxscriptname(AMX* amx);
char* get_amxstring(AMX *amx, cell amx_addr, int id, int& len); char* get_amxstring(AMX *amx,cell amx_addr,int id,int& len);
extern "C" size_t get_amxstring_r(AMX *amx, cell amx_addr, char *destination, int maxlen);
int amxstring_len(cell* cstr); int amxstring_len(cell* cstr);
int load_amxscript(AMX* amx, void** program, const char* path, char error[64], int debug); int load_amxscript(AMX* amx, void** program, const char* path, char error[64]);
int set_amxnatives(AMX* amx, char error[64]); int set_amxnatives(AMX* amx,char error[64]);
int set_amxstring(AMX *amx, cell amx_addr, const char *source, int max); int set_amxstring(AMX *amx,cell amx_addr,const char *source,int max);
int unload_amxscript(AMX* amx, void** program); int unload_amxscript(AMX* amx,void** program);
void copy_amxmemory(cell* dest,cell* src,int len);
void copy_amxmemory(cell* dest, cell* src, int len);
void get_modname(char*); void get_modname(char*);
void print_srvconsole(char *fmt, ...); void print_srvconsole( char *fmt, ... );
void report_error(int code, char* fmt, ...); void report_error( int code, char* fmt, ... );
void* alloc_amxmemory(void**, int size); void* alloc_amxmemory(void**, int size);
void free_amxmemory(void **ptr); void free_amxmemory(void **ptr);
// get_localinfo // get_localinfo
const char* get_localinfo(const char* name, const char* def); const char* get_localinfo( const char* name , const char* def );
cell AMX_NATIVE_CALL require_module(AMX *amx, cell *params);
extern "C" void LogError(AMX *amx, int err, const char *fmt, ...);
enum ModuleCallReason enum ModuleCallReason
{ {
ModuleCall_NotCalled = 0, // nothing ModuleCall_NotCalled = 0, // nothing
ModuleCall_Query, // in Query func ModuleCall_Query, // in Query func
ModuleCall_Attach, // in Attach func ModuleCall_Attach, // in Attach func
ModuleCall_Detach, // in Detach func ModuleCall_Detach, // in Detach func
}; };
extern ModuleCallReason g_ModuleCallReason; // modules.cpp extern ModuleCallReason g_ModuleCallReason; // modules.cpp
extern CModule *g_CurrentlyCalledModule; // modules.cpp extern CModule *g_CurrentlyCalledModule; // modules.cpp
extern const char *g_LastRequestedFunc; // modules.cpp extern const char *g_LastRequestedFunc; // modules.cpp
void Module_CacheFunctions();
void Module_UncacheFunctions();
void *Module_ReqFnptr(const char *funcName); // modules.cpp void *Module_ReqFnptr(const char *funcName); // modules.cpp
// standard forwards // standard forwards
@ -315,17 +284,7 @@ extern int FF_PluginLog;
extern int FF_PluginEnd; extern int FF_PluginEnd;
extern int FF_InconsistentFile; extern int FF_InconsistentFile;
extern int FF_ClientAuthorized; extern int FF_ClientAuthorized;
extern int FF_ChangeLevel;
extern bool g_coloredmenus;
typedef void (*AUTHORIZEFUNC)(int player, const char *authstring);
#define MM_CVAR2_VERS 13
struct func_s
{
void *pfn;
const char *desc;
};
extern CFakeMeta g_FakeMeta;
#endif // AMXMODX_H #endif // AMXMODX_H

2
amxmodx/amxtime.cpp
View File

@ -18,8 +18,6 @@
# endif # endif
#endif #endif
#include <stdlib.h>
// this file does not include amxmodx.h, so we have to include the memory manager here // this file does not include amxmodx.h, so we have to include the memory manager here
#ifdef MEMORY_TEST #ifdef MEMORY_TEST
#include "mmgr/mmgr.h" #include "mmgr/mmgr.h"

269
amxmodx/amxxfile.cpp
View File

@ -3,6 +3,7 @@
* by the AMX Mod X Development Team * by the AMX Mod X Development Team
* originally developed by OLO * originally developed by OLO
* *
*
* This program is free software; you can redistribute it and/or modify it * 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 * under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at * Free Software Foundation; either version 2 of the License, or (at
@ -30,27 +31,30 @@
#include "amxmodx.h" #include "amxmodx.h"
#include "amxxfile.h" #include "amxxfile.h"
#include "zlib/zlib.h" #include "minilzo/minilzo.h"
/********************** /**********************
****** AMXXFILE ****** ****** AMXXFILE ******
**********************/ **********************/
#if defined __GNUC__ #if defined __GNUC__
#define PACKED __attribute__((packed)) #define PACKED __attribute__((packed))
#else #else
#define PACKED #define PACKED
#endif #endif
#if defined __linux__ #if defined __linux__
#pragma pack(1) /* structures must be packed (byte-aligned) */ #pragma pack(1) /* structures must be packed (byte-aligned) */
#else #else
#pragma pack(1) /* structures must be packed (byte-aligned) */ #pragma pack(1) /* structures must be packed (byte-aligned) */
#if defined __TURBOC__ #if defined __TURBOC__
#pragma option -a- /* "pack" pragma for older Borland compilers */ #pragma option -a- /* "pack" pragma for older Borland compilers */
#endif #endif
#endif #endif
typedef lzo_byte mint8_t;
typedef int16_t mint16_t;
typedef int32_t mint32_t;
struct TableEntry struct TableEntry
{ {
mint8_t cellSize PACKED; mint8_t cellSize PACKED;
@ -72,9 +76,6 @@ struct TableEntry
CAmxxReader::CAmxxReader(const char *filename, int cellsize) CAmxxReader::CAmxxReader(const char *filename, int cellsize)
{ {
m_Bh.plugins = NULL;
m_AmxxFile = false;
if (!filename) if (!filename)
{ {
m_Status = Err_InvalidParam; m_Status = Err_InvalidParam;
@ -83,8 +84,15 @@ CAmxxReader::CAmxxReader(const char *filename, int cellsize)
m_Status = Err_None; m_Status = Err_None;
m_CellSize = cellsize; m_CellSize = cellsize;
m_pFile = fopen(filename, "rb");
// Make sure the decompressor runs
if (lzo_init() != LZO_E_OK)
{
m_Status = Err_DecompressorInit;
return;
}
m_pFile = fopen(filename, "rb");
if (!m_pFile) if (!m_pFile)
{ {
m_Status = Err_FileOpen; m_Status = Err_FileOpen;
@ -95,116 +103,13 @@ CAmxxReader::CAmxxReader(const char *filename, int cellsize)
DATAREAD(&magic, sizeof(magic), 1); DATAREAD(&magic, sizeof(magic), 1);
m_OldFile = false; m_OldFile = false;
if (magic != 0x524C4542)
if (magic == 0x524C4542)
{ {
//we have an invalid, old, RLEB file
m_Status = Err_OldFile;
fclose(m_pFile);
m_pFile = NULL;
return;
}
else if (magic == MAGIC_HEADER2)
{
DATAREAD(&m_Bh.version, sizeof(int16_t), 1);
if (m_Bh.version != MAGIC_VERSION)
{
m_Status = Err_OldFile;
fclose(m_pFile);
m_pFile = NULL;
return;
}
m_AmxxFile = true;
DATAREAD(&m_Bh.numPlugins, sizeof(mint8_t), 1);
m_Bh.plugins = new PluginEntry[m_Bh.numPlugins];
PluginEntry *pe;
m_SectionHdrOffset = 0;
m_Entry = -1;
for (mint8_t i = 0; i < m_Bh.numPlugins; i++)
{
pe = &(m_Bh.plugins[i]);
DATAREAD(&pe->cellsize, sizeof(mint8_t), 1);
DATAREAD(&pe->disksize, sizeof(int32_t), 1);
DATAREAD(&pe->imagesize, sizeof(int32_t), 1);
DATAREAD(&pe->memsize, sizeof(int32_t), 1);
DATAREAD(&pe->offs, sizeof(int32_t), 1);
}
for (mint8_t i = 0; i < m_Bh.numPlugins; i++)
{
pe = &(m_Bh.plugins[i]);
if (pe->cellsize == m_CellSize)
{
m_Entry = i;
break;
}
}
if (m_Entry == -1)
{
m_Status = Err_SectionNotFound;
fclose(m_pFile);
m_pFile = NULL;
return;
}
pe = &(m_Bh.plugins[m_Entry]);
m_SectionLength = pe->disksize;
}
else if (magic == MAGIC_HEADER)
{
// try to find the section
mint8_t numOfPlugins;
DATAREAD(&numOfPlugins, sizeof(numOfPlugins), 1);
TableEntry entry;
m_SectionHdrOffset = 0;
int i = 0;
for (i = 0; i < static_cast<int>(numOfPlugins); ++i)
{
DATAREAD(&entry, sizeof(entry), 1);
if (entry.cellSize == m_CellSize)
{
m_SectionHdrOffset = ftell(m_pFile) - sizeof(entry);
break;
}
}
if (!m_SectionHdrOffset)
{
m_Status = Err_SectionNotFound;
fclose(m_pFile);
m_pFile = NULL;
return;
}
// compute section length
if ((i + 1) < static_cast<int>(numOfPlugins))
{
// there is a next section
TableEntry nextEntry;
DATAREAD(&nextEntry, sizeof(nextEntry), 1);
m_SectionLength = nextEntry.offset - entry.offset;
} else {
fseek(m_pFile, 0, SEEK_END);
m_SectionLength = ftell(m_pFile) - (long)entry.offset;
}
} else {
// check for old file // check for old file
AMX_HEADER hdr; AMX_HEADER hdr;
rewind(m_pFile); rewind(m_pFile);
fread(&hdr, sizeof(hdr), 1, m_pFile); fread(&hdr, sizeof(hdr), 1, m_pFile);
amx_Align16(&hdr.magic); amx_Align16(&hdr.magic);
if (hdr.magic == AMX_MAGIC) if (hdr.magic == AMX_MAGIC)
{ {
if (cellsize != 4) if (cellsize != 4)
@ -212,22 +117,60 @@ CAmxxReader::CAmxxReader(const char *filename, int cellsize)
m_Status = Err_SectionNotFound; m_Status = Err_SectionNotFound;
fclose(m_pFile); fclose(m_pFile);
m_pFile = NULL; m_pFile = NULL;
return; return;
} }
m_OldFile = true; m_OldFile = true;
return; return;
} else { }
else
{
// no known file format // no known file format
m_Status = Err_FileInvalid; m_Status = Err_FileInvalid;
fclose(m_pFile); fclose(m_pFile);
m_pFile = NULL; m_pFile = NULL;
return; return;
} }
} }
// try to find the section
mint8_t numOfPlugins;
DATAREAD(&numOfPlugins, sizeof(numOfPlugins), 1);
TableEntry entry;
m_SectionHdrOffset = 0;
int i = 0;
for (i = 0; i < static_cast<int>(numOfPlugins); ++i)
{
DATAREAD(&entry, sizeof(entry), 1);
if (entry.cellSize == m_CellSize)
{
m_SectionHdrOffset = ftell(m_pFile) - sizeof(entry);
break;
}
}
if (!m_SectionHdrOffset)
{
m_Status = Err_SectionNotFound;
fclose(m_pFile);
m_pFile = NULL;
return;
}
// compute section length
if ((i+1) < static_cast<int>(numOfPlugins))
{
// there is a next section
TableEntry nextEntry;
DATAREAD(&nextEntry, sizeof(nextEntry), 1);
m_SectionLength = nextEntry.offset - entry.offset;
}
else
{
fseek(m_pFile, 0, SEEK_END);
m_SectionLength = ftell(m_pFile) - (long)entry.offset;
}
} }
CAmxxReader::~CAmxxReader() CAmxxReader::~CAmxxReader()
@ -237,12 +180,6 @@ CAmxxReader::~CAmxxReader()
fclose(m_pFile); fclose(m_pFile);
m_pFile = NULL; m_pFile = NULL;
} }
if (m_Bh.plugins)
{
delete [] m_Bh.plugins;
m_Bh.plugins = NULL;
}
} }
CAmxxReader::Error CAmxxReader::GetStatus() CAmxxReader::Error CAmxxReader::GetStatus()
@ -268,33 +205,18 @@ size_t CAmxxReader::GetBufferSize()
if (!m_pFile) if (!m_pFile)
return 0; return 0;
long save = ftell(m_pFile);
if (m_OldFile) if (m_OldFile)
{ {
rewind(m_pFile); rewind(m_pFile);
AMX_HEADER hdr; AMX_HEADER hdr;
DATAREAD(&hdr, sizeof(hdr), 1); DATAREAD(&hdr, sizeof(hdr), 1);
fseek(m_pFile, save, SEEK_SET);
return hdr.stp; return hdr.stp;
} }
else if (m_AmxxFile)
{
PluginEntry *pe = &(m_Bh.plugins[m_Entry]);
if (pe->imagesize > pe->memsize)
return pe->imagesize + 1;
return pe->memsize + 1;
}
fseek(m_pFile, m_SectionHdrOffset, SEEK_SET); fseek(m_pFile, m_SectionHdrOffset, SEEK_SET);
TableEntry entry; TableEntry entry;
DATAREAD(&entry, sizeof(entry), 1); DATAREAD(&entry, sizeof(entry), 1);
fseek(m_pFile, save, SEEK_SET);
return entry.origSize + 1; // +1 : safe return entry.origSize + 1; // +1 : safe
} }
@ -324,51 +246,28 @@ CAmxxReader::Error CAmxxReader::GetSection(void *buffer)
rewind(m_pFile); rewind(m_pFile);
DATAREAD(buffer, 1, filesize); DATAREAD(buffer, 1, filesize);
m_Status = Err_None; m_Status = Err_None;
return m_Status; return m_Status;
} }
else if (m_AmxxFile)
// new file type: go to the section table entry
fseek(m_pFile, m_SectionHdrOffset, SEEK_SET);
// go to the offset
TableEntry entry;
DATAREAD(&entry, sizeof(entry), 1);
fseek(m_pFile, entry.offset, SEEK_SET);
// read the data to a temporary buffer
lzo_byte *tempBuffer = new lzo_byte[m_SectionLength + 1];
DATAREAD((void*)tempBuffer, 1, m_SectionLength);
// decompress
lzo_uint destLen = GetBufferSize();
int result = lzo1x_decompress_safe(tempBuffer, m_SectionLength,
(lzo_byte*)buffer, &destLen,
NULL /*unused*/ );
if (result != LZO_E_OK)
{ {
PluginEntry *pe = &(m_Bh.plugins[m_Entry]); m_Status = Err_Decompress;
char *tempBuffer = new char[m_SectionLength + 1]; return Err_Decompress;
fseek(m_pFile, pe->offs, SEEK_SET);
DATAREAD((void *)tempBuffer, 1, m_SectionLength);
uLongf destLen = GetBufferSize();
int result = uncompress((Bytef *)buffer, &destLen, (Bytef *)tempBuffer, m_SectionLength);
delete [] tempBuffer;
if (result != Z_OK)
{
AMXXLOG_Log("[AMXX] Zlib error encountered: %d(%d)", result, m_SectionLength);
m_Status = Err_Decompress;
return Err_Decompress;
}
return Err_None;
} else {
// new file type: go to the section table entry
fseek(m_pFile, m_SectionHdrOffset, SEEK_SET);
// go to the offset
TableEntry entry;
DATAREAD(&entry, sizeof(entry), 1);
fseek(m_pFile, entry.offset, SEEK_SET);
uLongf destLen = GetBufferSize();
// read the data to a temporary buffer
char *tempBuffer = new char[m_SectionLength + 1];
//fread(tempBuffer, sizeof(char), m_SectionLength, m_pFile);
DATAREAD((void*)tempBuffer, 1, m_SectionLength);
// decompress
int result = uncompress((Bytef *)buffer, &destLen, (Bytef *)tempBuffer, m_SectionLength);
delete [] tempBuffer;
if (result != Z_OK)
{
AMXXLOG_Log("[AMXX] Zlib error encountered: %d(%d)", result, m_SectionLength);
m_Status = Err_Decompress;
return Err_Decompress;
}
return Err_None;
} }
return Err_None;
} }

33
amxmodx/amxxfile.h
View File

@ -32,31 +32,6 @@
#ifndef __AMXXFILE_H__ #ifndef __AMXXFILE_H__
#define __AMXXFILE_H__ #define __AMXXFILE_H__
#define MAGIC_HEADER 0x414D5842
#define MAGIC_HEADER2 0x414D5858
#define MAGIC_VERSION 0x0300
typedef char mint8_t;
typedef int16_t mint16_t;
typedef int32_t mint32_t;
struct PluginEntry
{
mint8_t cellsize; //cell size
int32_t imagesize; //uncompressed image size
int32_t disksize; //compressed image size
int32_t memsize; //memory image size
int32_t offs; //file offset
};
struct BinHeader
{
int32_t magic;
mint16_t version;
mint8_t numPlugins;
PluginEntry *plugins;
};
class CAmxxReader class CAmxxReader
{ {
public: public:
@ -69,8 +44,7 @@ public:
Err_FileInvalid, Err_FileInvalid,
Err_SectionNotFound, Err_SectionNotFound,
Err_DecompressorInit, Err_DecompressorInit,
Err_Decompress, Err_Decompress
Err_OldFile,
}; };
private: private:
@ -78,9 +52,6 @@ private:
FILE *m_pFile; FILE *m_pFile;
bool m_OldFile; // old .amx file bool m_OldFile; // old .amx file
bool m_AmxxFile; // new 'AMXX' header format
BinHeader m_Bh; // binary header
int m_Entry; // entry #
int m_CellSize; int m_CellSize;
int m_SectionHdrOffset; // offset to the table in the header that describes the required section int m_SectionHdrOffset; // offset to the table in the header that describes the required section
@ -94,4 +65,6 @@ public:
Error GetSection(void *buffer); // Copy the currently selected section to the buffer Error GetSection(void *buffer); // Copy the currently selected section to the buffer
}; };
#endif // __AMXXFILE_H__ #endif // __AMXXFILE_H__

66
amxmodx/amxxlog.cpp
View File

@ -36,14 +36,10 @@
#include <time.h> #include <time.h>
#ifndef __linux__ #ifndef __linux__
#include <io.h> #include <io.h>
#endif #endif
#include "amxmodx.h" #include "amxmodx.h"
#ifndef __linux__
#define vsnprintf _vsnprintf
#endif
CLog::CLog() CLog::CLog()
{ {
m_LogType = 0; m_LogType = 0;
@ -61,11 +57,10 @@ void CLog::CloseFile()
if (!m_LogFile.empty()) if (!m_LogFile.empty())
{ {
FILE *fp = fopen(m_LogFile.c_str(), "r"); FILE *fp = fopen(m_LogFile.c_str(), "r");
if (fp) if (fp)
{ {
fclose(fp); fclose(fp);
fp = fopen(m_LogFile.c_str(), "a+"); fopen(m_LogFile.c_str(), "a+");
// get time // get time
time_t td; time_t td;
@ -78,7 +73,6 @@ void CLog::CloseFile()
fprintf(fp, "L %s: %s\n", date, "Log file closed."); fprintf(fp, "L %s: %s\n", date, "Log file closed.");
fclose(fp); fclose(fp);
} }
m_LogFile.clear(); m_LogFile.clear();
} }
} }
@ -86,56 +80,47 @@ void CLog::CloseFile()
void CLog::CreateNewFile() void CLog::CreateNewFile()
{ {
CloseFile(); CloseFile();
// build filename // build filename
time_t td; time_t td;
time(&td); time(&td);
tm *curTime = localtime(&td); tm *curTime = localtime(&td);
int i = 0; int i = 0;
while (true) while (true)
{ {
FILE *pTmpFile = fopen(m_LogFile.c_str(), "r"); // open for reading to check whether the file exists m_LogFile.assign(build_pathname("%s/L%02d%02d%03d.log", g_log_dir.c_str(), curTime->tm_mon + 1, curTime->tm_mday, i));
FILE *pTmpFile = fopen(m_LogFile.c_str(), "r"); // open for reading to check whether the file exists
if (!pTmpFile) if (!pTmpFile)
break; break;
fclose(pTmpFile); fclose(pTmpFile);
++i; ++i;
} }
// Log logfile start // Log logfile start
FILE *fp = fopen(m_LogFile.c_str(), "w"); FILE *fp = fopen(m_LogFile.c_str(), "w");
if (!fp) if (!fp)
{ {
ALERT(at_logged, "[AMXX] Unexpected fatal logging error. AMXX Logging disabled.\n"); ALERT(at_logged, "[AMXX] Unexpected fatal logging error. AMXX Logging disabled.\n");
SET_LOCALINFO("amxx_logging", "0"); SET_LOCALINFO("amxx_logging", "0");
} else {
fprintf(fp, "AMX Mod X log file started (file \"%s/L%02d%02d%03d.log\") (version \"%s\")\n", g_log_dir.c_str(), curTime->tm_mon + 1, curTime->tm_mday, i, AMX_VERSION);
fclose(fp);
} }
fprintf(fp, "AMX Mod X log file started (file \"%s/L%02d%02d%03d.log\") (version \"%s\")\n", g_log_dir.c_str(), curTime->tm_mon + 1, curTime->tm_mday, i, AMX_VERSION);
fclose(fp);
} }
void CLog::UseFile(const String &fileName) void CLog::UseFile(const String &fileName)
{ {
static char file[256]; m_LogFile.assign(build_pathname("%s/%s", g_log_dir.c_str(), fileName.c_str()));
m_LogFile.assign(build_pathname_r(file, sizeof(file)-1, "%s/%s", g_log_dir.c_str(), fileName.c_str()));
} }
void CLog::MapChange() void CLog::MapChange()
{ {
// create dir if not existing // create dir if not existing
char file[256];
#ifdef __linux #ifdef __linux
mkdir(build_pathname_r(file, sizeof(file)-1, "%s", g_log_dir.c_str()), 0700); mkdir(build_pathname("%s", g_log_dir.c_str()), 0700);
#else #else
mkdir(build_pathname_r(file, sizeof(file)-1, "%s", g_log_dir.c_str())); mkdir(build_pathname("%s", g_log_dir.c_str()));
#endif #endif
m_LogType = atoi(get_localinfo("amxx_logging", "1")); m_LogType = atoi(get_localinfo("amxx_logging", "1"));
if (m_LogType < 0 || m_LogType > 3) if (m_LogType < 0 || m_LogType > 3)
{ {
SET_LOCALINFO("amxx_logging", "1"); SET_LOCALINFO("amxx_logging", "1");
@ -150,7 +135,7 @@ void CLog::MapChange()
} }
else if (m_LogType == 1) else if (m_LogType == 1)
{ {
Log("-------- Mapchange to %s --------", STRING(gpGlobals->mapname)); Log("-------- Mapchange --------");
} }
else else
return; return;
@ -158,8 +143,6 @@ void CLog::MapChange()
void CLog::Log(const char *fmt, ...) void CLog::Log(const char *fmt, ...)
{ {
static char file[256];
if (m_LogType == 1 || m_LogType == 2) if (m_LogType == 1 || m_LogType == 2)
{ {
// get time // get time
@ -171,14 +154,14 @@ void CLog::Log(const char *fmt, ...)
strftime(date, 31, "%m/%d/%Y - %H:%M:%S", curTime); strftime(date, 31, "%m/%d/%Y - %H:%M:%S", curTime);
// msg // msg
static char msg[3072]; char msg[3072];
va_list arglst; va_list arglst;
va_start(arglst, fmt); va_start(arglst, fmt);
vsnprintf(msg, 3071, fmt, arglst); vsprintf(msg, fmt, arglst);
va_end(arglst); va_end(arglst);
FILE *pF = NULL; FILE *pF;
if (m_LogType == 2) if (m_LogType == 2)
{ {
pF = fopen(m_LogFile.c_str(), "a+"); pF = fopen(m_LogFile.c_str(), "a+");
@ -186,7 +169,6 @@ void CLog::Log(const char *fmt, ...)
{ {
CreateNewFile(); CreateNewFile();
pF = fopen(m_LogFile.c_str(), "a+"); pF = fopen(m_LogFile.c_str(), "a+");
if (!pF) if (!pF)
{ {
ALERT(at_logged, "[AMXX] Unexpected fatal logging error (couldn't open %s for a+). AMXX Logging disabled for this map.\n", m_LogFile.c_str()); ALERT(at_logged, "[AMXX] Unexpected fatal logging error (couldn't open %s for a+). AMXX Logging disabled for this map.\n", m_LogFile.c_str());
@ -194,32 +176,26 @@ void CLog::Log(const char *fmt, ...)
return; return;
} }
} }
} else {
build_pathname_r(file, sizeof(file)-1, "%s/L%02d%02d.log", g_log_dir.c_str(), curTime->tm_mon + 1, curTime->tm_mday);
pF = fopen(file, "a+");
} }
else
if (pF)
{ {
fprintf(pF, "L %s: %s\n", date, msg); pF = fopen(build_pathname("%s/L%02d%02d.log", g_log_dir.c_str(), curTime->tm_mon + 1, curTime->tm_mday), "a+");
fclose(pF);
} else {
ALERT(at_logged, "[AMXX] Unexpected fatal logging error (couldn't open %s for a+). AMXX Logging disabled for this map.\n", file);
m_LogType = 0;
return;
} }
fprintf(pF, "L %s: %s\n", date, msg);
fclose(pF);
// print on server console // print on server console
print_srvconsole("L %s: %s\n", date, msg); print_srvconsole("L %s: %s\n", date, msg);
} }
else if (m_LogType == 3) else if (m_LogType == 3)
{ {
// build message // build message
static char msg_[3072]; // :TODO: Overflow possible here
char msg[3072];
va_list arglst; va_list arglst;
va_start(arglst, fmt); va_start(arglst, fmt);
vsnprintf(msg_, 3071, fmt, arglst); vsprintf(msg, fmt, arglst);
va_end(arglst); va_end(arglst);
ALERT(at_logged, "%s\n", msg_); ALERT(at_logged, "%s\n", msg);
} }
} }

2
amxmodx/amxxlog.h
View File

@ -42,7 +42,6 @@ private:
public: public:
CLog(); CLog();
~CLog(); ~CLog();
void CreateNewFile(); void CreateNewFile();
void CloseFile(); void CloseFile();
void MapChange(); void MapChange();
@ -50,3 +49,4 @@ public:
}; };
#endif // __AMXXLOG_H__ #endif // __AMXXLOG_H__

993
amxmodx/debugger.cpp
View File

@ -1,993 +0,0 @@
/* 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 "debugger.h"
#if !defined WIN32 && !defined _WIN32
#define _snprintf snprintf
#endif
/**
* AMX Mod X Debugging Engine
* Written by David "BAILOPAN" Anderson
*/
enum AmxOpcodes
{
OP_NONE, /* invalid opcode */
OP_LOAD_PRI,
OP_LOAD_ALT,
OP_LOAD_S_PRI,
OP_LOAD_S_ALT,
OP_LREF_PRI,
OP_LREF_ALT,
OP_LREF_S_PRI,
OP_LREF_S_ALT,
OP_LOAD_I,
OP_LODB_I,
OP_CONST_PRI,
OP_CONST_ALT,
OP_ADDR_PRI,
OP_ADDR_ALT,
OP_STOR_PRI,
OP_STOR_ALT,
OP_STOR_S_PRI,
OP_STOR_S_ALT,
OP_SREF_PRI,
OP_SREF_ALT,
OP_SREF_S_PRI,
OP_SREF_S_ALT,
OP_STOR_I,
OP_STRB_I,
OP_LIDX,
OP_LIDX_B,
OP_IDXADDR,
OP_IDXADDR_B,
OP_ALIGN_PRI,
OP_ALIGN_ALT,
OP_LCTRL,
OP_SCTRL,
OP_MOVE_PRI,
OP_MOVE_ALT,
OP_XCHG,
OP_PUSH_PRI,
OP_PUSH_ALT,
OP_PUSH_R,
OP_PUSH_C,
OP_PUSH,
OP_PUSH_S,
OP_POP_PRI,
OP_POP_ALT,
OP_STACK,
OP_HEAP,
OP_PROC,
OP_RET,
OP_RETN,
OP_CALL,
OP_CALL_PRI,
OP_JUMP,
OP_JREL,
OP_JZER,
OP_JNZ,
OP_JEQ,
OP_JNEQ,
OP_JLESS,
OP_JLEQ,
OP_JGRTR,
OP_JGEQ,
OP_JSLESS,
OP_JSLEQ,
OP_JSGRTR,
OP_JSGEQ,
OP_SHL,
OP_SHR,
OP_SSHR,
OP_SHL_C_PRI,
OP_SHL_C_ALT,
OP_SHR_C_PRI,
OP_SHR_C_ALT,
OP_SMUL,
OP_SDIV,
OP_SDIV_ALT,
OP_UMUL,
OP_UDIV,
OP_UDIV_ALT,
OP_ADD,
OP_SUB,
OP_SUB_ALT,
OP_AND,
OP_OR,
OP_XOR,
OP_NOT,
OP_NEG,
OP_INVERT,
OP_ADD_C,
OP_SMUL_C,
OP_ZERO_PRI,
OP_ZERO_ALT,
OP_ZERO,
OP_ZERO_S,
OP_SIGN_PRI,
OP_SIGN_ALT,
OP_EQ,
OP_NEQ,
OP_LESS,
OP_LEQ,
OP_GRTR,
OP_GEQ,
OP_SLESS,
OP_SLEQ,
OP_SGRTR,
OP_SGEQ,
OP_EQ_C_PRI,
OP_EQ_C_ALT,
OP_INC_PRI,
OP_INC_ALT,
OP_INC,
OP_INC_S,
OP_INC_I,
OP_DEC_PRI,
OP_DEC_ALT,
OP_DEC,
OP_DEC_S,
OP_DEC_I,
OP_MOVS,
OP_CMPS,
OP_FILL,
OP_HALT,
OP_BOUNDS,
OP_SYSREQ_PRI,
OP_SYSREQ_C,
OP_FILE, /* obsolete */
OP_LINE, /* obsolete */
OP_SYMBOL, /* obsolete */
OP_SRANGE, /* obsolete */
OP_JUMP_PRI,
OP_SWITCH,
OP_CASETBL,
OP_SWAP_PRI,
OP_SWAP_ALT,
OP_PUSHADDR,
OP_NOP,
OP_SYSREQ_D,
OP_SYMTAG, /* obsolete */
OP_BREAK,
/* ----- */
OP_NUM_OPCODES
} OPCODE;
const char *GenericError(int err);
Debugger::Tracer::~Tracer()
{
Clear();
}
void Debugger::Tracer::StepI(cell frm, cell cip)
{
if (m_pEnd == NULL)
{
assert(m_Reset);
if (m_pStart == NULL)
m_pStart = new trace_info();
m_pEnd = m_pStart;
m_Reset = true;
m_pEnd->cip = cip;
m_pEnd->frm = frm;
m_pEnd->used = true;
} else {
if (m_pEnd->frm > frm)
{
//the last frame has moved down the stack.
//push a new call onto our list
if (m_pEnd->next)
{
m_pEnd = m_pEnd->next;
m_pEnd->used = true;
} else {
trace_info *pInfo = new trace_info();
m_pEnd->next = pInfo;
pInfo->prev = m_pEnd;
pInfo->used = true;
m_pEnd = pInfo;
}
//if we're pushing a new call, save the initial frame
m_pEnd->frm = frm;
} else if (m_pEnd->frm < frm) {
//the last frame has moved up the stack.
//pop a call from our list
m_pEnd->used = false;
m_pEnd = m_pEnd->prev;
}
//no matter where we are, save the current cip
m_pEnd->cip = cip;
}
}
void Debugger::Tracer::Clear()
{
trace_info *pInfo, *pNext;
pInfo = m_pStart;
while (pInfo)
{
pNext = pInfo->next;
delete pInfo;
pInfo = pNext;
}
m_pStart = NULL;
m_pEnd = NULL;
m_Error = AMX_ERR_NONE;
m_Reset = true;
}
void Debugger::Tracer::Reset()
{
trace_info *pInfo = m_pStart;
while (pInfo && pInfo->used)
{
pInfo->used = false;
pInfo = pInfo->next;
}
m_pEnd = NULL;
m_Error = AMX_ERR_NONE;
m_Reset = true;
}
trace_info_t *Debugger::Tracer::GetStart() const
{
return m_pStart;
}
trace_info_t *Debugger::Tracer::GetEnd() const
{
return m_pEnd;
}
void Debugger::BeginExec()
{
m_Top++;
assert(m_Top >= 0);
if (m_Top >= (int)m_pCalls.size())
{
Tracer *pTracer = new Tracer();
m_pCalls.push_back(pTracer);
assert(m_Top == (m_pCalls.size() - 1));
}
m_pCalls[m_Top]->Reset();
}
void Debugger::EndExec()
{
assert(m_Top >= 0 && m_Top < (int)m_pCalls.size());
m_pCalls[m_Top]->Reset();
m_Top--;
}
void Debugger::StepI()
{
assert(m_Top >= 0 && m_Top < (int)m_pCalls.size());
m_pCalls[m_Top]->StepI(m_pAmx->frm, m_pAmx->cip);
}
void Debugger::Reset()
{
//no call state
m_Top = -1;
}
int Debugger::GetTracedError()
{
assert(m_Top >= 0 && m_Top < (int)m_pCalls.size());
return m_pCalls[m_Top]->m_Error;
}
void Debugger::SetTracedError(int error)
{
assert(m_Top >= 0 && m_Top < (int)m_pCalls.size());
m_pCalls[m_Top]->m_Error = error;
}
trace_info_t *Debugger::GetTraceStart() const
{
assert(m_Top >= 0 && m_Top < (int)m_pCalls.size());
return m_pCalls[m_Top]->GetEnd();
}
bool Debugger::GetTraceInfo(trace_info_t *pTraceInfo, long &line, const char *&function, const char *&file)
{
cell addr = pTraceInfo->cip;
dbg_LookupFunction(m_pAmxDbg, addr, &function);
dbg_LookupLine(m_pAmxDbg, addr, &line);
dbg_LookupFile(m_pAmxDbg, addr, &file);
return true;
}
trace_info_t *Debugger::GetNextTrace(trace_info_t *pTraceInfo)
{
if (!pTraceInfo->prev || !pTraceInfo->prev->used)
return NULL;
return pTraceInfo->prev;
}
bool Debugger::ErrorExists()
{
assert(m_Top >= 0 && m_Top < (int)m_pCalls.size());
return (m_pCalls[m_Top]->m_Error != AMX_ERR_NONE);
}
int Debugger::FormatError(char *buffer, size_t maxLength)
{
if (!ErrorExists())
return -1;
assert(m_Top >= 0 && m_Top < (int)m_pCalls.size());
Tracer *pTracer = m_pCalls[m_Top];
int error = pTracer->m_Error;
const char *gen_err = GenericError(error);
int size = 0;
trace_info_t *pTrace = pTracer->GetEnd();
cell cip = _CipAsVa(m_pAmx->cip);
cell *p_cip = NULL;
int amx_err = AMX_ERR_NONE;
size += _snprintf(buffer, maxLength, "Run time error %d: %s ", error, gen_err);
buffer += size;
maxLength -= size;
if (error == AMX_ERR_NATIVE || error == AMX_ERR_INVNATIVE)
{
char native_name[sNAMEMAX+1];
int num = 0;
/*//go two instructions back
cip -= (sizeof(cell) * 2);
int instr = _GetOpcodeFromCip(cip, p_cip);
if (instr == OP_SYSREQ_C)
{
num = (int)*p_cip;
}*/
//New code only requires this...
num = (int)(_INT_PTR)m_pAmx->usertags[UT_NATIVE];
amx_err = amx_GetNative(m_pAmx, num, native_name);
/*if (num)
amx_err = amx_GetNative(m_pAmx, (int)*p_cip, native_name);
else
amx_err = AMX_ERR_NOTFOUND;*/
//if (!amx_err)
size += _snprintf(buffer, maxLength, "(native \"%s\")", native_name);
}
return size;
}
cell Debugger::_CipAsVa(cell cip)
{
AMX_HEADER *hdr = (AMX_HEADER*)(m_pAmx->base);
unsigned char *code = m_pAmx->base + (int)hdr->cod;
if (cip >= (cell)code && cip < (cell)(m_pAmx->base + (int)hdr->dat))
{
return (cell)(cip-(cell)code);
} else {
return (cell)(code + cip);
}
}
int Debugger::_GetOpcodeFromCip(cell cip, cell *&addr)
{
AMX_HEADER *hdr = (AMX_HEADER*)(m_pAmx->base);
unsigned char *code = m_pAmx->base + (int)hdr->cod;
cell *p_cip = NULL;
//test if cip is between these
if (cip >= (cell)code && cip < (cell)(m_pAmx->base + (int)hdr->dat))
{
p_cip = (cell *)(cip);
} else {
p_cip = (cell *)(code + cip);
}
//move forward one entry
addr = p_cip + 1;
//p_cip should be aligned to an instruction!
cell instr = *p_cip;
if (instr < 1 || instr >= OP_NUM_OPCODES)
{
if (!m_pOpcodeList)
return 0;
//we have an invalid opcode, so try searching for it
for (cell i=1; i<OP_NUM_OPCODES; i++)
{
if ((cell)m_pOpcodeList[i] == instr)
{
instr = i;
break;
}
}
if (instr < 1 || instr >= OP_NUM_OPCODES)
instr = 0; //nothing found
}
return (int)instr;
}
void Debugger::_CacheAmxOpcodeList()
{
m_pOpcodeList = (cell *)m_pAmx->userdata[UD_OPCODELIST];
}
//by BAILOPAN
// generic error printing routine
// for pawn 3.0 this is just a wrapper
const char *GenericError(int err)
{
static const char *amx_errs[] =
{
NULL,
"forced exit",
"assertion failed",
"stack error",
"index out of bounds",
"memory access",
"invalid instruction",
"stack low",
"heap low",
"callback",
"native error",
"divide",
"sleep",
"invalid access state",
"native not found",
NULL,
"out of memory", //16
"bad file format",
"bad file version",
"function not found",
"invalid entry point",
"debugger cannot run",
"plugin un or re-initialized",
"userdata table full",
"JIT failed to initialize",
"parameter error",
"domain error",
};
//does this plugin have line ops?
const char *geterr = NULL;
if (err <= 26 && err > 0)
geterr = amx_errs[err];
return geterr ? geterr : "unknown error";
}
int AMXAPI Debugger::DebugHook(AMX *amx)
{
Debugger *pDebugger = NULL;
if (!amx || !(amx->flags & AMX_FLAG_DEBUG))
return AMX_ERR_NONE;
if (amx->flags & AMX_FLAG_PRENIT)
return AMX_ERR_NONE;
pDebugger = (Debugger *)amx->userdata[UD_DEBUGGER];
if (!pDebugger)
return AMX_ERR_NONE;
pDebugger->StepI();
return AMX_ERR_NONE;
}
void Debugger::Clear()
{
for (size_t i=0; i<m_pCalls.size(); i++)
delete m_pCalls[i];
m_pCalls.clear();
}
void Debugger::DisplayTrace(const char *message)
{
if (message != NULL)
AMXXLOG_Log("%s", message);
char buffer[512];
FormatError(buffer, sizeof(buffer)-1);
const char *filename = _GetFilename();
AMXXLOG_Log("[AMXX] Displaying debug trace (plugin \"%s\")", filename);
AMXXLOG_Log("[AMXX] %s", buffer);
int count = 0;
long lLine;
const char *file, *function;
trace_info_t *pTrace = GetTraceStart();
while (pTrace)
{
GetTraceInfo(pTrace, lLine, function, file);
AMXXLOG_Log(
"[AMXX] [%d] %s::%s (line %d)",
count,
file,
function,
(int)(lLine + 1)
);
count++;
pTrace = GetNextTrace(pTrace);
}
}
const char *Debugger::_GetFilename()
{
if (m_FileName.size() < 1)
{
const char *filename = "";
CPluginMngr::CPlugin *pl = g_plugins.findPluginFast(m_pAmx);
if (pl)
{
filename = pl->getName();
} else {
CList<CScript,AMX*>::iterator a = g_loadedscripts.find(m_pAmx);
if (a)
filename = (*a).getName();
}
m_FileName.assign(filename);
}
return m_FileName.c_str();
}
void Debugger::FmtGenericMsg(AMX *amx, int error, char buffer[], size_t maxLength)
{
const char *filename = "";
CList<CScript,AMX*>::iterator a = g_loadedscripts.find(amx);
if (a)
filename = (*a).getName();
size_t len = strlen(filename);
for (size_t i=len-1; i>=0; i--)
{
if (filename[i] == '/' || filename[i] == '\\' && i != len - 1)
{
filename = &(filename[i+1]);
break;
}
}
_snprintf(buffer, maxLength, "Run time error %d (plugin \"%s\") - debug not enabled!", error, filename);
}
void Debugger::GenericMessage(AMX *amx, int err)
{
static char buffer[512];
buffer[0] = '\0';
Debugger::FmtGenericMsg(amx, err, buffer, sizeof(buffer)-1);
if (buffer[0] != '\0')
AMXXLOG_Log("[AMXX] %s", buffer);
}
Debugger::~Debugger()
{
Clear();
}
int Handler::SetErrorHandler(const char *function)
{
int error;
error = amx_FindPublic(m_pAmx, function, &m_iErrFunc);
if (error != AMX_ERR_NONE && m_iErrFunc < 1)
m_iErrFunc = -1;
return error;
}
int Handler::SetModuleFilter(const char *function)
{
int error;
error = amx_FindPublic(m_pAmx, function, &m_iModFunc);
if (error != AMX_ERR_NONE && m_iModFunc < 1)
m_iModFunc = -1;
return error;
}
int Handler::SetNativeFilter(const char *function)
{
int error;
error = amx_FindPublic(m_pAmx, function, &m_iNatFunc);
if (error != AMX_ERR_NONE && !IsNativeFiltering())
m_iNatFunc = -1;
return error;
}
void Handler::SetErrorMsg(const char *msg)
{
if (!msg)
m_MsgCache.clear();
else
m_MsgCache.assign(msg);
}
const char *Handler::GetLastMsg()
{
if (m_MsgCache.size() < 1)
return NULL;
return m_MsgCache.c_str();
}
int Handler::HandleModule(const char *module)
{
if (m_iModFunc < 1)
return 0;
/**
* This is the most minimalistic handler of them all
*/
cell hea_addr, *phys_addr, retval;
Debugger *pd;
pd = DisableDebugHandler(m_pAmx);
//temporarily set prenit
m_pAmx->flags |= AMX_FLAG_PRENIT;
amx_PushString(m_pAmx, &hea_addr, &phys_addr, module, 0, 0);
int err = amx_Exec(m_pAmx, &retval, m_iModFunc);
amx_Release(m_pAmx, hea_addr);
m_pAmx->flags &= ~AMX_FLAG_PRENIT;
EnableDebugHandler(m_pAmx, pd);
if (err != AMX_ERR_NONE)
return 0;
return (int)retval;
}
int Handler::HandleNative(const char *native, int index, int trap)
{
if (!IsNativeFiltering())
return 0;
/**
* Our handler here is a bit different from HandleError().
* For one, there is no current error in pDebugger, so we
* don't have to save some states.
*/
m_InNativeFilter = true;
Debugger *pDebugger = (Debugger *)m_pAmx->userdata[UD_DEBUGGER];
if (pDebugger && trap)
pDebugger->BeginExec();
else if (pDebugger && !trap)
DisableDebugHandler(m_pAmx);
cell hea_addr, *phys_addr, retval;
if (!trap)
m_pAmx->flags |= AMX_FLAG_PRENIT;
amx_Push(m_pAmx, trap);
amx_Push(m_pAmx, index);
amx_PushString(m_pAmx, &hea_addr, &phys_addr, native, 0, 0);
int err = amx_Exec(m_pAmx, &retval, m_iNatFunc);
if (err != AMX_ERR_NONE)
{
//LogError() took care of something for us.
if (err == -1)
{
m_InNativeFilter = false;
amx_Release(m_pAmx, hea_addr);
return 1;
}
if (!trap)
{
AMXXLOG_Log("[AMXX] Runtime failure %d occurred in native filter. Aborting plugin load.", err);
return 0;
}
//handle this manually.
//we need to push this through an error filter, same as executeForwards!
if (pDebugger && pDebugger->ErrorExists())
{
//don't display, it was already handled.
} else if (err != -1) {
LogError(m_pAmx, err, NULL);
}
AMXXLOG_Log("[AMXX] NOTE: Runtime failures in native filters are not good!");
retval = 0;
}
if (!trap)
m_pAmx->flags &= ~AMX_FLAG_PRENIT;
if (pDebugger && trap)
pDebugger->EndExec();
else if (pDebugger && !trap)
EnableDebugHandler(m_pAmx, pDebugger);
amx_Release(m_pAmx, hea_addr);
m_InNativeFilter = false;
return (int)retval;
}
int Handler::HandleError(const char *msg)
{
if (m_iErrFunc <= 0)
return 0;
m_Handling = true;
m_pTrace = NULL;
m_FmtCache.clear();
Debugger *pDebugger = (Debugger *)m_pAmx->userdata[UD_DEBUGGER];
int error = m_pAmx->error;
static char _buffer[512];
if (pDebugger)
{
pDebugger->SetTracedError(error);
m_pTrace = pDebugger->GetTraceStart();
pDebugger->FormatError(_buffer, sizeof(_buffer)-1);
m_FmtCache.assign(_buffer);
pDebugger->BeginExec();
} else {
Debugger::FmtGenericMsg(m_pAmx, error, _buffer, sizeof(_buffer)-1);
m_FmtCache.assign(_buffer);
}
SetErrorMsg(msg);
cell hea_addr, *phys_addr, result;
amx_PushString(m_pAmx, &hea_addr, &phys_addr, msg, 0, 0);
amx_Push(m_pAmx, pDebugger ? 1 : 0);
amx_Push(m_pAmx, error);
int err = amx_Exec(m_pAmx, &result, m_iErrFunc);
if (err != AMX_ERR_NONE)
{
//handle this manually.
if (pDebugger)
{
pDebugger->SetTracedError(err);
pDebugger->DisplayTrace(msg);
} else {
if (GetLastMsg())
AMXXLOG_Log("%s", GetLastMsg());
Debugger::GenericMessage(m_pAmx, err);
}
AMXXLOG_Log("[AMXX] NOTE: Runtime failures in an error filter are not good!");
}
if (pDebugger)
pDebugger->EndExec();
amx_Release(m_pAmx, hea_addr);
m_Handling = false;
m_pTrace = NULL;
m_FmtCache.clear();
if (err != AMX_ERR_NONE || !result)
return 0;
return result;
}
static cell AMX_NATIVE_CALL set_error_filter(AMX *amx, cell *params)
{
int len;
char *function = get_amxstring(amx, params[1], 0, len);
Handler *pHandler = (Handler *)amx->userdata[UD_HANDLER];
if (!pHandler)
{
Debugger::GenericMessage(amx, AMX_ERR_NOTFOUND);
AMXXLOG_Log("[AMXX] Plugin not initialized correctly.");
return 0;
}
int err = pHandler->SetErrorHandler(function);
if (err != AMX_ERR_NONE)
{
Debugger::GenericMessage(amx, AMX_ERR_NOTFOUND);
AMXXLOG_Log("[AMXX] Function not found: %s", function);
return 0;
}
return 1;
}
static cell AMX_NATIVE_CALL dbg_trace_begin(AMX *amx, cell *params)
{
Handler *pHandler = (Handler *)amx->userdata[UD_HANDLER];
if (!pHandler)
return 0; //should never happen
trace_info_t *pTrace = pHandler->GetTrace();
return (cell)(pTrace);
}
static cell AMX_NATIVE_CALL dbg_trace_next(AMX *amx, cell *params)
{
Debugger *pDebugger = (Debugger *)amx->userdata[UD_DEBUGGER];
if (!pDebugger)
return 0;
trace_info_t *pTrace = (trace_info_t *)(params[1]);
if (pTrace)
return (cell)(pDebugger->GetNextTrace(pTrace));
return 0;
}
static cell AMX_NATIVE_CALL dbg_trace_info(AMX *amx, cell *params)
{
Debugger *pDebugger = (Debugger *)amx->userdata[UD_DEBUGGER];
if (!pDebugger)
return 0;
trace_info_t *pTrace = (trace_info_t *)(params[1]);
if (!pTrace)
return 0;
cell *line_addr = get_amxaddr(amx, params[2]);
long lLine=-1;
const char *function=NULL, *file=NULL;
pDebugger->GetTraceInfo(pTrace, lLine, function, file);
set_amxstring(amx, params[3], function ? function : "", params[4]);
set_amxstring(amx, params[5], file ? file : "", params[5]);
*line_addr = (cell)lLine + 1;
return 1;
}
static cell AMX_NATIVE_CALL dbg_fmt_error(AMX *amx, cell *params)
{
Handler *pHandler = (Handler *)amx->userdata[UD_HANDLER];
if (!pHandler)
return 0;
const char *str = pHandler->GetFmtCache();
set_amxstring(amx, params[1], str, params[2]);
return 1;
}
static cell AMX_NATIVE_CALL set_native_filter(AMX *amx, cell *params)
{
Handler *pHandler = (Handler *)amx->userdata[UD_HANDLER];
if (!pHandler)
{
Debugger::GenericMessage(amx, AMX_ERR_NOTFOUND);
AMXXLOG_Log("[AMXX] Plugin not initialized correctly.");
return 0;
}
if (!pHandler->IsNativeFiltering())
{
//we can only initialize this during PRENIT
if (! (amx->flags & AMX_FLAG_PRENIT) )
return 0;
}
int len;
char *func = get_amxstring(amx, params[1], 0, len);
int err = pHandler->SetNativeFilter(func);
if (err != AMX_ERR_NONE)
{
Debugger::GenericMessage(amx, AMX_ERR_NOTFOUND);
AMXXLOG_Log("[AMXX] Function not found: %s", function);
return 0;
}
return 1;
}
static cell AMX_NATIVE_CALL set_module_filter(AMX *amx, cell *params)
{
if ( !(amx->flags & AMX_FLAG_PRENIT) )
return -1;
Handler *pHandler = (Handler *)amx->userdata[UD_HANDLER];
if (!pHandler)
return -2;
int len;
char *function = get_amxstring(amx, params[1], 0, len);
return pHandler->SetModuleFilter(function);
}
AMX_NATIVE_INFO g_DebugNatives[] = {
{"set_error_filter", set_error_filter},
{"dbg_trace_begin", dbg_trace_begin},
{"dbg_trace_next", dbg_trace_next},
{"dbg_trace_info", dbg_trace_info},
{"dbg_fmt_error", dbg_fmt_error},
{"set_native_filter", set_native_filter},
{"set_module_filter", set_module_filter},
{NULL, NULL},
};

201
amxmodx/debugger.h
View File

@ -1,201 +0,0 @@
/* 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.
*/
#ifndef _INCLUDE_DEBUGGER_H_
#define _INCLUDE_DEBUGGER_H_
#include "CVector.h"
#include "amxdbg.h"
/**
* Third revision of the AMX Mod X Plugin Debugger.
* This final, object oriented version is safe for multiple calls and lets you
* fine-tune error handling.
* -BAILOPAN
*/
class Debugger
{
public:
class Tracer
{
public:
struct trace_info
{
trace_info() : cip(0), frm(0), used(false), next(NULL), prev(NULL) {};
cell cip;
cell frm;
trace_info *next;
trace_info *prev;
bool used;
};
public:
Tracer() : m_Error(0), m_pStart(NULL), m_pEnd(NULL), m_Reset(true) {};
~Tracer();
public:
void StepI(cell frm, cell cip);
void Reset();
void Clear();
Debugger::Tracer::trace_info *GetStart() const;
Debugger::Tracer::trace_info *GetEnd() const;
public:
int m_Error;
private:
trace_info *m_pStart;
trace_info *m_pEnd;
bool m_Reset;
};
public:
Debugger(AMX *pAmx, AMX_DBG *pAmxDbg) : m_pAmx(pAmx), m_pAmxDbg(pAmxDbg), m_Top(-1)
{
_CacheAmxOpcodeList();
};
~Debugger();
public:
//Begin a trace for a function
void BeginExec();
//Step through one instruction
void StepI();
//Get/set the last traced error
int GetTracedError();
void SetTracedError(int error);
//Get the first trace info of the call stack
Debugger::Tracer::trace_info *GetTraceStart() const;
//Get extra info about the call stack
bool GetTraceInfo(Debugger::Tracer::trace_info *pTraceInfo, long &line, const char *&function, const char *&file);
//Get the next trace in the call stack, NULL if none
Debugger::Tracer::trace_info *GetNextTrace(Debugger::Tracer::trace_info *pTraceInfo);
//Returns true if an error exists
bool ErrorExists();
//Formats the error message into a buffer.
//returns length of data copied, or -1 if there is no error.
int FormatError(char *buffer, size_t maxLength);
//End a trace
void EndExec();
//Reset the internal states as if the debugger was inactive
void Reset();
//Destroy internal states for shutdown
void Clear();
void DisplayTrace(const char *message);
AMX *GetAMX() const { return m_pAmx; }
public:
//generic static opcode breaker
static int AMXAPI DebugHook(AMX *amx);
static void FmtGenericMsg(AMX *amx, int error, char buffer[], size_t maxLength);
static void GenericMessage(AMX *amx, int error);
private:
void _CacheAmxOpcodeList();
int _GetOpcodeFromCip(cell cip, cell *&addr);
cell _CipAsVa(cell cip);
const char *_GetFilename();
public:
AMX *m_pAmx;
AMX_DBG *m_pAmxDbg;
int m_Top;
cell *m_pOpcodeList;
String m_FileName;
CVector<Tracer *> m_pCalls;
};
typedef Debugger::Tracer::trace_info trace_info_t;
/**
* Error handler for plugins
*/
class Handler
{
public:
Handler(AMX *pAmx) : m_pAmx(pAmx), m_iErrFunc(-1), m_iModFunc(-1), m_iNatFunc(-1), m_Handling(false), m_InNativeFilter(false) {};
~Handler() {};
public:
int SetErrorHandler(const char *function);
int SetNativeFilter(const char *function);
int SetModuleFilter(const char *function);
public:
int HandleError(const char *msg);
int HandleNative(const char *native, int index, int trap);
int HandleModule(const char *module);
public:
bool IsHandling() const { return m_Handling; }
void SetErrorMsg(const char *msg);
const char *GetLastMsg();
trace_info_t *GetTrace() const { return m_pTrace; }
const char *GetFmtCache() { return m_FmtCache.c_str(); }
bool IsNativeFiltering() { return (m_iNatFunc > 0); }
bool InNativeFilter() { return m_InNativeFilter; }
private:
AMX *m_pAmx;
int m_iErrFunc;
int m_iModFunc;
int m_iNatFunc;
bool m_Handling;
//in the future, make this a stack!
bool m_InNativeFilter;
String m_MsgCache;
String m_FmtCache;
trace_info_t *m_pTrace;
};
extern AMX_NATIVE_INFO g_DebugNatives[];
#endif //_INCLUDE_DEBUGGER_H_

378
amxmodx/emsg.cpp
View File

@ -57,233 +57,208 @@ WeaponsVault g_weaponsData[MAX_WEAPONS];
void Client_VGUIMenu(void* mValue) void Client_VGUIMenu(void* mValue)
{ {
if (!mPlayer) return; if (!mPlayer) return;
switch (mState++){
mPlayer->vgui = true; case 0:
mPlayer->menu = -(*(int*)mValue);
switch (mState++) break;
{ case 1:
case 0: mPlayer->keys = *(int*)mValue;
mPlayer->menu = -(*(int*)mValue); }
mPlayer->newmenu = -1;
break;
case 1:
mPlayer->keys = *(int*)mValue;
}
} }
void Client_ShowMenu(void* mValue) void Client_ShowMenu(void* mValue)
{ {
if (!mPlayer) return; if (!mPlayer) return;
switch (mState++){
mPlayer->vgui = true; case 0:
mPlayer->keys = *(int*)mValue;
switch (mState++) break;
{ case 3:
case 0: mPlayer->menu = g_menucmds.findMenuId( (char*)mValue );
mPlayer->keys = *(int*)mValue; }
break;
case 3:
{
mPlayer->menu = g_menucmds.findMenuId((char*)mValue);
mPlayer->newmenu = -1;
break;
}
}
} }
void Client_TeamInfo(void* mValue) void Client_TeamInfo(void* mValue)
{ {
if (mPlayer) return; if (mPlayer) return;
static int index; static int index;
switch (mState++) {
switch (mState++) case 0:
{ index = *(int*)mValue;
case 0: break;
index = *(int*)mValue; case 1:
break; if ( index < 1 || index > gpGlobals->maxClients ) break;
case 1: char* msg = (char*)mValue;
if (index < 1 || index > gpGlobals->maxClients) break; g_players[ index ].team.assign( msg );
char* msg = (char*)mValue; g_teamsIds.registerTeam( msg , -1 );
g_players[index].team.assign(msg); }
g_teamsIds.registerTeam(msg, -1);
}
} }
void Client_TextMsg(void* mValue) void Client_TextMsg(void* mValue)
{ {
if (mPlayer) return; if ( mPlayer ) return;
switch (mState++) {
switch (mState++) case 1:{
{ char * msg = (char*)mValue;
case 1: if (!msg) break;
{ if ( !strncmp("#Game_C", msg , 7) ) {
char * msg = (char*)mValue; g_game_timeleft = g_game_restarting = gpGlobals->time + 3;
if (!msg) break; // g_endround_time = gpGlobals->time;
// g_newround_time = gpGlobals->time + CVAR_GET_FLOAT("mp_freezetime") + 3;
if (!strncmp("#Game_C", msg, 7))
{
g_game_timeleft = g_game_restarting = gpGlobals->time + 3;
//g_endround_time = gpGlobals->time;
//g_newround_time = gpGlobals->time + CVAR_GET_FLOAT("mp_freezetime") + 3;
}
else if (!strncmp("#Game_w", msg, 7))
{
g_game_timeleft = -2;
}
else if (!strncmp("#game_clan_s", msg, 12))
{
g_game_timeleft = -3;
}
break;
} }
case 2: else if (!strncmp("#Game_w", msg , 7) ) {
{ g_game_timeleft = -2;
char * msg = (char*)mValue;
if (!msg) break;
if (g_game_timeleft == -2)
{
g_game_timeleft = g_game_restarting = gpGlobals->time + atoi(msg);
//g_newround_time = g_game_timeleft + CVAR_GET_FLOAT("mp_freezetime");
}
else if (g_game_timeleft == -3)
g_game_restarting = atoi(msg) * 60.0f;
break;
} }
case 3: else if ( !strncmp("#game_clan_s", msg , 12) ){
{ g_game_timeleft = -3;
char * msg = (char*)mValue;
if (!msg) break;
if (g_game_timeleft != -3) break;
g_game_restarting += atoi(msg);
g_game_timeleft = g_game_restarting = gpGlobals->time + g_game_restarting;
break;
} }
break;
}
case 2:{
char * msg = (char*)mValue;
if (!msg) break;
if (g_game_timeleft == -2 ){
g_game_timeleft = g_game_restarting = gpGlobals->time + atoi( msg );
// g_newround_time = g_game_timeleft + CVAR_GET_FLOAT("mp_freezetime");
}
else if ( g_game_timeleft == -3 )
g_game_restarting = atoi( msg ) * 60;
break;
}
case 3:{
char * msg = (char*)mValue;
if (!msg) break;
if ( g_game_timeleft != -3 ) break;
g_game_restarting += atoi( msg );
g_game_timeleft = g_game_restarting = gpGlobals->time + g_game_restarting;
break;
}
} }
} }
void Client_WeaponList(void* mValue) void Client_WeaponList(void* mValue)
{ {
static int wpnList = 0; static int wpnList = 0;
//static int wpnList2; //static int wpnList2;
static int iSlot; static int iSlot;
static const char* wpnName; static const char* wpnName;
switch (mState++) {
case 0:
wpnName = (char*)mValue;
break;
case 1:
iSlot = *(int*)mValue;
break;
case 7:
int iId = *(int*)mValue;
/*int* blocker;
switch (mState++) int iwpn = iId;
{
case 0: if (iId > 31) {
wpnName = (char*)mValue; iwpn -= 31;
break; blocker = &wpnList2;
case 1:
iSlot = *(int*)mValue;
break;
case 7:
int iId = *(int*)mValue;
if ((iId < 0 || iId >= MAX_WEAPONS) || (wpnList & (1<<iId)))
break;
wpnList |= (1<<iId);
g_weaponsData[iId].iId = iId;
g_weaponsData[iId].ammoSlot = iSlot;
g_weaponsData[iId].fullName.assign(wpnName);
} }
else
blocker = &wpnList;*/
if ( (iId < 0 || iId >= MAX_WEAPONS ) || (wpnList & (1<<iId)) )
break;
wpnList |= (1<<iId);
g_weaponsData[iId].iId = iId;
g_weaponsData[iId].ammoSlot = iSlot;
g_weaponsData[iId].fullName.assign(wpnName);
}
} }
void Client_CurWeapon(void* mValue) void Client_CurWeapon(void* mValue)
{ {
static int iState; static int iState;
static int iId; static int iId;
switch (mState++){
switch (mState++) case 0:
{ iState = *(int*)mValue;
case 0: break;
iState = *(int*)mValue; case 1:
break; if (!iState) break;
case 1: iId = *(int*)mValue;
if (!iState) break; break;
iId = *(int*)mValue; case 2:
break; if (!mPlayer) return;
case 2: if (!iState || (iId < 1 || iId >= MAX_WEAPONS ) ) break;
if (!mPlayer) return; mPlayer->weapons[iId].clip = *(int*)mValue;
if (!iState || (iId < 1 || iId >= MAX_WEAPONS)) break; mPlayer->current = iId;
mPlayer->weapons[iId].clip = *(int*)mValue; mPlayer->lastHit = mPlayer->lastTrace;
mPlayer->current = iId; }
mPlayer->lastHit = mPlayer->lastTrace;
}
} }
void Client_AmmoX(void* mValue) void Client_AmmoX(void* mValue)
{ {
static int iAmmo;
switch (mState++) static int iAmmo;
{ switch (mState++){
case 0: case 0:
iAmmo = *(int*)mValue; iAmmo = *(int*)mValue;
break; break;
case 1: case 1:
if (!mPlayer) return; if (!mPlayer) return;
for (int i = 1; i < MAX_WEAPONS; ++i) for(int i=1;i<MAX_WEAPONS;++i)
if (iAmmo == g_weaponsData[i].ammoSlot) if (iAmmo == g_weaponsData[i].ammoSlot)
mPlayer->weapons[i].ammo = *(int*)mValue; mPlayer->weapons[i].ammo = *(int*)mValue;
} }
} }
void Client_AmmoPickup(void* mValue) void Client_AmmoPickup(void* mValue)
{ {
static int iSlot; static int iSlot;
switch (mState++){
switch (mState++) case 0:
{ iSlot = *(int*)mValue;
case 0: break;
iSlot = *(int*)mValue; case 1:
break; if (!mPlayer) return;
case 1: for(int i=1;i<MAX_WEAPONS;++i)
if (!mPlayer) return; if (g_weaponsData[i].ammoSlot==iSlot)
for (int i = 1; i < MAX_WEAPONS; ++i) mPlayer->weapons[i].ammo += *(int*)mValue;
if (g_weaponsData[i].ammoSlot==iSlot) }
mPlayer->weapons[i].ammo += *(int*)mValue;
}
} }
void Client_ScoreInfo(void* mValue) void Client_ScoreInfo(void* mValue)
{ {
static int index; static int index;
static int deaths; static int deaths;
switch (mState++){
switch (mState++) case 0:
{ index = *(int*)mValue;
case 0: break;
index = *(int*)mValue; case 2:
break; deaths = *(int*)mValue;
case 2: break;
deaths = *(int*)mValue; case 4:
break; if ( index < 1 || index > gpGlobals->maxClients ) break;
case 4: CPlayer*pPlayer = GET_PLAYER_POINTER_I( index );
if (index < 1 || index > gpGlobals->maxClients) break; pPlayer->deaths = deaths;
CPlayer*pPlayer = GET_PLAYER_POINTER_I(index); pPlayer->teamId = *(int*)mValue;
pPlayer->deaths = deaths; if ( g_teamsIds.isNewTeam() )
pPlayer->teamId = *(int*)mValue; g_teamsIds.registerTeam( pPlayer->team.c_str() , pPlayer->teamId );
if (g_teamsIds.isNewTeam()) }
g_teamsIds.registerTeam(pPlayer->team.c_str(), pPlayer->teamId);
}
} }
void Client_DamageEnd(void* mValue) void Client_DamageEnd(void* mValue)
{ {
CPlayer* dead = mPlayer; CPlayer* dead = mPlayer;
if (dead && dead->death_killer) if ( dead && dead->death_killer )
{ {
g_events.parserInit(CS_DEATHMSG, &gpGlobals->time, mPlayer = 0, mPlayerIndex = 0); g_events.parserInit( CS_DEATHMSG , &gpGlobals->time , mPlayer = 0, mPlayerIndex = 0 );
g_events.parseValue(dead->death_killer); g_events.parseValue( dead->death_killer );
g_events.parseValue(dead->index); g_events.parseValue( dead->index );
g_events.parseValue(dead->death_headshot); g_events.parseValue( dead->death_headshot );
g_events.parseValue(dead->death_weapon.c_str()); g_events.parseValue( dead->death_weapon.c_str() );
g_events.parseValue(dead->death_tk ? 1 : 0); g_events.parseValue( dead->death_tk ? 1 : 0 );
g_events.executeEvents(); g_events.executeEvents();
dead->death_killer = 0; dead->death_killer = 0;
} }
@ -297,25 +272,28 @@ void Client_DeathMsg(void* mValue)
static int victim_id; static int victim_id;
static int hs; static int hs;
switch (mState++) switch (mState++){
{ case 0:
case 0: killer_id = *(int*)mValue;
killer_id = *(int*)mValue; killer = (killer_id > 0 && killer_id < 33) ?
killer = (killer_id > 0 && killer_id < 33) ? GET_PLAYER_POINTER_I(killer_id) : 0; GET_PLAYER_POINTER_I(killer_id) : 0;
break; break;
case 1: case 1:
victim_id = *(int*)mValue; victim_id = *(int*)mValue;
victim = (victim_id > 0 && victim_id < 33) ? GET_PLAYER_POINTER_I(victim_id) : 0; victim = (victim_id > 0 && victim_id < 33) ?
break; GET_PLAYER_POINTER_I(victim_id) : 0;
case 2: break;
hs = *(int*)mValue; case 2:
break; hs = *(int*)mValue;
case 3: break;
if (!killer || !victim) break; case 3:
victim->death_killer = killer_id;
victim->death_weapon.assign((char*)mValue); if ( !killer || !victim ) break;
victim->death_headshot = hs;
victim->death_tk = (killer->teamId == victim->teamId); victim->death_killer = killer_id;
victim->death_weapon.assign((char*)mValue);
victim->death_headshot = hs;
victim->death_tk = (killer->teamId == victim->teamId);
} }
} }
/* /*

2720
amxmodx/fakemeta.cpp
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File diff suppressed because it is too large Load Diff

196
amxmodx/fakemeta.h
View File

@ -31,7 +31,199 @@
#ifndef __FAKEMETA_H__ #ifndef __FAKEMETA_H__
#define __FAKEMETA_H__ #define __FAKEMETA_H__
int UnloadMetamodPlugin(void *handle); // Fake metamod api for modules
int LoadMetamodPlugin(const char *path, void **handle, PLUG_LOADTIME now);
#include "CList.h"
// from mplugin.h (metamod)
// Flags to indicate current "load" state of plugin.
// NOTE: order is important, as greater/less comparisons are made.
typedef enum {
PL_EMPTY = 0, // empty slot
PL_VALID, // has valid info in it
PL_BADFILE, // nonexistent file (open failed),
// or not a valid plugin file (query failed)
PL_OPENED, // dlopened and queried
PL_FAILED, // opened, but failed to attach or unattach
PL_RUNNING, // attached and running
PL_PAUSED, // attached but paused
} PLUG_STATUS;
// from h_export.h (metamod)
// Our GiveFnptrsToDll, called by engine.
typedef void (WINAPI *GIVE_ENGINE_FUNCTIONS_FN) (enginefuncs_t
*pengfuncsFromEngine, globalvars_t *pGlobals);
// *** CFakeMeta
class CFakeMeta
{
private:
// Core tables
/* DLL_FUNCTIONS m_CoreDllFuncTable;
enginefuncs_t m_CoreEngineFuncTable;
NEW_DLL_FUNCTIONS m_CoreNewDllFuncTable;
DLL_FUNCTIONS m_CoreDllFuncTable_Post;
enginefuncs_t m_CoreEngineFuncTable_Post;
NEW_DLL_FUNCTIONS m_CoreNewDllFuncTable_Post; */
bool AddCorePlugin(); // Adds the core plugin if needed
public:
class CFakeMetaPlugin
{
private:
// plugin info
String m_Path;
PLUG_STATUS m_Status;
plugin_info_t *m_Info;
// Function tables
META_FUNCTIONS m_MetaFuncTable;
DLL_FUNCTIONS m_DllFuncTable;
enginefuncs_t m_EngineFuncTable;
NEW_DLL_FUNCTIONS m_NewDllFuncTable;
DLL_FUNCTIONS m_DllFuncTable_Post;
enginefuncs_t m_EngineFuncTable_Post;
NEW_DLL_FUNCTIONS m_NewDllFuncTable_Post;
// OS dep handle
DLHANDLE m_Handle;
public:
inline PLUG_STATUS GetStatus() const
{ return m_Status; }
inline void SetStatus(PLUG_STATUS newStatus)
{ m_Status = newStatus; }
inline plugin_info_t * GetInfo()
{ return m_Info; }
inline const plugin_info_t * GetInfo() const
{ return m_Info; }
inline void SetInfo(plugin_info_t *newInfo)
{ m_Info = newInfo; }
inline const char * GetPath()
{ return m_Path.c_str(); }
inline const META_FUNCTIONS &GetMetaFunctions() const
{ return m_MetaFuncTable; }
// Get
inline DLL_FUNCTIONS &GetDllFuncTable()
{ return m_DllFuncTable; }
inline enginefuncs_t &GetEngineFuncTable()
{ return m_EngineFuncTable; }
inline NEW_DLL_FUNCTIONS &GetNewDllFuncTable()
{ return m_NewDllFuncTable; }
// Get const
inline const DLL_FUNCTIONS &GetDllFuncTable() const
{ return m_DllFuncTable; }
inline const enginefuncs_t &GetEngineFuncTable() const
{ return m_EngineFuncTable; }
inline const NEW_DLL_FUNCTIONS &GetNewDllFuncTable() const
{ return m_NewDllFuncTable; }
// Get post
inline DLL_FUNCTIONS &GetDllFuncTable_Post()
{ return m_DllFuncTable_Post; }
inline enginefuncs_t &GetEngineFuncTable_Post()
{ return m_EngineFuncTable_Post; }
inline NEW_DLL_FUNCTIONS &GetNewDllFuncTable_Post()
{ return m_NewDllFuncTable_Post; }
// Get post const
inline const DLL_FUNCTIONS &GetDllFuncTable_Post() const
{ return m_DllFuncTable_Post; }
inline const enginefuncs_t &GetEngineFuncTable_Post() const
{ return m_EngineFuncTable_Post; }
inline const NEW_DLL_FUNCTIONS &GetNewDllFuncTable_Post() const
{ return m_NewDllFuncTable_Post; }
int Query(mutil_funcs_t *pMetaUtilFuncs); // Also calls GiveFnPtrsToDll
int Attach(PLUG_LOADTIME now, meta_globals_t *pMGlobals, gamedll_funcs_t *pGameDllFuncs);
int Detach(PLUG_LOADTIME now, PL_UNLOAD_REASON reason);
int GetEntityAPI2(int interfaceVersion);
int GetEntityAPI2_Post(int interfaceVersion);
int GetEngineFunctions(int interfaceVersion);
int GetEngineFunctions_Post(int interfaceVersion);
int GetNewDLLFunctions(int interfaceVersion);
int GetNewDLLFunctions_Post(int interfaceVersion);
CFakeMetaPlugin(const char *path);
~CFakeMetaPlugin();
}; // CFakeMetaPlugin
CFakeMeta();
~CFakeMeta();
bool AddPlugin(const char *path /*path relative to moddir*/);
void ReleasePlugins();
// This is public because i don't want to declare all the functions as friends :)
// :NOTE: The core is now a special, first plugin!
CList<CFakeMetaPlugin> m_Plugins;
// ****** Meta functions ******
// Query all added plugins
void Meta_Query(mutil_funcs_t *pMetaUtilFuncs);
// Attach all added plugins
void Meta_Attach(PLUG_LOADTIME now, meta_globals_t *pMGlobals, gamedll_funcs_t *pGamedllFuncs);
// Detach all added plugins
void Meta_Detach(PLUG_LOADTIME now, PL_UNLOAD_REASON reason);
// :NOTE: Meta_Init currently not supported
int GetEntityAPI2(DLL_FUNCTIONS *pFunctionTable /*from metamod*/, int *interfaceVersion /*from metamod*/,
DLL_FUNCTIONS *pAMXXFunctionTable /*Functions amxx needs*/);
int GetEntityAPI2_Post(DLL_FUNCTIONS *pFunctionTable /*from metamod*/, int *interfaceVersion /*from metamod*/,
DLL_FUNCTIONS *pAMXXFunctionTable /*Functions amxx needs*/);
int GetEngineFunctions(enginefuncs_t *pengfuncsFromEngine, int *interfaceVersion,
enginefuncs_t *pAMXXFunctionTable /*Fucntions amxx needs*/);
int GetEngineFunctions_Post(enginefuncs_t *pengfuncsFromEngine, int *interfaceVersion,
enginefuncs_t *pAMXXFunctionTable /*Fucntions amxx needs*/);
int GetNewDLLFunctions(NEW_DLL_FUNCTIONS *pNewFunctionTable, int *interfaceVersion,
NEW_DLL_FUNCTIONS *pAMXXFunctionTable);
int GetNewDLLFunctions_Post(NEW_DLL_FUNCTIONS *pNewFunctionTable, int *interfaceVersion,
NEW_DLL_FUNCTIONS *pAMXXFunctionTable);
// Get
/*inline DLL_FUNCTIONS &GetDllFuncTable()
{ return m_CoreDllFuncTable; }
inline enginefuncs_t &GetEngineFuncTable()
{ return m_CoreEngineFuncTable; }
inline NEW_DLL_FUNCTIONS &GetNewDllFuncTable()
{ return m_CoreNewDllFuncTable; }
// Get const
inline const DLL_FUNCTIONS &GetDllFuncTable() const
{ return m_CoreDllFuncTable; }
inline const enginefuncs_t &GetEngineFuncTable() const
{ return m_CoreEngineFuncTable; }
inline const NEW_DLL_FUNCTIONS &GetNewDllFuncTable() const
{ return m_CoreNewDllFuncTable; }
// Get post
inline DLL_FUNCTIONS &GetDllFuncTable_Post()
{ return m_CoreDllFuncTable_Post; }
inline enginefuncs_t &GetEngineFuncTable_Post()
{ return m_CoreEngineFuncTable_Post; }
inline NEW_DLL_FUNCTIONS &GetNewDllFuncTable_Post()
{ return m_CoreNewDllFuncTable_Post; }
// Get post const
inline const DLL_FUNCTIONS &GetDllFuncTable_Post() const
{ return m_CoreDllFuncTable_Post; }
inline const enginefuncs_t &GetEngineFuncTable_Post() const
{ return m_CoreEngineFuncTable_Post; }
inline const NEW_DLL_FUNCTIONS &GetNewDllFuncTable_Post() const
{ return m_CoreNewDllFuncTable_Post; } */
}; // CFakeMeta
// Fake Metamod
// defined in meta_api.cpp
extern CFakeMeta g_FakeMeta;
#endif // #ifndef __FAKEMETA_H__ #endif // #ifndef __FAKEMETA_H__

1094
amxmodx/file.cpp
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File diff suppressed because it is too large Load Diff

21
amxmodx/float.cpp
View File

@ -37,19 +37,6 @@
#define PI 3.1415926535897932384626433832795 #define PI 3.1415926535897932384626433832795
static REAL FromRadians(REAL angle, int radix)
{
switch (radix)
{
case 1: /* degrees, sexagesimal system (technically: degrees/minutes/seconds) */
return (REAL)(angle / PI * 180.0);
case 2: /* grades, centesimal system */
return (REAL)(angle / PI * 200.0);
default: /* assume already radian */
return angle;
} /* switch */
}
#if defined __BORLANDC__ || defined __WATCOMC__ #if defined __BORLANDC__ || defined __WATCOMC__
#pragma argsused #pragma argsused
#endif #endif
@ -96,7 +83,7 @@ static cell AMX_NATIVE_CALL n_floatstr(AMX *amx,cell *params)
return 0; return 0;
/* Now convert the Small String into a C type null terminated string */ /* Now convert the Small String into a C type null terminated string */
amx_GetStringOld(szSource, pString, 0); amx_GetString(szSource, pString, 0);
/* Now convert this to a float. */ /* Now convert this to a float. */
fNum = (REAL)atof(szSource); fNum = (REAL)atof(szSource);
@ -370,7 +357,6 @@ static cell AMX_NATIVE_CALL n_floatatan(AMX *amx, cell *params)
REAL fA = amx_ctof(params[1]); REAL fA = amx_ctof(params[1]);
fA = ToRadians(fA, params[2]); fA = ToRadians(fA, params[2]);
fA = atan(fA); fA = atan(fA);
fA = FromRadians(fA, params[2]);
return amx_ftoc(fA); return amx_ftoc(fA);
} }
@ -385,8 +371,8 @@ static cell AMX_NATIVE_CALL n_floatacos(AMX *amx, cell *params)
* params[2] = radix * params[2] = radix
*/ */
REAL fA = amx_ctof(params[1]); REAL fA = amx_ctof(params[1]);
fA = ToRadians(fA, params[2]);
fA = acos(fA); fA = acos(fA);
fA = FromRadians(fA, params[2]);
return amx_ftoc(fA); return amx_ftoc(fA);
} }
@ -401,8 +387,8 @@ static cell AMX_NATIVE_CALL n_floatasin(AMX *amx, cell *params)
* params[2] = radix * params[2] = radix
*/ */
REAL fA = amx_ctof(params[1]); REAL fA = amx_ctof(params[1]);
fA = ToRadians(fA, params[2]);
fA = asin(fA); fA = asin(fA);
fA = FromRadians(fA, params[2]);
return amx_ftoc(fA); return amx_ftoc(fA);
} }
@ -421,7 +407,6 @@ static cell AMX_NATIVE_CALL n_floatatan2(AMX *amx, cell *params)
REAL fB = amx_ctof(params[2]); REAL fB = amx_ctof(params[2]);
REAL fC; REAL fC;
fC = atan2(fA, fB); fC = atan2(fA, fB);
fC = FromRadians(fC, params[3]);
return amx_ftoc(fC); return amx_ftoc(fC);
} }

434
amxmodx/format.cpp
View File

@ -1,434 +0,0 @@
#include "amxmodx.h"
#include "format.h"
//Adapted from Quake3's vsprintf
// thanks to cybermind for linking me to this :)
//I made the following changes:
// - Fixed spacing to be AMX Mod X standard
// - Added 'n' support, no buffer overflows
// - Templatized input/output buffers
#define ALT 0x00000001 /* alternate form */
#define HEXPREFIX 0x00000002 /* add 0x or 0X prefix */
#define LADJUST 0x00000004 /* left adjustment */
#define LONGDBL 0x00000008 /* long double */
#define LONGINT 0x00000010 /* long integer */
#define QUADINT 0x00000020 /* quad integer */
#define SHORTINT 0x00000040 /* short integer */
#define ZEROPAD 0x00000080 /* zero (as opposed to blank) pad */
#define FPT 0x00000100 /* floating point number */
#define to_digit(c) ((c) - '0')
#define is_digit(c) ((unsigned)to_digit(c) <= 9)
#define to_char(n) ((n) + '0')
#define CHECK_ARGS(n) \
if ((arg+n) > args) { \
LogError(amx, AMX_ERR_PARAMS, "String formatted incorrectly - parameter %d (total %d)", arg, args); \
return 0; \
}
THash<String, lang_err> BadLang_Table;
static cvar_t *amx_mldebug = NULL;
static cvar_t *amx_cl_langs = NULL;
const char *translate(AMX *amx, cell amxaddr, const char *key)
{
const char *pLangName = NULL;
const char *def = NULL;
int status;
cell *addr = get_amxaddr(amx, amxaddr);
char name[4];
if (addr[0] == LANG_PLAYER)
{
if (!amx_cl_langs)
amx_cl_langs = CVAR_GET_POINTER("amx_client_languages");
if ( (int)amx_cl_langs->value == 0 )
{
pLangName = g_vault.get("server_language");
} else {
pLangName = ENTITY_KEYVALUE(GET_PLAYER_POINTER_I(g_langMngr.GetDefLang())->pEdict, "lang");
}
} else if (addr[0] == LANG_SERVER) {
pLangName = g_vault.get("server_language");
} else if (addr[0] >= 1 && addr[0] <= gpGlobals->maxClients) {
if (!amx_cl_langs)
amx_cl_langs = CVAR_GET_POINTER("amx_client_languages");
if ( (int)amx_cl_langs->value == 0 )
{
pLangName = g_vault.get("server_language");
} else {
pLangName = ENTITY_KEYVALUE(GET_PLAYER_POINTER_I(addr[0])->pEdict, "lang");
}
} else {
get_amxstring_r(amx, amxaddr, name, 3);
pLangName = name;
}
if (!pLangName || !isalpha(pLangName[0]))
pLangName = "en";
//next parameter!
def = g_langMngr.GetDef(pLangName, key, status);
if (!amx_mldebug)
amx_mldebug = CVAR_GET_POINTER("amx_mldebug");
bool debug = (amx_mldebug && amx_mldebug->string && (amx_mldebug->string[0] != '\0'));
if (debug)
{
int debug_status;
bool validlang = true;
const char *testlang = amx_mldebug->string;
if (!g_langMngr.LangExists(testlang))
{
AMXXLOG_Log("[AMXX] \"%s\" is an invalid debug language", testlang);
validlang = false;
}
g_langMngr.GetDef(testlang, key, debug_status);
if (validlang && debug_status == ERR_BADKEY)
AMXXLOG_Log("[AMXX] Language key \"%s\" not found for language \"%s\", check \"%s\"", key, testlang, GetFileName(amx));
}
if (def == NULL)
{
if (debug)
{
if (status == ERR_BADLANG && (BadLang_Table.AltFindOrInsert(pLangName).last + 120.0f < gpGlobals->time))
{
AMXXLOG_Log("[AMXX] Language \"%s\" not found", pLangName);
BadLang_Table.AltFindOrInsert(pLangName).last = gpGlobals->time;
}
}
if (addr[0] != LANG_SERVER)
def = g_langMngr.GetDef(g_vault.get("server_language"), key, status);
if (!def && (strcmp(pLangName, "en") != 0 && strcmp(g_vault.get("server_language"), "en") != 0))
def = g_langMngr.GetDef("en", key, status);
}
return def;
}
template <typename U>
void AddString(U **buf_p, size_t &maxlen, const cell *string, int width, int prec)
{
int size = 0;
U *buf;
static cell nlstr[] = {'(','n','u','l','l',')','\0'};
buf = *buf_p;
if (string == NULL)
{
string = nlstr;
prec = -1;
}
if (prec >= 0)
{
for (size = 0; size < prec; size++)
{
if (string[size] == '\0')
break;
}
} else {
while (string[size++]) ;
size--;
}
if (size > (int)maxlen)
size = maxlen;
maxlen -= size;
width -= size;
while (size--)
*buf++ = static_cast<U>(*string++);
while (width-- > 0 && maxlen)
{
*buf++ = ' ';
maxlen--;
}
*buf_p = buf;
}
template <typename U>
void AddFloat(U **buf_p, size_t &maxlen, double fval, int width, int prec)
{
U text[32];
int digits;
double signedVal;
U *buf;
int val;
// get the sign
signedVal = fval;
if (fval < 0)
fval = -fval;
// write the float number
digits = 0;
val = (int)fval;
do {
text[digits++] = '0' + val % 10;
val /= 10;
} while (val);
if (signedVal < 0)
text[digits++] = '-';
buf = *buf_p;
while (digits < width && maxlen)
{
*buf++ = ' ';
width--;
maxlen--;
}
while (digits-- && maxlen)
{
*buf++ = text[digits];
maxlen--;
}
*buf_p = buf;
if (prec < 0)
prec = 6;
// write the fraction
digits = 0;
while (digits < prec)
{
fval -= (int) fval;
fval *= 10.0;
val = (int) fval;
text[digits++] = '0' + val % 10;
}
if (digits > 0 && maxlen)
{
buf = *buf_p;
*buf++ = '.';
maxlen--;
for (prec = 0; maxlen && prec < digits; prec++)
{
*buf++ = text[prec];
maxlen--;
}
*buf_p = buf;
}
}
template <typename U>
void AddInt(U **buf_p, size_t &maxlen, int val, int width, int flags)
{
U text[32];
int digits;
int signedVal;
U *buf;
digits = 0;
signedVal = val;
if (val < 0)
val = -val;
do {
text[digits++] = '0' + val % 10;
val /= 10;
} while (val);
if (signedVal < 0)
text[digits++] = '-';
buf = *buf_p;
if( !(flags & LADJUST) )
{
while (digits < width && maxlen)
{
*buf++ = (flags & ZEROPAD) ? '0' : ' ';
width--;
maxlen--;
}
}
while (digits-- && maxlen)
{
*buf++ = text[digits];
width--;
maxlen--;
}
if (flags & LADJUST)
{
while (width-- && maxlen)
{
*buf++ = (flags & ZEROPAD) ? '0' : ' ';
maxlen--;
}
}
*buf_p = buf;
}
template <typename D, typename S>
size_t atcprintf(D *buffer, size_t maxlen, const S *format, AMX *amx, cell *params, int *param)
{
int arg;
int args = params[0] / sizeof(cell);
D *buf_p;
D ch;
int flags;
int width;
int prec;
int n;
char sign;
const S *fmt;
size_t llen = maxlen;
buf_p = buffer;
arg = *param;
fmt = format;
while (true)
{
// run through the format string until we hit a '%' or '\0'
for (ch = static_cast<D>(*fmt);
llen && ((ch = static_cast<D>(*fmt)) != '\0' && ch != '%');
fmt++)
{
*buf_p++ = static_cast<D>(ch);
llen--;
}
if (ch == '\0' || llen <= 0)
goto done;
// skip over the '%'
fmt++;
// reset formatting state
flags = 0;
width = 0;
prec = -1;
sign = '\0';
rflag:
ch = static_cast<D>(*fmt++);
reswitch:
switch(ch)
{
case '-':
flags |= LADJUST;
goto rflag;
case '.':
n = 0;
while( is_digit( ( ch = static_cast<D>(*fmt++)) ) )
n = 10 * n + ( ch - '0' );
prec = n < 0 ? -1 : n;
goto reswitch;
case '0':
flags |= ZEROPAD;
goto rflag;
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
n = 0;
do {
n = 10 * n + ( ch - '0' );
ch = static_cast<D>(*fmt++);
} while( is_digit( ch ) );
width = n;
goto reswitch;
case 'c':
CHECK_ARGS(0);
*buf_p++ = static_cast<D>(*get_amxaddr(amx, params[arg]));
arg++;
break;
case 'd':
case 'i':
CHECK_ARGS(0);
AddInt(&buf_p, llen, *get_amxaddr(amx, params[arg]), width, flags);
arg++;
break;
case 'f':
CHECK_ARGS(0);
AddFloat(&buf_p, llen, amx_ctof(*get_amxaddr(amx, params[arg])), width, prec);
arg++;
break;
case 's':
CHECK_ARGS(0);
AddString(&buf_p, llen, get_amxaddr(amx, params[arg]), width, prec);
arg++;
break;
case 'L':
{
CHECK_ARGS(1);
cell addr = params[arg++];
int len;
const char *key = get_amxstring(amx, params[arg++], 3, len);
const char *def = translate(amx, addr, key);
if (!def)
{
static char buf[255];
snprintf(buf, sizeof(buf)-1, "ML_NOTFOUND: %s", key);
def = buf;
}
size_t written = atcprintf(buf_p, llen, def, amx, params, &arg);
buf_p += written;
llen -= written;
break;
}
case '%':
*buf_p++ = static_cast<D>(ch);
if (!llen)
goto done;
llen--;
break;
case '\0':
*buf_p++ = static_cast<D>('%');
if (!llen)
goto done;
llen--;
goto done;
break;
default:
*buf_p++ = static_cast<D>(ch);
if (!llen)
goto done;
llen--;
break;
}
}
done:
*buf_p = static_cast<D>(0);
*param = arg;
return maxlen-llen;
}
/**
* HACKHACK: The compiler will generate code for each case we need.
* Don't remove this, otherwise files that use certain code generations
* will have extern problems. For each case you need, add dummy code
* here.
*/
void __WHOA_DONT_CALL_ME_PLZ_K_lol_o_O()
{
//acsprintf
atcprintf((cell *)NULL, 0, (const char *)NULL, NULL, NULL, NULL);
//accprintf
atcprintf((cell *)NULL, 0, (cell *)NULL, NULL, NULL, NULL);
//ascprintf
atcprintf((char *)NULL, 0, (cell *)NULL, NULL, NULL, NULL);
}

8
amxmodx/format.h
View File

@ -1,8 +0,0 @@
#ifndef _INCLUDE_FORMATTING_H
#define _INCLUDE_FORMATTING_H
//Amx Templatized Cell Printf
template <typename D, typename S>
size_t atcprintf(D *buffer, size_t maxlen, const S *format, AMX *amx, cell *params, int *param);
#endif //_INCLUDE_FORMATTING_H

1740
amxmodx/meta_api.cpp
View File

File diff suppressed because it is too large Load Diff

451
amxmodx/minilzo/lzoconf.h Executable file
View File

@ -0,0 +1,451 @@
/* lzoconf.h -- configuration for the LZO real-time data compression library
This file is part of the LZO real-time data compression library.
Copyright (C) 2002 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 2001 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 2000 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 1999 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 1998 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 1997 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 1996 Markus Franz Xaver Johannes Oberhumer
All Rights Reserved.
The LZO library 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.
The LZO library 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 the LZO library; see the file COPYING.
If not, write to the Free Software Foundation, Inc.,
59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
Markus F.X.J. Oberhumer
<markus@oberhumer.com>
http://www.oberhumer.com/opensource/lzo/
*/
#ifndef __LZOCONF_H
#define __LZOCONF_H
#define LZO_VERSION 0x1080
#define LZO_VERSION_STRING "1.08"
#define LZO_VERSION_DATE "Jul 12 2002"
/* internal Autoconf configuration file - only used when building LZO */
#if defined(LZO_HAVE_CONFIG_H)
# include <config.h>
#endif
#include <limits.h>
#ifdef __cplusplus
extern "C" {
#endif
/***********************************************************************
// LZO requires a conforming <limits.h>
************************************************************************/
#if !defined(CHAR_BIT) || (CHAR_BIT != 8)
# error "invalid CHAR_BIT"
#endif
#if !defined(UCHAR_MAX) || !defined(UINT_MAX) || !defined(ULONG_MAX)
# error "check your compiler installation"
#endif
#if (USHRT_MAX < 1) || (UINT_MAX < 1) || (ULONG_MAX < 1)
# error "your limits.h macros are broken"
#endif
/* workaround a cpp bug under hpux 10.20 */
#define LZO_0xffffffffL 4294967295ul
#if !defined(LZO_UINT32_C)
# if (UINT_MAX < LZO_0xffffffffL)
# define LZO_UINT32_C(c) c ## UL
# else
# define LZO_UINT32_C(c) c ## U
# endif
#endif
/***********************************************************************
// architecture defines
************************************************************************/
#if !defined(__LZO_WIN) && !defined(__LZO_DOS) && !defined(__LZO_OS2)
# if defined(__WINDOWS__) || defined(_WINDOWS) || defined(_Windows)
# define __LZO_WIN
# elif defined(__WIN32__) || defined(_WIN32) || defined(WIN32)
# define __LZO_WIN
# elif defined(__NT__) || defined(__NT_DLL__) || defined(__WINDOWS_386__)
# define __LZO_WIN
# elif defined(__DOS__) || defined(__MSDOS__) || defined(MSDOS)
# define __LZO_DOS
# elif defined(__OS2__) || defined(__OS2V2__) || defined(OS2)
# define __LZO_OS2
# elif defined(__palmos__)
# define __LZO_PALMOS
# elif defined(__TOS__) || defined(__atarist__)
# define __LZO_TOS
# endif
#endif
#if (UINT_MAX < LZO_0xffffffffL)
# if defined(__LZO_WIN)
# define __LZO_WIN16
# elif defined(__LZO_DOS)
# define __LZO_DOS16
# elif defined(__LZO_PALMOS)
# define __LZO_PALMOS16
# elif defined(__LZO_TOS)
# define __LZO_TOS16
# elif defined(__C166__)
# else
/* porting hint: for pure 16-bit architectures try compiling
* everything with -D__LZO_STRICT_16BIT */
# error "16-bit target not supported - contact me for porting hints"
# endif
#endif
#if !defined(__LZO_i386)
# if defined(__LZO_DOS) || defined(__LZO_WIN16)
# define __LZO_i386
# elif defined(__i386__) || defined(__386__) || defined(_M_IX86)
# define __LZO_i386
# endif
#endif
#if defined(__LZO_STRICT_16BIT)
# if (UINT_MAX < LZO_0xffffffffL)
# include <lzo16bit.h>
# endif
#endif
/* memory checkers */
#if !defined(__LZO_CHECKER)
# if defined(__BOUNDS_CHECKING_ON)
# define __LZO_CHECKER
# elif defined(__CHECKER__)
# define __LZO_CHECKER
# elif defined(__INSURE__)
# define __LZO_CHECKER
# elif defined(__PURIFY__)
# define __LZO_CHECKER
# endif
#endif
/***********************************************************************
// integral and pointer types
************************************************************************/
/* Integral types with 32 bits or more */
#if !defined(LZO_UINT32_MAX)
# if (UINT_MAX >= LZO_0xffffffffL)
typedef unsigned int lzo_uint32;
typedef int lzo_int32;
# define LZO_UINT32_MAX UINT_MAX
# define LZO_INT32_MAX INT_MAX
# define LZO_INT32_MIN INT_MIN
# elif (ULONG_MAX >= LZO_0xffffffffL)
typedef unsigned long lzo_uint32;
typedef long lzo_int32;
# define LZO_UINT32_MAX ULONG_MAX
# define LZO_INT32_MAX LONG_MAX
# define LZO_INT32_MIN LONG_MIN
# else
# error "lzo_uint32"
# endif
#endif
/* lzo_uint is used like size_t */
#if !defined(LZO_UINT_MAX)
# if (UINT_MAX >= LZO_0xffffffffL)
typedef unsigned int lzo_uint;
typedef int lzo_int;
# define LZO_UINT_MAX UINT_MAX
# define LZO_INT_MAX INT_MAX
# define LZO_INT_MIN INT_MIN
# elif (ULONG_MAX >= LZO_0xffffffffL)
typedef unsigned long lzo_uint;
typedef long lzo_int;
# define LZO_UINT_MAX ULONG_MAX
# define LZO_INT_MAX LONG_MAX
# define LZO_INT_MIN LONG_MIN
# else
# error "lzo_uint"
# endif
#endif
typedef int lzo_bool;
/***********************************************************************
// memory models
************************************************************************/
/* Memory model for the public code segment. */
#if !defined(__LZO_CMODEL)
# if defined(__LZO_DOS16) || defined(__LZO_WIN16)
# define __LZO_CMODEL __far
# elif defined(__LZO_i386) && defined(__WATCOMC__)
# define __LZO_CMODEL __near
# else
# define __LZO_CMODEL
# endif
#endif
/* Memory model for the public data segment. */
#if !defined(__LZO_DMODEL)
# if defined(__LZO_DOS16) || defined(__LZO_WIN16)
# define __LZO_DMODEL __far
# elif defined(__LZO_i386) && defined(__WATCOMC__)
# define __LZO_DMODEL __near
# else
# define __LZO_DMODEL
# endif
#endif
/* Memory model that allows to access memory at offsets of lzo_uint. */
#if !defined(__LZO_MMODEL)
# if (LZO_UINT_MAX <= UINT_MAX)
# define __LZO_MMODEL
# elif defined(__LZO_DOS16) || defined(__LZO_WIN16)
# define __LZO_MMODEL __huge
# define LZO_999_UNSUPPORTED
# elif defined(__LZO_PALMOS16) || defined(__LZO_TOS16)
# define __LZO_MMODEL
# else
# error "__LZO_MMODEL"
# endif
#endif
/* no typedef here because of const-pointer issues */
#define lzo_byte unsigned char __LZO_MMODEL
#define lzo_bytep unsigned char __LZO_MMODEL *
#define lzo_charp char __LZO_MMODEL *
#define lzo_voidp void __LZO_MMODEL *
#define lzo_shortp short __LZO_MMODEL *
#define lzo_ushortp unsigned short __LZO_MMODEL *
#define lzo_uint32p lzo_uint32 __LZO_MMODEL *
#define lzo_int32p lzo_int32 __LZO_MMODEL *
#define lzo_uintp lzo_uint __LZO_MMODEL *
#define lzo_intp lzo_int __LZO_MMODEL *
#define lzo_voidpp lzo_voidp __LZO_MMODEL *
#define lzo_bytepp lzo_bytep __LZO_MMODEL *
#ifndef lzo_sizeof_dict_t
# define lzo_sizeof_dict_t sizeof(lzo_bytep)
#endif
/***********************************************************************
// calling conventions and function types
************************************************************************/
/* linkage */
#if !defined(__LZO_EXTERN_C)
# ifdef __cplusplus
# define __LZO_EXTERN_C extern "C"
# else
# define __LZO_EXTERN_C extern
# endif
#endif
/* calling convention */
#if !defined(__LZO_CDECL)
# if defined(__LZO_DOS16) || defined(__LZO_WIN16)
# define __LZO_CDECL __LZO_CMODEL __cdecl
# elif defined(__LZO_i386) && defined(_MSC_VER)
# define __LZO_CDECL __LZO_CMODEL __cdecl
# elif defined(__LZO_i386) && defined(__WATCOMC__)
# define __LZO_CDECL __LZO_CMODEL __cdecl
# else
# define __LZO_CDECL __LZO_CMODEL
# endif
#endif
#if !defined(__LZO_ENTRY)
# define __LZO_ENTRY __LZO_CDECL
#endif
/* C++ exception specification for extern "C" function types */
#if !defined(__cplusplus)
# undef LZO_NOTHROW
# define LZO_NOTHROW
#elif !defined(LZO_NOTHROW)
# define LZO_NOTHROW
#endif
typedef int
(__LZO_ENTRY *lzo_compress_t) ( const lzo_byte *src, lzo_uint src_len,
lzo_byte *dst, lzo_uintp dst_len,
lzo_voidp wrkmem );
typedef int
(__LZO_ENTRY *lzo_decompress_t) ( const lzo_byte *src, lzo_uint src_len,
lzo_byte *dst, lzo_uintp dst_len,
lzo_voidp wrkmem );
typedef int
(__LZO_ENTRY *lzo_optimize_t) ( lzo_byte *src, lzo_uint src_len,
lzo_byte *dst, lzo_uintp dst_len,
lzo_voidp wrkmem );
typedef int
(__LZO_ENTRY *lzo_compress_dict_t)(const lzo_byte *src, lzo_uint src_len,
lzo_byte *dst, lzo_uintp dst_len,
lzo_voidp wrkmem,
const lzo_byte *dict, lzo_uint dict_len );
typedef int
(__LZO_ENTRY *lzo_decompress_dict_t)(const lzo_byte *src, lzo_uint src_len,
lzo_byte *dst, lzo_uintp dst_len,
lzo_voidp wrkmem,
const lzo_byte *dict, lzo_uint dict_len );
/* assembler versions always use __cdecl */
typedef int
(__LZO_CDECL *lzo_compress_asm_t)( const lzo_byte *src, lzo_uint src_len,
lzo_byte *dst, lzo_uintp dst_len,
lzo_voidp wrkmem );
typedef int
(__LZO_CDECL *lzo_decompress_asm_t)( const lzo_byte *src, lzo_uint src_len,
lzo_byte *dst, lzo_uintp dst_len,
lzo_voidp wrkmem );
/* a progress indicator callback function */
typedef void (__LZO_ENTRY *lzo_progress_callback_t) (lzo_uint, lzo_uint);
/***********************************************************************
// export information
************************************************************************/
/* DLL export information */
#if !defined(__LZO_EXPORT1)
# define __LZO_EXPORT1
#endif
#if !defined(__LZO_EXPORT2)
# define __LZO_EXPORT2
#endif
/* exported calling convention for C functions */
#if !defined(LZO_PUBLIC)
# define LZO_PUBLIC(_rettype) \
__LZO_EXPORT1 _rettype __LZO_EXPORT2 __LZO_ENTRY
#endif
#if !defined(LZO_EXTERN)
# define LZO_EXTERN(_rettype) __LZO_EXTERN_C LZO_PUBLIC(_rettype)
#endif
#if !defined(LZO_PRIVATE)
# define LZO_PRIVATE(_rettype) static _rettype __LZO_ENTRY
#endif
/* exported __cdecl calling convention for assembler functions */
#if !defined(LZO_PUBLIC_CDECL)
# define LZO_PUBLIC_CDECL(_rettype) \
__LZO_EXPORT1 _rettype __LZO_EXPORT2 __LZO_CDECL
#endif
#if !defined(LZO_EXTERN_CDECL)
# define LZO_EXTERN_CDECL(_rettype) __LZO_EXTERN_C LZO_PUBLIC_CDECL(_rettype)
#endif
/* exported global variables (LZO currently uses no static variables and
* is fully thread safe) */
#if !defined(LZO_PUBLIC_VAR)
# define LZO_PUBLIC_VAR(_type) \
__LZO_EXPORT1 _type __LZO_EXPORT2 __LZO_DMODEL
#endif
#if !defined(LZO_EXTERN_VAR)
# define LZO_EXTERN_VAR(_type) extern LZO_PUBLIC_VAR(_type)
#endif
/***********************************************************************
// error codes and prototypes
************************************************************************/
/* Error codes for the compression/decompression functions. Negative
* values are errors, positive values will be used for special but
* normal events.
*/
#define LZO_E_OK 0
#define LZO_E_ERROR (-1)
#define LZO_E_OUT_OF_MEMORY (-2) /* not used right now */
#define LZO_E_NOT_COMPRESSIBLE (-3) /* not used right now */
#define LZO_E_INPUT_OVERRUN (-4)
#define LZO_E_OUTPUT_OVERRUN (-5)
#define LZO_E_LOOKBEHIND_OVERRUN (-6)
#define LZO_E_EOF_NOT_FOUND (-7)
#define LZO_E_INPUT_NOT_CONSUMED (-8)
/* lzo_init() should be the first function you call.
* Check the return code !
*
* lzo_init() is a macro to allow checking that the library and the
* compiler's view of various types are consistent.
*/
#define lzo_init() __lzo_init2(LZO_VERSION,(int)sizeof(short),(int)sizeof(int),\
(int)sizeof(long),(int)sizeof(lzo_uint32),(int)sizeof(lzo_uint),\
(int)lzo_sizeof_dict_t,(int)sizeof(char *),(int)sizeof(lzo_voidp),\
(int)sizeof(lzo_compress_t))
LZO_EXTERN(int) __lzo_init2(unsigned,int,int,int,int,int,int,int,int,int);
/* version functions (useful for shared libraries) */
LZO_EXTERN(unsigned) lzo_version(void);
LZO_EXTERN(const char *) lzo_version_string(void);
LZO_EXTERN(const char *) lzo_version_date(void);
LZO_EXTERN(const lzo_charp) _lzo_version_string(void);
LZO_EXTERN(const lzo_charp) _lzo_version_date(void);
/* string functions */
LZO_EXTERN(int)
lzo_memcmp(const lzo_voidp _s1, const lzo_voidp _s2, lzo_uint _len);
LZO_EXTERN(lzo_voidp)
lzo_memcpy(lzo_voidp _dest, const lzo_voidp _src, lzo_uint _len);
LZO_EXTERN(lzo_voidp)
lzo_memmove(lzo_voidp _dest, const lzo_voidp _src, lzo_uint _len);
LZO_EXTERN(lzo_voidp)
lzo_memset(lzo_voidp _s, int _c, lzo_uint _len);
/* checksum functions */
LZO_EXTERN(lzo_uint32)
lzo_adler32(lzo_uint32 _adler, const lzo_byte *_buf, lzo_uint _len);
LZO_EXTERN(lzo_uint32)
lzo_crc32(lzo_uint32 _c, const lzo_byte *_buf, lzo_uint _len);
/* misc. */
LZO_EXTERN(lzo_bool) lzo_assert(int _expr);
LZO_EXTERN(int) _lzo_config_check(void);
typedef union { lzo_bytep p; lzo_uint u; } __lzo_pu_u;
typedef union { lzo_bytep p; lzo_uint32 u32; } __lzo_pu32_u;
typedef union { void *vp; lzo_bytep bp; lzo_uint32 u32; long l; } lzo_align_t;
/* align a char pointer on a boundary that is a multiple of `size' */
LZO_EXTERN(unsigned) __lzo_align_gap(const lzo_voidp _ptr, lzo_uint _size);
#define LZO_PTR_ALIGN_UP(_ptr,_size) \
((_ptr) + (lzo_uint) __lzo_align_gap((const lzo_voidp)(_ptr),(lzo_uint)(_size)))
/* deprecated - only for backward compatibility */
#define LZO_ALIGN(_ptr,_size) LZO_PTR_ALIGN_UP(_ptr,_size)
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* already included */

2935
amxmodx/minilzo/minilzo.c Executable file
View File

File diff suppressed because it is too large Load Diff

100
amxmodx/minilzo/minilzo.h Executable file
View File

@ -0,0 +1,100 @@
/* minilzo.h -- mini subset of the LZO real-time data compression library
This file is part of the LZO real-time data compression library.
Copyright (C) 2002 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 2001 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 2000 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 1999 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 1998 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 1997 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 1996 Markus Franz Xaver Johannes Oberhumer
All Rights Reserved.
The LZO library 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.
The LZO library 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 the LZO library; see the file COPYING.
If not, write to the Free Software Foundation, Inc.,
59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
Markus F.X.J. Oberhumer
<markus@oberhumer.com>
http://www.oberhumer.com/opensource/lzo/
*/
/*
* NOTE:
* the full LZO package can be found at
* http://www.oberhumer.com/opensource/lzo/
*/
#ifndef __MINILZO_H
#define __MINILZO_H
#define MINILZO_VERSION 0x1080
#ifdef __LZOCONF_H
# error "you cannot use both LZO and miniLZO"
#endif
#undef LZO_HAVE_CONFIG_H
#include "lzoconf.h"
#if !defined(LZO_VERSION) || (LZO_VERSION != MINILZO_VERSION)
# error "version mismatch in header files"
#endif
#ifdef __cplusplus
extern "C" {
#endif
/***********************************************************************
//
************************************************************************/
/* Memory required for the wrkmem parameter.
* When the required size is 0, you can also pass a NULL pointer.
*/
#define LZO1X_MEM_COMPRESS LZO1X_1_MEM_COMPRESS
#define LZO1X_1_MEM_COMPRESS ((lzo_uint32) (16384L * lzo_sizeof_dict_t))
#define LZO1X_MEM_DECOMPRESS (0)
/* compression */
LZO_EXTERN(int)
lzo1x_1_compress ( const lzo_byte *src, lzo_uint src_len,
lzo_byte *dst, lzo_uintp dst_len,
lzo_voidp wrkmem );
/* decompression */
LZO_EXTERN(int)
lzo1x_decompress ( const lzo_byte *src, lzo_uint src_len,
lzo_byte *dst, lzo_uintp dst_len,
lzo_voidp wrkmem /* NOT USED */ );
/* safe decompression with overrun testing */
LZO_EXTERN(int)
lzo1x_decompress_safe ( const lzo_byte *src, lzo_uint src_len,
lzo_byte *dst, lzo_uintp dst_len,
lzo_voidp wrkmem /* NOT USED */ );
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* already included */

25
amxmodx/mmgr/mmgr.cpp
View File

@ -930,11 +930,7 @@ void *m_allocator(const char *sourceFile, const unsigned int sourceLine, const c
// Danger Will Robinson! // Danger Will Robinson!
if (reservoir == NULL) if (reservoir == NULL) throw "Unable to allocate RAM for internal memory tracking data";
{
log("%s: Unable to allocate RAM for internal memory tracking data", ownerString(sourceFile, sourceLine, sourceFunc));
throw "Unable to allocate RAM for internal memory tracking data";
}
// Build a linked-list of the elements in our reservoir // Build a linked-list of the elements in our reservoir
@ -1002,7 +998,6 @@ void *m_allocator(const char *sourceFile, const unsigned int sourceLine, const c
if (au->actualAddress == NULL) if (au->actualAddress == NULL)
{ {
log("%s: Request for allocation failed. Out of memory.", ownerString(sourceFile, sourceLine, sourceFunc));
throw "Request for allocation failed. Out of memory."; throw "Request for allocation failed. Out of memory.";
} }
@ -1113,11 +1108,7 @@ void *m_reallocator(const char *sourceFile, const unsigned int sourceLine, const
// If you hit this assert, you tried to reallocate RAM that wasn't allocated by this memory manager. // If you hit this assert, you tried to reallocate RAM that wasn't allocated by this memory manager.
m_assert(au != NULL); m_assert(au != NULL);
if (au == NULL) if (au == NULL) throw "Request to reallocate RAM that was never allocated";
{
log("%s: Request to reallocate RAM that was never allocated", ownerString(sourceFile, sourceLine, sourceFunc));
throw "Request to reallocate RAM that was never allocated";
}
// If you hit this assert, then the allocation unit that is about to be reallocated is damaged. But you probably // If you hit this assert, then the allocation unit that is about to be reallocated is damaged. But you probably
// already know that from a previous assert you should have seen in validateAllocUnit() :) // already know that from a previous assert you should have seen in validateAllocUnit() :)
@ -1171,11 +1162,7 @@ void *m_reallocator(const char *sourceFile, const unsigned int sourceLine, const
m_assert(newActualAddress); m_assert(newActualAddress);
#endif #endif
if (!newActualAddress) if (!newActualAddress) throw "Request for reallocation failed. Out of memory.";
{
log("%s: Request for reallocation failed. Out of memory", ownerString(sourceFile, sourceLine, sourceFunc));
throw "Request for reallocation failed. Out of memory.";
}
// Remove this allocation from our stats (we'll add the new reallocation again later) // Remove this allocation from our stats (we'll add the new reallocation again later)
@ -1304,11 +1291,7 @@ void m_deallocator(const char *sourceFile, const unsigned int sourceLine, const
// If you hit this assert, you tried to deallocate RAM that wasn't allocated by this memory manager. // If you hit this assert, you tried to deallocate RAM that wasn't allocated by this memory manager.
m_assert(au != NULL); m_assert(au != NULL);
if (au == NULL) if (au == NULL) throw "Request to deallocate RAM that was never allocated";
{
log("%s: Request to deallocate RAM that was never allocated", ownerString(sourceFile, sourceLine, sourceFunc));
throw "Request to deallocate RAM that was never allocated";
}
// If you hit this assert, then the allocation unit that is about to be deallocated is damaged. But you probably // If you hit this assert, then the allocation unit that is about to be deallocated is damaged. But you probably
// already know that from a previous assert you should have seen in validateAllocUnit() :) // already know that from a previous assert you should have seen in validateAllocUnit() :)

1574
amxmodx/modules.cpp
View File

File diff suppressed because it is too large Load Diff

158
amxmodx/modules.h
View File

@ -36,48 +36,144 @@
#undef DLLEXPORT #undef DLLEXPORT
#ifndef __linux__ #ifndef __linux__
#define DLLEXPORT __declspec(dllexport) #define DLLEXPORT __declspec(dllexport)
#else #else
#define DLLEXPORT #define DLLEXPORT
#define WINAPI #define WINAPI
#endif #endif
#undef C_DLLEXPORT #undef C_DLLEXPORT
#define C_DLLEXPORT extern "C" DLLEXPORT #define C_DLLEXPORT extern "C" DLLEXPORT
#define AMX_INTERFACE_VERSION 6
#define RELOAD_MODULE 0 #define RELOAD_MODULE 0
#define STATIC_MODULE 1 #define STATIC_MODULE 1
typedef enum struct module_info_s {
{ const char* name;
Player_Name, //String const char* author;
Player_Ip, //String const char* version;
Player_Team, //String int ivers;
Player_Ingame, //bool int type;
Player_Authorized, //bool long int serial;
Player_Vgui, //bool };
Player_Time, //float
Player_Playtime, //float
Player_MenuExpire, //float
Player_Weapons, //struct{int,int}[32]
Player_CurrentWeapon, //int
Player_TeamID, //int
Player_Deaths, //int
Player_Aiming, //int
Player_Menu, //int
Player_Keys, //int
Player_Flags, //int[32]
Player_Newmenu, //int
Player_NewmenuPage, //int
} PlayerProp;
int CheckModules(AMX *amx, char error[128]); // Small scripting language
const char *StrCaseStr(const char *as, const char *bs); struct pfnamx_engine_g {
uint16_t* (*pfnamx_Align16)(uint16_t *); // value
uint32_t* (*pfnamx_Align32)(uint32_t *); // value
int (*pfnamx_Allot)(AMX*, int, cell*, cell**); // amx, length, amx_addr, phys_addr
int (*pfnamx_Callback)(AMX*, cell , cell*, cell*); // amx, index,result,params
int (*pfnamx_Clone)(AMX*, AMX*, void*); // amxClone, amxSrc, data
int (*pfnamx_Debug)(AMX*); // default debug procedure, does nothing // amx
int (*pfnamx_Exec)(AMX*, cell*, int , int , ...); // amx, return val, index, num_params, ...
int (*pfnamx_Execv)(AMX*, cell*, int , int, cell[]); // amx, return val, index, num_params, param[]
int (*pfnamx_FindPublic)(AMX*, char*, int*); // amx, func name, index
int (*pfnamx_FindPubVar)(AMX*, char*, cell*); // anx, var name, amx_addr
int (*pfnamx_FindTagId)(AMX*, cell , char*); // amx. tag_id, tagname
int (*pfnamx_Flags)(AMX*,uint16_t *); // amx, flags
int (*pfnamx_GetAddr)(AMX*,cell ,cell**); // amx, amx_addr, phys_addr
int (*pfnamx_GetPublic)(AMX*, int , char*); // amx, index, funcname
int (*pfnamx_GetPubVar)(AMX*, int , char*, cell*); // amx, index, varname, amx_addr
int (*pfnamx_GetString)(char*dest,cell*); // dest, source
int (*pfnamx_GetTag)(AMX*, int , char*, cell*); // amx, index, tagname, tag_id
int (*pfnamx_GetUserData)(AMX*, long , void **); // amx, tag, ptr
int (*pfnamx_Init)(AMX*, void *); // amx, program
int (*pfnamx_InitJIT)(AMX*, void *, void *); // amx, reloc_table, native_code
int (*pfnamx_MemInfo)(AMX*, long*, long*, long*); // amx, codesize, datasize, stackheap
int (*pfnamx_NameLength)(AMX*, int*); // amx, length
AMX_NATIVE_INFO * (*pfnamx_NativeInfo)(char*,AMX_NATIVE ); // name, func
int (*pfnamx_NumPublics)(AMX*, int*); // amx, number
int (*pfnamx_NumPubVars)(AMX*, int*); // amx, number
int (*pfnamx_NumTags)(AMX*, int*); // amx, number
int (*pfnamx_RaiseError)(AMX*, int ); // amx, error
int (*pfnamx_Register)(AMX*, AMX_NATIVE_INFO*, int ); // amx, nativelist, number
int (*pfnamx_Release)(AMX*, cell ); // amx, amx_addr
int (*pfnamx_SetCallback)(AMX*, AMX_CALLBACK ); // amx, callback
int (*pfnamx_SetDebugHook)(AMX*, AMX_DEBUG ); // amx, debug
int (*pfnamx_SetString)(cell*, char*, int ); // dest, source, pack
int (*pfnamx_SetUserData)(AMX*, long , void*); // amx, tag, prt
int (*pfnamx_StrLen)(cell*, int*); // amx, cstring, length
};
extern pfnamx_engine_g* g_engAmxFunc;
class Debugger; #define AMX_ALIGN16 (*g_engAmxFunc->pfnamx_Align16)
Debugger *DisableDebugHandler(AMX *amx); #define AMX_ALIGN32 (*g_engAmxFunc->pfnamx_Align32)
void EnableDebugHandler(AMX *amx, Debugger *pd); #define AMX_ALLOT (*g_engAmxFunc->pfnamx_Allot)
#define AMX_CALLBACK (*g_engAmxFunc->pfnamx_Callback)
#define AMX_CLONE (*g_engAmxFunc->pfnamx_Clone)
#define AMX_DEBUG (*g_engAmxFunc->pfnamx_Debug)
#define AMX_EXEC (*g_engAmxFunc->pfnamx_Exec)
#define AMX_EXECV (*g_engAmxFunc->pfnamx_Execv)
#define AMX_FINDPUBLIC (*g_engAmxFunc->pfnamx_FindPublic)
#define AMX_FINDPUBVAR (*g_engAmxFunc->pfnamx_FindPubVar)
#define AMX_FINDTAGID (*g_engAmxFunc->pfnamx_FindTagId)
#define AMX_FLAGS (*g_engAmxFunc->pfnamx_Flags)
#define AMX_GETADDR (*g_engAmxFunc->pfnamx_GetAddr)
#define AMX_GETPUBLIC (*g_engAmxFunc->pfnamx_GetPublic)
#define AMX_GETPUBVAR (*g_engAmxFunc->pfnamx_GetPubVar)
#define AMX_GETSTRING (*g_engAmxFunc->pfnamx_GetString)
#define AMX_GETTAG (*g_engAmxFunc->pfnamx_GetTag)
#define AMX_GETUSERDATA (*g_engAmxFunc->pfnamx_GetUserData)
#define AMX_INIT (*g_engAmxFunc->pfnamx_Init)
#define AMX_INITJIT (*g_engAmxFunc->pfnamx_InitJIT)
#define AMX_MEMINFO (*g_engAmxFunc->pfnamx_MemInfo)
#define AMX_NAMELENGTH (*g_engAmxFunc->pfnamx_NameLength)
#define AMX_NATIVEINFO (*g_engAmxFunc->pfnamx_NativeInfo)
#define AMX_NUMPUBLICS (*g_engAmxFunc->pfnamx_NumPublics)
#define AMX_NUMPUBVARS (*g_engAmxFunc->pfnamx_NumPubVars)
#define AMX_NUMTAGS (*g_engAmxFunc->pfnamx_NumTags)
#define AMX_RAISEERROR (*g_engAmxFunc->pfnamx_RaiseError)
#define AMX_REGISTER (*g_engAmxFunc->pfnamx_Register)
#define AMX_RELEASE (*g_engAmxFunc->pfnamx_Release)
#define AMX_SETCALLBACK (*g_engAmxFunc->pfnamx_SetCallback)
#define AMX_SETDEBUGHOOK (*g_engAmxFunc->pfnamx_SetDebugHook)
#define AMX_SETSTRING (*g_engAmxFunc->pfnamx_SetString)
#define AMX_SETUSERDATA (*g_engAmxFunc->pfnamx_SetUserData)
#define AMX_STRLEN (*g_engAmxFunc->pfnamx_StrLen)
// Modules API
struct pfnmodule_engine_g {
int (*pfnadd_amxnatives)(module_info_s*,AMX_NATIVE_INFO*); // list
char* (*pfnbuild_pathname)(char*, ...); // format, ....
void (*pfncopy_amxmemory)(cell*,cell*,int); // dest, src, len
char* (*pfnformat_amxstring)(AMX*, cell*, int ,int& ); // amx, format, start pos, len
cell* (*pfnget_amxaddr)(AMX*,cell ); // amx, cell
AMX* (*pfnget_amxscript)(int, void**,const char**); // id, code, name
const char* (*pfnget_amxscriptname)(AMX* amx); // amx
char* (*pfnget_amxstring)(AMX*,cell,int, int&); // amx, src, buffer (0-3), len
void (*pfnget_modname)(char*); // modname
int (*pfnload_amxscript)(AMX*, void**, const char*, char[64]); // amx, code, path, error info
void (*pfnprint_console)(char*, ...); // format, ....
void (*pfnreport_error)(int code, char*, ... );
int (*pfnset_amxnatives)(AMX*,char[64]); // amx, error info
int (*pfnset_amxstring)(AMX*,cell ,const char*,int); // amx, dest, string, maxlen
int (*pfnamxstring_length)(cell*); // src
int (*pfnunload_amxscript)(AMX* amx,void**); // amx, code
void* (*pfnalloc_amxmemory)(void**,int size);
void (*pfnfree_amxmemory)(void**);
};
extern pfnmodule_engine_g* g_engModuleFunc;
#define ADD_AMXNATIVES (*g_engModuleFunc->pfnadd_amxnatives)
#define AMXSTRING_LENGTH (*g_engModuleFunc->pfnamxstring_length)
#define BUILD_PATHNAME (*g_engModuleFunc->pfnbuild_pathname)
#define COPY_AMXMEMORY (*g_engModuleFunc->pfncopy_amxmemory)
#define FORMAT_AMXSTRING (*g_engModuleFunc->pfnformat_amxstring)
#define GET_AMXADDR (*g_engModuleFunc->pfnget_amxaddr)
#define GET_AMXSCRIPT (*g_engModuleFunc->pfnget_amxscript)
#define GET_AMXSCRIPTNAME (*g_engModuleFunc->pfnget_amxscriptname)
#define GET_AMXSTRING (*g_engModuleFunc->pfnget_amxstring)
#define GET_MODNAME (*g_engModuleFunc->pfnget_modname)
#define LOAD_AMXSCRIPT (*g_engModuleFunc->pfnload_amxscript)
#define PRINT_CONSOLE (*g_engModuleFunc->pfnprint_console)
#define REPORT_ERROR (*g_engModuleFunc->pfnreport_error)
#define SET_AMXNATIVES (*g_engModuleFunc->pfnset_amxnatives)
#define SET_AMXSTRING (*g_engModuleFunc->pfnset_amxstring)
#define UNLOAD_AMXSCRIPT (*g_engModuleFunc->pfnunload_amxscript)
#define ALLOC_AMXMEMORY (*g_engModuleFunc->pfnalloc_amxmemory)
#define FREE_AMXMEMORY (*g_engModuleFunc->pfnfree_amxmemory)
const char* GetFileName(AMX *amx);
#endif // __MODULES_H__ #endif // __MODULES_H__

226
amxmodx/msvc/amxmodx_mm.vcproj → amxmodx/msvc/amxmodx.vcproj
View File

@ -42,13 +42,12 @@
<Tool <Tool
Name="VCLinkerTool" Name="VCLinkerTool"
AdditionalOptions="/MACHINE:I386" AdditionalOptions="/MACHINE:I386"
AdditionalDependencies="..\JIT\natives-x86.obj ..\zlib\zlib.lib" AdditionalDependencies="odbc32.lib odbccp32.lib"
OutputFile="debug/amxmodx_mm.dll" OutputFile="debug/amxx_mm.dll"
Version="0.1" Version="0.1"
LinkIncremental="1" LinkIncremental="1"
SuppressStartupBanner="TRUE" SuppressStartupBanner="TRUE"
AdditionalLibraryDirectories="..\extra\lib_win32" AdditionalLibraryDirectories="..\extra\lib_win32"
IgnoreDefaultLibraryNames="MSVCRT"
ModuleDefinitionFile="" ModuleDefinitionFile=""
GenerateDebugInformation="TRUE" GenerateDebugInformation="TRUE"
ProgramDatabaseFile=".\debug/amxx_mm.pdb" ProgramDatabaseFile=".\debug/amxx_mm.pdb"
@ -113,12 +112,11 @@
<Tool <Tool
Name="VCLinkerTool" Name="VCLinkerTool"
AdditionalOptions="/MACHINE:I386" AdditionalOptions="/MACHINE:I386"
AdditionalDependencies="odbc32.lib odbccp32.lib ..\zlib\zlib.lib ..\JIT\natives-x86.obj" AdditionalDependencies="odbc32.lib odbccp32.lib"
OutputFile="release/amxmodx_mm.dll" OutputFile="release/amxx_mm.dll"
LinkIncremental="1" LinkIncremental="1"
SuppressStartupBanner="TRUE" SuppressStartupBanner="TRUE"
AdditionalLibraryDirectories="..\extra\lib_win32" AdditionalLibraryDirectories="..\extra\lib_win32"
IgnoreDefaultLibraryNames="LIBC"
ModuleDefinitionFile="" ModuleDefinitionFile=""
ProgramDatabaseFile=".\release/amxx_mm.pdb" ProgramDatabaseFile=".\release/amxx_mm.pdb"
ImportLibrary=".\release/amxx_mm.lib"/> ImportLibrary=".\release/amxx_mm.lib"/>
@ -164,7 +162,7 @@
AdditionalIncludeDirectories="&quot;C:\Hry\Half-Life\SDK\Multiplayer Source\pm_shared&quot;;&quot;C:\Hry\Half-Life\SDK\Multiplayer Source\dlls&quot;;&quot;C:\Hry\Half-Life\SDK\Multiplayer Source\engine&quot;;&quot;C:\Hry\Half-Life\SDK\Multiplayer Source\common&quot;;C:\Files\Programming\metamod\metamod" AdditionalIncludeDirectories="&quot;C:\Hry\Half-Life\SDK\Multiplayer Source\pm_shared&quot;;&quot;C:\Hry\Half-Life\SDK\Multiplayer Source\dlls&quot;;&quot;C:\Hry\Half-Life\SDK\Multiplayer Source\engine&quot;;&quot;C:\Hry\Half-Life\SDK\Multiplayer Source\common&quot;;C:\Files\Programming\metamod\metamod"
PreprocessorDefinitions="WIN32;_DEBUG;_WINDOWS;_USRDLL;amxmodx_EXPORTS;MEMORY_TEST" PreprocessorDefinitions="WIN32;_DEBUG;_WINDOWS;_USRDLL;amxmodx_EXPORTS;MEMORY_TEST"
BasicRuntimeChecks="3" BasicRuntimeChecks="3"
RuntimeLibrary="3" RuntimeLibrary="5"
StructMemberAlignment="3" StructMemberAlignment="3"
UsePrecompiledHeader="2" UsePrecompiledHeader="2"
PrecompiledHeaderThrough="amxmodx.h" PrecompiledHeaderThrough="amxmodx.h"
@ -181,13 +179,12 @@
<Tool <Tool
Name="VCLinkerTool" Name="VCLinkerTool"
AdditionalOptions="/MACHINE:I386" AdditionalOptions="/MACHINE:I386"
AdditionalDependencies="odbc32.lib odbccp32.lib ..\zlib\zlib.lib ..\JIT\natives-x86.obj" AdditionalDependencies="odbc32.lib odbccp32.lib"
OutputFile="memtestdebug/amxmodx_mm.dll" OutputFile="memtestdebug/amxx_mm.dll"
Version="1.6.5.0" Version="0.1"
LinkIncremental="2" LinkIncremental="2"
SuppressStartupBanner="TRUE" SuppressStartupBanner="TRUE"
AdditionalLibraryDirectories="..\extra\lib_win32" AdditionalLibraryDirectories="..\extra\lib_win32"
IgnoreDefaultLibraryNames="MSVCRT"
ModuleDefinitionFile="" ModuleDefinitionFile=""
GenerateDebugInformation="TRUE" GenerateDebugInformation="TRUE"
ProgramDatabaseFile=".\memtestdebug/amxx_mm.pdb" ProgramDatabaseFile=".\memtestdebug/amxx_mm.pdb"
@ -252,17 +249,13 @@
<Tool <Tool
Name="VCLinkerTool" Name="VCLinkerTool"
AdditionalOptions="/MACHINE:I386" AdditionalOptions="/MACHINE:I386"
AdditionalDependencies="odbc32.lib odbccp32.lib ..\zlib\zlib.lib ..\JIT\natives-x86.obj" AdditionalDependencies="odbc32.lib odbccp32.lib"
OutputFile="memtestrelease/amxmodx_mm.dll" OutputFile="memtestrelease/amxx_mm.dll"
LinkIncremental="1" LinkIncremental="1"
SuppressStartupBanner="TRUE" SuppressStartupBanner="TRUE"
AdditionalLibraryDirectories="..\extra\lib_win32" AdditionalLibraryDirectories="..\extra\lib_win32"
IgnoreDefaultLibraryNames="MSVCRT"
ModuleDefinitionFile="" ModuleDefinitionFile=""
GenerateDebugInformation="TRUE"
ProgramDatabaseFile=".\memtestrelease/amxx_mm.pdb" ProgramDatabaseFile=".\memtestrelease/amxx_mm.pdb"
GenerateMapFile="TRUE"
MapExports="TRUE"
ImportLibrary=".\memtestrelease/amxx_mm.lib"/> ImportLibrary=".\memtestrelease/amxx_mm.lib"/>
<Tool <Tool
Name="VCMIDLTool" Name="VCMIDLTool"
@ -303,8 +296,8 @@
<Tool <Tool
Name="VCCLCompilerTool" Name="VCCLCompilerTool"
Optimization="0" Optimization="0"
AdditionalIncludeDirectories="" AdditionalIncludeDirectories="&quot;C:\Hry\Half-Life\SDK\Multiplayer Source\pm_shared&quot;;&quot;C:\Hry\Half-Life\SDK\Multiplayer Source\dlls&quot;;&quot;C:\Hry\Half-Life\SDK\Multiplayer Source\engine&quot;;&quot;C:\Hry\Half-Life\SDK\Multiplayer Source\common&quot;;C:\Files\Programming\metamod\metamod"
PreprocessorDefinitions="WIN32;_DEBUG;_WINDOWS;_USRDLL;amxmodx_EXPORTS;PAWN_CELL_SIZE=32;ASM32;JIT" PreprocessorDefinitions="WIN32;_DEBUG;_WINDOWS;_USRDLL;amxmodx_EXPORTS;JIT"
BasicRuntimeChecks="3" BasicRuntimeChecks="3"
RuntimeLibrary="5" RuntimeLibrary="5"
StructMemberAlignment="3" StructMemberAlignment="3"
@ -323,13 +316,12 @@
<Tool <Tool
Name="VCLinkerTool" Name="VCLinkerTool"
AdditionalOptions="/MACHINE:I386" AdditionalOptions="/MACHINE:I386"
AdditionalDependencies="..\zlib\zlib.lib ..\JIT\amxjitsn.obj ..\JIT\amxexecn.obj ..\JIT\natives-x86.obj" AdditionalDependencies="odbc32.lib odbccp32.lib ..\jit\jits.lib"
OutputFile="jitdebug/amxmodx_mm.dll" OutputFile="jitdebug/amxx_mm.dll"
Version="0.1" Version="0.1"
LinkIncremental="1" LinkIncremental="1"
SuppressStartupBanner="TRUE" SuppressStartupBanner="TRUE"
AdditionalLibraryDirectories="..\extra\lib_win32" AdditionalLibraryDirectories="..\extra\lib_win32"
IgnoreDefaultLibraryNames="MSVCRT"
ModuleDefinitionFile="" ModuleDefinitionFile=""
GenerateDebugInformation="TRUE" GenerateDebugInformation="TRUE"
ProgramDatabaseFile=".\jitdebug/amxx_mm.pdb" ProgramDatabaseFile=".\jitdebug/amxx_mm.pdb"
@ -372,16 +364,11 @@
CharacterSet="2"> CharacterSet="2">
<Tool <Tool
Name="VCCLCompilerTool" Name="VCCLCompilerTool"
Optimization="2"
GlobalOptimizations="TRUE" GlobalOptimizations="TRUE"
InlineFunctionExpansion="1" InlineFunctionExpansion="1"
EnableIntrinsicFunctions="TRUE"
FavorSizeOrSpeed="1" FavorSizeOrSpeed="1"
OmitFramePointers="TRUE"
OptimizeForProcessor="0"
AdditionalIncludeDirectories="..\..\metamod\metamod,..\..\hlsdk\sourcecode\common,..\..\hlsdk\sourcecode\engine,..\..\hlsdk\sourcecode\dlls,..\..\hlsdk\sourcecode\pm_shared,..\extra\include" AdditionalIncludeDirectories="..\..\metamod\metamod,..\..\hlsdk\sourcecode\common,..\..\hlsdk\sourcecode\engine,..\..\hlsdk\sourcecode\dlls,..\..\hlsdk\sourcecode\pm_shared,..\extra\include"
PreprocessorDefinitions="WIN32;NDEBUG;_WINDOWS;_USRDLL;amxmodx_EXPORTS;JIT;ASM32;PAWN_CELL_SIZE=32" PreprocessorDefinitions="WIN32;NDEBUG;_WINDOWS;_USRDLL;amxmodx_EXPORTS;JIT"
IgnoreStandardIncludePath="FALSE"
StringPooling="TRUE" StringPooling="TRUE"
RuntimeLibrary="4" RuntimeLibrary="4"
EnableFunctionLevelLinking="TRUE" EnableFunctionLevelLinking="TRUE"
@ -393,23 +380,19 @@
ProgramDataBaseFileName=".\jitrelease/" ProgramDataBaseFileName=".\jitrelease/"
WarningLevel="3" WarningLevel="3"
SuppressStartupBanner="TRUE" SuppressStartupBanner="TRUE"
DebugInformationFormat="3"
CompileAs="0"/> CompileAs="0"/>
<Tool <Tool
Name="VCCustomBuildTool"/> Name="VCCustomBuildTool"/>
<Tool <Tool
Name="VCLinkerTool" Name="VCLinkerTool"
AdditionalOptions="/MACHINE:I386" AdditionalOptions="/MACHINE:I386"
AdditionalDependencies="..\zlib\zlib.lib ..\JIT\amxjitsn.obj ..\JIT\amxexecn.obj ..\JIT\natives-x86.obj" AdditionalDependencies="odbc32.lib odbccp32.lib ..\jit\jits.lib"
OutputFile="jitrelease/amxmodx_mm.dll" OutputFile="jitrelease/amxx_mm.dll"
LinkIncremental="1" LinkIncremental="1"
SuppressStartupBanner="TRUE" SuppressStartupBanner="TRUE"
AdditionalLibraryDirectories="..\extra\lib_win32" AdditionalLibraryDirectories="..\extra\lib_win32"
IgnoreDefaultLibraryNames="MSVCRT"
ModuleDefinitionFile="" ModuleDefinitionFile=""
GenerateDebugInformation="TRUE" ProgramDatabaseFile=".\jitrelease/amxx_mm.pdb"
ProgramDatabaseFile=".\jitrelease/amxmodx_mm.pdb"
GenerateMapFile="TRUE"
ImportLibrary=".\jitrelease/amxx_mm.lib"/> ImportLibrary=".\jitrelease/amxx_mm.lib"/>
<Tool <Tool
Name="VCMIDLTool" Name="VCMIDLTool"
@ -453,7 +436,7 @@
InlineFunctionExpansion="1" InlineFunctionExpansion="1"
FavorSizeOrSpeed="1" FavorSizeOrSpeed="1"
AdditionalIncludeDirectories="..\..\metamod\metamod,..\..\hlsdk\sourcecode\common,..\..\hlsdk\sourcecode\engine,..\..\hlsdk\sourcecode\dlls,..\..\hlsdk\sourcecode\pm_shared,..\extra\include" AdditionalIncludeDirectories="..\..\metamod\metamod,..\..\hlsdk\sourcecode\common,..\..\hlsdk\sourcecode\engine,..\..\hlsdk\sourcecode\dlls,..\..\hlsdk\sourcecode\pm_shared,..\extra\include"
PreprocessorDefinitions="WIN32;NDEBUG;_WINDOWS;_USRDLL;amxmodx_EXPORTS;MEMORY_TEST;JIT;ASM32;PAWN_CELL_SIZE=32" PreprocessorDefinitions="WIN32;NDEBUG;_WINDOWS;_USRDLL;amxmodx_EXPORTS;MEMORY_TEST;JIT"
StringPooling="TRUE" StringPooling="TRUE"
RuntimeLibrary="4" RuntimeLibrary="4"
EnableFunctionLevelLinking="TRUE" EnableFunctionLevelLinking="TRUE"
@ -471,14 +454,12 @@
<Tool <Tool
Name="VCLinkerTool" Name="VCLinkerTool"
AdditionalOptions="/MACHINE:I386" AdditionalOptions="/MACHINE:I386"
AdditionalDependencies="..\zlib\zlib.lib ..\JIT\amxjitsn.obj ..\JIT\amxexecn.obj ..\JIT\natives-x86.obj" AdditionalDependencies="odbc32.lib odbccp32.lib ..\jit\jits.lib"
OutputFile="jitmemtestrelease/amxmodx_mm.dll" OutputFile="jitmemtestrelease/amxx_mm.dll"
LinkIncremental="1" LinkIncremental="1"
SuppressStartupBanner="TRUE" SuppressStartupBanner="TRUE"
AdditionalLibraryDirectories="..\extra\lib_win32" AdditionalLibraryDirectories="..\extra\lib_win32"
IgnoreDefaultLibraryNames="MSVCRT"
ModuleDefinitionFile="" ModuleDefinitionFile=""
GenerateDebugInformation="TRUE"
ProgramDatabaseFile=".\jitmemtestrelease/amxx_mm.pdb" ProgramDatabaseFile=".\jitmemtestrelease/amxx_mm.pdb"
ImportLibrary=".\jitmemtestrelease/amxx_mm.lib"/> ImportLibrary=".\jitmemtestrelease/amxx_mm.lib"/>
<Tool <Tool
@ -544,8 +525,8 @@
<Tool <Tool
Name="VCLinkerTool" Name="VCLinkerTool"
AdditionalOptions="/MACHINE:I386" AdditionalOptions="/MACHINE:I386"
AdditionalDependencies="odbc32.lib odbccp32.lib ..\jit\jits.lib ..\zlib\zlib.lib" AdditionalDependencies="odbc32.lib odbccp32.lib ..\jit\jits.lib"
OutputFile="MaximalSpeed/amxmodx_mm.dll" OutputFile="MaximalSpeed/amxx_mm.dll"
LinkIncremental="1" LinkIncremental="1"
SuppressStartupBanner="TRUE" SuppressStartupBanner="TRUE"
AdditionalLibraryDirectories="..\extra\lib_win32" AdditionalLibraryDirectories="..\extra\lib_win32"
@ -593,9 +574,6 @@
<File <File
RelativePath="..\amxcore.cpp"> RelativePath="..\amxcore.cpp">
</File> </File>
<File
RelativePath="..\amxdbg.cpp">
</File>
<File <File
RelativePath="..\amxmodx.cpp"> RelativePath="..\amxmodx.cpp">
</File> </File>
@ -640,19 +618,10 @@
</File> </File>
<File <File
RelativePath="..\CTask.cpp"> RelativePath="..\CTask.cpp">
<FileConfiguration
Name="JITRelease|Win32">
<Tool
Name="VCCLCompilerTool"
AssemblerOutput="0"/>
</FileConfiguration>
</File> </File>
<File <File
RelativePath="..\CVault.cpp"> RelativePath="..\CVault.cpp">
</File> </File>
<File
RelativePath="..\debugger.cpp">
</File>
<File <File
RelativePath="..\emsg.cpp"> RelativePath="..\emsg.cpp">
</File> </File>
@ -671,33 +640,18 @@
<File <File
RelativePath="..\float.cpp"> RelativePath="..\float.cpp">
</File> </File>
<File
RelativePath="..\format.cpp">
<FileConfiguration
Name="JITRelease|Win32">
<Tool
Name="VCCLCompilerTool"
AssemblerOutput="4"/>
</FileConfiguration>
</File>
<File <File
RelativePath="..\md5.cpp"> RelativePath="..\md5.cpp">
</File> </File>
<File <File
RelativePath="..\meta_api.cpp"> RelativePath="..\meta_api.cpp">
</File> </File>
<File
RelativePath="..\minilzo\minilzo.c">
</File>
<File <File
RelativePath="..\modules.cpp"> RelativePath="..\modules.cpp">
</File> </File>
<File
RelativePath="..\natives.cpp">
</File>
<File
RelativePath="..\newmenus.cpp">
</File>
<File
RelativePath="..\optimizer.cpp">
</File>
<File <File
RelativePath="..\power.cpp"> RelativePath="..\power.cpp">
</File> </File>
@ -706,12 +660,6 @@
</File> </File>
<File <File
RelativePath="..\string.cpp"> RelativePath="..\string.cpp">
<FileConfiguration
Name="JITRelease|Win32">
<Tool
Name="VCCLCompilerTool"
AssemblerOutput="2"/>
</FileConfiguration>
</File> </File>
<File <File
RelativePath="..\strptime.cpp"> RelativePath="..\strptime.cpp">
@ -766,9 +714,6 @@
<File <File
RelativePath="..\amx.h"> RelativePath="..\amx.h">
</File> </File>
<File
RelativePath="..\amxdbg.h">
</File>
<File <File
RelativePath="..\amxmodx.h"> RelativePath="..\amxmodx.h">
</File> </File>
@ -814,6 +759,9 @@
<File <File
RelativePath="..\CQueue.h"> RelativePath="..\CQueue.h">
</File> </File>
<File
RelativePath="..\CRList.h">
</File>
<File <File
RelativePath="..\CString.h"> RelativePath="..\CString.h">
</File> </File>
@ -826,51 +774,15 @@
<File <File
RelativePath="..\CVector.h"> RelativePath="..\CVector.h">
</File> </File>
<File
RelativePath="..\debugger.h">
</File>
<File <File
RelativePath="..\fakemeta.h"> RelativePath="..\fakemeta.h">
</File> </File>
<File
RelativePath="..\format.h">
</File>
<File <File
RelativePath="..\md5.h"> RelativePath="..\md5.h">
</File> </File>
<File
RelativePath="..\menus.h">
</File>
<File <File
RelativePath="..\modules.h"> RelativePath="..\modules.h">
</File> </File>
<File
RelativePath="..\natives.h">
</File>
<File
RelativePath="..\newmenus.h">
</File>
<File
RelativePath="..\optimizer.h">
</File>
<File
RelativePath="..\resource.h">
</File>
<File
RelativePath="..\sh_list.h">
</File>
<File
RelativePath="..\sh_stack.h">
</File>
<File
RelativePath="..\sh_tinyhash.h">
</File>
<File
RelativePath="..\zlib\zconf.h">
</File>
<File
RelativePath="..\zlib\zlib.h">
</File>
<Filter <Filter
Name="mmgr" Name="mmgr"
Filter=""> Filter="">
@ -889,86 +801,6 @@
RelativePath="..\version.rc"> RelativePath="..\version.rc">
</File> </File>
</Filter> </Filter>
<Filter
Name="Assembly"
Filter="">
<File
RelativePath="..\amxdefn.asm">
</File>
<File
RelativePath="..\amxexecn.asm">
</File>
<File
RelativePath="..\amxjitsn.asm">
</File>
<File
RelativePath="..\natives-amd64.asm">
</File>
<File
RelativePath="..\natives-x86.asm">
</File>
</Filter>
<Filter
Name="SDK"
Filter="">
<File
RelativePath="..\sdk\amxxmodule.cpp">
<FileConfiguration
Name="Debug|Win32"
ExcludedFromBuild="TRUE">
<Tool
Name="VCCLCompilerTool"/>
</FileConfiguration>
<FileConfiguration
Name="Release|Win32"
ExcludedFromBuild="TRUE">
<Tool
Name="VCCLCompilerTool"/>
</FileConfiguration>
<FileConfiguration
Name="MemtestDebug|Win32"
ExcludedFromBuild="TRUE">
<Tool
Name="VCCLCompilerTool"/>
</FileConfiguration>
<FileConfiguration
Name="MemtestRelease|Win32"
ExcludedFromBuild="TRUE">
<Tool
Name="VCCLCompilerTool"/>
</FileConfiguration>
<FileConfiguration
Name="JITDebug|Win32"
ExcludedFromBuild="TRUE">
<Tool
Name="VCCLCompilerTool"/>
</FileConfiguration>
<FileConfiguration
Name="JITRelease|Win32"
ExcludedFromBuild="TRUE">
<Tool
Name="VCCLCompilerTool"/>
</FileConfiguration>
<FileConfiguration
Name="JITMemtestRelease|Win32"
ExcludedFromBuild="TRUE">
<Tool
Name="VCCLCompilerTool"/>
</FileConfiguration>
<FileConfiguration
Name="MaximalSpeed|Win32"
ExcludedFromBuild="TRUE">
<Tool
Name="VCCLCompilerTool"/>
</FileConfiguration>
</File>
<File
RelativePath="..\sdk\amxxmodule.h">
</File>
<File
RelativePath="..\sdk\moduleconfig.h">
</File>
</Filter>
</Files> </Files>
<Globals> <Globals>
</Globals> </Globals>

6
amxmodx/msvc/amxmodx_mm.def Executable file
View File

@ -0,0 +1,6 @@
LIBRARY amxx_mm
EXPORTS
GiveFnptrsToDll @1
SECTIONS
.data READ WRITE

39
amxmodx/msvc/amxmodx_mm.sln
View File

@ -1,39 +0,0 @@
Microsoft Visual Studio Solution File, Format Version 8.00
Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "amxmodx", "amxmodx_mm.vcproj", "{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}"
ProjectSection(ProjectDependencies) = postProject
EndProjectSection
EndProject
Global
GlobalSection(SolutionConfiguration) = preSolution
Debug = Debug
JITDebug = JITDebug
JITMemtestRelease = JITMemtestRelease
JITRelease = JITRelease
MaximalSpeed = MaximalSpeed
MemtestDebug = MemtestDebug
MemtestRelease = MemtestRelease
Release = Release
EndGlobalSection
GlobalSection(ProjectConfiguration) = postSolution
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.Debug.ActiveCfg = Debug|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.Debug.Build.0 = Debug|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.JITDebug.ActiveCfg = JITDebug|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.JITDebug.Build.0 = JITDebug|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.JITMemtestRelease.ActiveCfg = JITMemtestRelease|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.JITMemtestRelease.Build.0 = JITMemtestRelease|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.JITRelease.ActiveCfg = JITRelease|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.JITRelease.Build.0 = JITRelease|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.MaximalSpeed.ActiveCfg = MaximalSpeed|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.MaximalSpeed.Build.0 = MaximalSpeed|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.MemtestDebug.ActiveCfg = MemtestDebug|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.MemtestDebug.Build.0 = MemtestDebug|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.MemtestRelease.ActiveCfg = MemtestRelease|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.MemtestRelease.Build.0 = MemtestRelease|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.Release.ActiveCfg = Release|Win32
{2BF64D1A-AC89-41B0-9D02-FB8CB610F850}.Release.Build.0 = Release|Win32
EndGlobalSection
GlobalSection(ExtensibilityGlobals) = postSolution
EndGlobalSection
GlobalSection(ExtensibilityAddIns) = postSolution
EndGlobalSection
EndGlobal

91
amxmodx/natives-amd64.asm
View File

@ -1,91 +0,0 @@
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; (C)2005 by David "BAILOPAN" Anderson ;
; register_native functions for amd64 ;;;;;;
; Based on the concept by Julien "dJeyL" Laurent ;
; Thanks to T(+)rget for pushing me to implement this ;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;Licensed under the GNU General Public License, version 2
;;This is a portion of AMX Mod X
;; and is maintained by the AMX Mod X development team.
;;Initializes the global variable
BITS 64
section .text
global amxx_DynaInit, _amxx_DynaInit
;void amxx_DynaInit(void *ptr);
amxx_DynaInit:
_amxx_DynaInit:
mov [GLOBAL_GATE wrt rip], rdi
ret
;;Assembles the gateway function
global amxx_DynaMake, _amxx_DynaMake
;int amxx_DynaMake(char *buffer, int id);
amxx_DynaMake:
_amxx_DynaMake:
;we're not damaging the stack I think so we should be safe with no prologue
;save these two we're about to destroy them
push rsi ;push id
push rdi ;push buffer
mov rsi, _amxx_DynaFuncStart
mov rcx, _amxx_DynaFuncEnd - _amxx_DynaFuncStart
cld ;clear direction flag (just in case)
rep movsb
pop rdi ;get buffer as destination
pop rax ;get id
;align us to mov rsi, 1234... - on x86-64 this is 2 bytes after the differential
add rdi, (_amxx_DynaFuncStart.move-_amxx_DynaFuncStart) + 2
mov [rdi], qword rax
;align rdi to the call
add rdi, (_amxx_DynaFuncStart.call-_amxx_DynaFuncStart.move)
mov rax, qword [GLOBAL_GATE wrt rip]
;copy the real address
mov [rdi], rax
ret
;;The gateway function we will re-assemble
;; This is similar to dJeyL's but a tad more elegant, as it's written in pure assembly
;; and NASM > GAS :')
global amxx_DynaFunc, _amxx_DynaFunc
;int amxx_DynaFunc(AMX *amx, cell *params);
amxx_DynaFunc:
_amxx_DynaFunc:
_amxx_DynaFuncStart:
push rbp
mov rbp, rsp
;we're given an amx and params... we're also hardcoded for this though:
mov rdx, rsi ;move 2nd param to 3rd
mov rsi, rdi ;move 1st param to 2nd
;this old trick, we'll move in the real pointer in a bit.
.move:
mov rdi, qword 1234567812345678h
.call:
mov rcx, qword 1234567812345678h
call rcx
pop rbp
ret
_amxx_DynaFuncEnd:
;;Just returns the buffer size required
global _amxx_DynaCodesize, amxx_DynaCodesize
;int amxx_DynaCodesize()
amxx_DynaCodesize:
_amxx_DynaCodesize:
; on x86-64 this is 34 bytes
mov rax, _amxx_DynaFuncEnd - _amxx_DynaFuncStart
ret
section .data
GLOBAL_GATE DQ 0

100
amxmodx/natives-x86.asm
View File

@ -1,100 +0,0 @@
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; (C)2005 by David "BAILOPAN" Anderson ;
; register_native functions for x86 ;;;;;;
; Based on the concept by Julien "dJeyL" Laurent ;
; Thanks to T(+)rget for pushing me to implement this ;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;Licensed under the GNU General Public License, version 2
;;This is a portion of AMX Mod X
;; and is maintained by the AMX Mod X development team.
;;Initializes the global variable
section .text
global amxx_DynaInit, _amxx_DynaInit
;void amxx_DynaInit(void *ptr);
amxx_DynaInit:
_amxx_DynaInit:
push ebp
mov ebp, esp
mov eax, [ebp+8] ;get pointer
mov [GLOBAL_GATE], eax ;store
mov eax, 1
pop ebp
ret
;;Assembles the gateway function
global amxx_DynaMake, _amxx_DynaMake
;int amxx_DynaMake(char *buffer, int id);
amxx_DynaMake:
_amxx_DynaMake:
push ebp
mov ebp, esp
push edi
push esi
mov edi, [ebp+8] ;buffer
mov esi, _amxx_DynaFuncStart
mov ecx, _amxx_DynaFuncEnd - _amxx_DynaFuncStart
cld ;clear direction flag (just in case)
rep movsb
mov edi, [ebp+8] ;get buffer again
;align us to mov eax, 1234 - on x86 this is 4 bytes
add edi, (_amxx_DynaMoveOffset-_amxx_DynaFuncStart) + 1
mov eax, [ebp+12]
mov [edi], eax
pop esi
pop edi
mov eax, 1
pop ebp
ret
;;The gateway function we will re-assemble
;; This is similar to dJeyL's but a tad more elegant, as it's written in pure assembly
;; and NASM > GAS :')
global amxx_DynaFunc, _amxx_DynaFunc
;int amxx_DynaFunc(AMX *amx, cell *params);
amxx_DynaFunc:
_amxx_DynaFunc:
_amxx_DynaFuncStart:
push ebp
mov ebp, esp
;we're given an amx and params... we're also hardcoded for this though:
_amxx_DynaMoveOffset:
mov eax, 12345678h ;this old trick, we'll move in the real pointer in a bit.
push dword [ebp+12] ;push params
push dword [ebp+8] ;push amx
push eax ;push the id
call [GLOBAL_GATE] ;pass through teh global gateway.
add esp, 12 ;reset stack oops
pop ebp
ret
_amxx_DynaFuncEnd:
;;Just returns the buffer size required
global _amxx_DynaCodesize, amxx_DynaCodesize
;int amxx_DynaCodesize()
amxx_DynaCodesize:
_amxx_DynaCodesize:
push ebp
mov ebp, esp
; on x86 is this 17 bytes
mov eax, _amxx_DynaFuncEnd - _amxx_DynaFuncStart
pop ebp
ret
section .data
GLOBAL_GATE DD 0

448
amxmodx/natives.cpp
View File

@ -1,448 +0,0 @@
/* 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 "sh_stack.h"
#include "natives.h"
#include "debugger.h"
#ifdef __linux__
#include <malloc.h>
#include <stdlib.h>
#include <sys/mman.h>
#include "sclinux.h"
#endif
//Written by David "BAILOPAN" Anderson
//With the exception for param_convert, which was written by
// Julien "dJeyL" Laurent
CStack<int> g_ErrorStk;
CVector<regnative *> g_RegNatives;
CStack<regnative *> g_NativeStack;
CVector<String> g_Libraries;
static char g_errorStr[512] = {0};
bool g_Initialized = false;
int amxx_DynaCallback(int idx, AMX *amx, cell *params)
{
if (idx < 0 || idx >= (int)g_RegNatives.size())
{
LogError(amx, AMX_ERR_NATIVE, "Invalid dynamic native called");
return 0;
}
regnative *pNative = g_RegNatives[idx];
int numParams = params[0] / sizeof(cell);
if (numParams > CALLFUNC_MAXPARAMS)
{
LogError(amx, AMX_ERR_NATIVE, "Called dynanative with too many parameters (%d)", CALLFUNC_MAXPARAMS);
return 0;
}
//parameter stack
pNative->caller = amx;
CPluginMngr::CPlugin *pPlugin = g_plugins.findPluginFast(amx);
int err = 0;
cell ret = 0;
g_ErrorStk.push(0);
g_NativeStack.push(pNative);
if (pNative->style == 0)
{
amx_Push(pNative->amx, numParams);
amx_Push(pNative->amx, pPlugin->getId());
for (int i=numParams; i>=1; i--)
pNative->params[i] = params[i];
} else if (pNative->style == 1) {
//use dJeyL's system .. very clever!
for (int i=numParams; i>=1; i--)
amx_Push(pNative->amx, params[i]);
}
Debugger *pDebugger = (Debugger *)pNative->amx->userdata[UD_DEBUGGER];
if (pDebugger)
pDebugger->BeginExec();
err=amx_Exec(pNative->amx, &ret, pNative->func);
if (err != AMX_ERR_NONE)
{
if (pDebugger && pDebugger->ErrorExists())
{
//don't care
} else if (err != -1) {
//nothing logged the error
LogError(pNative->amx, err, NULL);
}
pNative->amx->error = AMX_ERR_NONE;
//furthermore, log an error in the parent plugin.
LogError(amx, AMX_ERR_NATIVE, "Unhandled dynamic native error");
} else if (g_ErrorStk.front()) {
LogError(amx, g_ErrorStk.front(), g_errorStr);
}
if (pDebugger)
pDebugger->EndExec();
g_NativeStack.pop();
g_ErrorStk.pop();
return ret;
}
AMX_NATIVE_INFO *BuildNativeTable()
{
if (g_RegNatives.size() < 1)
return NULL;
AMX_NATIVE_INFO *pNatives = new AMX_NATIVE_INFO[g_RegNatives.size() + 1];
AMX_NATIVE_INFO info;
regnative *pNative;
for (size_t i=0; i<g_RegNatives.size(); i++)
{
pNative = g_RegNatives[i];
info.name = pNative->name.c_str();
info.func = (AMX_NATIVE)((void *)(pNative->pfn));
pNatives[i] = info;
}
pNatives[g_RegNatives.size()].name = NULL;
pNatives[g_RegNatives.size()].func = NULL;
//this needs to be deleted
return pNatives;
}
static cell AMX_NATIVE_CALL log_error(AMX *amx, cell *params)
{
int len;
char *err = format_amxstring(amx, params, 2, len);
_snprintf(g_errorStr, sizeof(g_errorStr), "%s", err);
g_ErrorStk.pop();
g_ErrorStk.push(params[1]);
return 1;
}
//get_string(param, dest[], len)
static cell AMX_NATIVE_CALL get_string(AMX *amx, cell *params)
{
if (!g_NativeStack.size())
{
LogError(amx, AMX_ERR_NATIVE, "Not currently in a dynamic native");
return 0;
}
regnative *pNative = g_NativeStack.front();
if (pNative->style)
{
LogError(amx, AMX_ERR_NATIVE, "Wrong style of dynamic native");
return 0;
}
int p = params[1];
int len;
char *str = get_amxstring(pNative->caller, pNative->params[p], 0, len);
return set_amxstring(amx, params[2], str, params[3]);
}
//set_string(param, source[], maxlen)
static cell AMX_NATIVE_CALL set_string(AMX *amx, cell *params)
{
if (!g_NativeStack.size())
{
LogError(amx, AMX_ERR_NATIVE, "Not currently in a dynamic native");
return 0;
}
regnative *pNative = g_NativeStack.front();
if (pNative->style)
{
LogError(amx, AMX_ERR_NATIVE, "Wrong style of dynamic native");
return 0;
}
int p = params[1];
int len;
char *str = get_amxstring(amx, params[2], 0, len);
return set_amxstring(pNative->caller, pNative->params[p], str, params[3]);
}
//get a byvalue parameter
//get_param(num)
static cell AMX_NATIVE_CALL get_param(AMX *amx, cell *params)
{
if (!g_NativeStack.size())
{
LogError(amx, AMX_ERR_NATIVE, "Not currently in a dynamic native");
return 0;
}
regnative *pNative = g_NativeStack.front();
if (pNative->style)
{
LogError(amx, AMX_ERR_NATIVE, "Wrong style of dynamic native");
return 0;
}
int p = params[1];
return pNative->params[p];
}
//get_param_byref(num)
static cell AMX_NATIVE_CALL get_param_byref(AMX *amx, cell *params)
{
if (!g_NativeStack.size())
{
LogError(amx, AMX_ERR_NATIVE, "Not currently in a dynamic native");
return 0;
}
regnative *pNative = g_NativeStack.front();
if (pNative->style)
{
LogError(amx, AMX_ERR_NATIVE, "Wrong style of dynamic native");
return 0;
}
int p = params[1];
cell *addr = get_amxaddr(pNative->caller, pNative->params[p]);
return addr[0];
}
//set_param_byref(num, val)
static cell AMX_NATIVE_CALL set_param_byref(AMX *amx, cell *params)
{
if (!g_NativeStack.size())
{
LogError(amx, AMX_ERR_NATIVE, "Not currently in a dynamic native");
return 0;
}
regnative *pNative = g_NativeStack.front();
if (pNative->style)
{
LogError(amx, AMX_ERR_NATIVE, "Wrong style of dynamic native");
return 0;
}
int p = params[1];
cell *addr = get_amxaddr(pNative->caller, pNative->params[p]);
addr[0] = params[2];
return 1;
}
//get_array(param, dest[], size)
static cell AMX_NATIVE_CALL get_array(AMX *amx, cell *params)
{
if (!g_NativeStack.size())
{
LogError(amx, AMX_ERR_NATIVE, "Not currently in a dynamic native");
return 0;
}
regnative *pNative = g_NativeStack.front();
if (pNative->style)
{
LogError(amx, AMX_ERR_NATIVE, "Wrong style of dynamic native");
return 0;
}
int p = params[1];
cell *source = get_amxaddr(pNative->caller, pNative->params[p]);
cell *dest = get_amxaddr(amx, params[2]);
int size = params[3];
memcpy(dest, source, size * sizeof(cell));
return 1;
}
//set_array(param, source[], size)
static cell AMX_NATIVE_CALL set_array(AMX *amx, cell *params)
{
if (!g_NativeStack.size())
{
LogError(amx, AMX_ERR_NATIVE, "Not currently in a dynamic native");
return 0;
}
regnative *pNative = g_NativeStack.front();
if (pNative->style)
{
LogError(amx, AMX_ERR_NATIVE, "Wrong style of dynamic native");
return 0;
}
int p = params[1];
cell *dest = get_amxaddr(pNative->caller, pNative->params[p]);
cell *source = get_amxaddr(amx, params[2]);
int size = params[3];
memcpy(dest, source, size * sizeof(cell));
return 1;
}
//This is basically right from dJeyL's lib_convert function
//This awesome hack modifies the stack frame to have an address offset
// that will align to the other plugin's memory.
//I've no idea how he thought of this, but it's great. No idea how well it works.
static cell AMX_NATIVE_CALL param_convert(AMX *amx, cell *params)
{
if (!g_NativeStack.size())
{
LogError(amx, AMX_ERR_NATIVE, "Not currently in a dynamic native");
return 0;
}
regnative *pNative = g_NativeStack.front();
if (pNative->style != 1)
{
LogError(amx, AMX_ERR_NATIVE, "Wrong style of dynamic native");
return 0;
}
cell p = params[1];
AMX *caller = pNative->caller;
unsigned char *data =amx->base+(int)((AMX_HEADER *)amx->base)->dat;
unsigned char *realdata = caller->base+(int)((AMX_HEADER *)caller->base)->dat;
* (cell *)(data+(int)amx->frm+(p+2)*sizeof(cell)) -= (cell)data-(cell)realdata;
return 1;
}
static cell AMX_NATIVE_CALL register_library(AMX *amx, cell *params)
{
int len;
char *lib = get_amxstring(amx, params[1], 0, len);
AddPluginLibrary(lib);
return 1;
}
//register_native(const name[], const handler[])
static cell AMX_NATIVE_CALL register_native(AMX *amx, cell *params)
{
if (!g_Initialized)
amxx_DynaInit((void *)(amxx_DynaCallback));
g_Initialized = true;
int len;
char *name = get_amxstring(amx, params[1], 0, len);
char *func = get_amxstring(amx, params[2], 1, len);
int idx, err;
if ( (err=amx_FindPublic(amx, func, &idx)) != AMX_ERR_NONE)
{
LogError(amx, err, "Function \"%s\" was not found", func);
return 0;
}
regnative *pNative = new regnative;
pNative->amx = amx;
pNative->func = idx;
//we'll apply a safety buffer too
//make our function
int size = amxx_DynaCodesize();
#ifndef __linux__
DWORD temp;
pNative->pfn = new char[size + 10];
VirtualProtect(pNative->pfn, size+10, PAGE_EXECUTE_READWRITE, &temp);
#else
pNative->pfn = (char *)memalign(sysconf(_SC_PAGESIZE), size+10);
mprotect((void *)pNative->pfn, size+10, PROT_READ|PROT_WRITE|PROT_EXEC);
#endif
int id = (int)g_RegNatives.size();
amxx_DynaMake(pNative->pfn, id);
pNative->func = idx;
pNative->style = params[3];
g_RegNatives.push_back(pNative);
pNative->name.assign(name);
return 1;
}
bool LibraryExists(const char *name)
{
for (size_t i=0; i<g_Libraries.size(); i++)
{
if (stricmp(g_Libraries[i].c_str(), name)==0)
return true;
}
return false;
}
void AddPluginLibrary(const char *name)
{
String f(name);
g_Libraries.push_back(f);
}
void ClearPluginLibraries()
{
g_Libraries.clear();
for (size_t i=0; i<g_RegNatives.size(); i++)
{
delete [] g_RegNatives[i]->pfn;
delete g_RegNatives[i];
}
g_RegNatives.clear();
}
AMX_NATIVE_INFO g_NativeNatives[] = {
{"register_native", register_native},
{"log_error", log_error},
{"register_library",register_library},
{"get_string", get_string},
{"set_string", set_string},
{"get_param", get_param},
{"get_param_byref", get_param_byref},
{"set_param_byref", set_param_byref},
{"get_array", get_array},
{"set_array", set_array},
//these are dummy functions for floats ;p
{"get_param_f", get_param},
{"get_float_byref", get_param_byref},
{"set_float_byref", set_param_byref},
{"get_array_f", get_array},
{"set_array_f", set_array},
{"param_convert", param_convert},
//////////////////////////
{NULL, NULL},
};

71
amxmodx/natives.h
View File

@ -1,71 +0,0 @@
/* 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.
*/
#ifndef _INCLUDE_NATIVES_H
#define _INCLUDE_NATIVES_H
//only 16 for now sorry
#if !defined CALLFUNC_MAXPARAMS
#define CALLFUNC_MAXPARAMS 16
#endif
#define CALLFUNC_FLAG_BYREF 1
#define CALLFUNC_FLAG_BYREF_REUSED 2
#define N_CELL 1
#define N_ARRAY 2
#define N_BYREF 3
#define N_VARARG 4
struct regnative
{
AMX *amx;
String name;
char *pfn;
int func;
AMX *caller;
int style;
cell params[CALLFUNC_MAXPARAMS];
};
extern "C" void amxx_DynaInit(void *ptr);
extern "C" void amxx_DynaMake(char *buffer, int id);
extern "C" int amxx_DynaFunc(AMX *amx, cell *params);
extern "C" int amxx_DynaCodesize();
AMX_NATIVE_INFO *BuildNativeTable();
void AddPluginLibrary(const char *name);
void ClearPluginLibraries();
bool LibraryExists(const char *name);
//I couldn't resist :)
extern AMX_NATIVE_INFO g_NativeNatives[];
#endif //_INCLUDE_NATIVES_H

829
amxmodx/newmenus.cpp
View File

@ -1,829 +0,0 @@
/* 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 "newmenus.h"
CVector<Menu *> g_NewMenus;
CStack<int> g_MenuFreeStack;
void ClearMenus()
{
for (size_t i = 0; i < g_NewMenus.size(); i++)
delete g_NewMenus[i];
g_NewMenus.clear();
while (!g_MenuFreeStack.empty())
g_MenuFreeStack.pop();
}
void validate_menu_text(char *str)
{
if (!g_coloredmenus)
{
size_t offs = 0;
while (*str)
{
if (*str == '\\')
{
str++;
char c = tolower(*str);
if (c == 'r' || c == 'w'
|| c== 'w' || c == 'd')
{
str++;
offs += 2;
continue;
}
}
if (offs)
*(str-offs) = *str;
str++;
}
if (offs)
*(str-offs) = '\0';
}
}
Menu::Menu(const char *title, int mid, int tid)
{
m_Title.assign(title);
menuId = mid;
thisId = tid;
m_OptNames[abs(MENU_BACK)].assign("Back");
m_OptNames[abs(MENU_MORE)].assign("More");
m_OptNames[abs(MENU_EXIT)].assign("Exit");
m_OptOrders[0] = MENU_BACK;
m_OptOrders[1] = MENU_MORE;
m_OptOrders[2] = MENU_EXIT;
m_AlwaysExit = false;
m_NeverExit = false;
m_AutoColors = g_coloredmenus;
items_per_page = 7;
func = 0;
padding = 0;
isDestroying = false;
}
Menu::~Menu()
{
for (size_t i = 0; i < m_Items.size(); i++)
delete m_Items[i];
unregisterSPForward(this->func);
m_Items.clear();
}
menuitem *Menu::AddItem(const char *name, const char *cmd, int access)
{
menuitem *pItem = new menuitem;
pItem->name.assign(name);
pItem->cmd.assign(cmd);
pItem->access = access;
pItem->id = m_Items.size();
pItem->handler = -1;
pItem->pfn = NULL;
m_Items.push_back(pItem);
return pItem;
}
menuitem *Menu::GetMenuItem(item_t item)
{
if (item >= m_Items.size())
return NULL;
return m_Items[item];
}
size_t Menu::GetItemCount()
{
return m_Items.size();
}
size_t Menu::GetPageCount()
{
size_t items = GetItemCount();
if (items_per_page == 0)
return 1;
return ((items/items_per_page) + ((items % items_per_page) ? 1 : 0));
}
int Menu::PagekeyToItem(page_t page, item_t key)
{
size_t start = page * items_per_page;
size_t num_pages = GetPageCount();
if (num_pages == 1 || !items_per_page)
{
if (m_AlwaysExit && key > m_Items.size())
return MENU_EXIT;
else
return key-1;
} else {
//first page
if (page == 0)
{
if (key == items_per_page + 1)
return MENU_MORE;
else if (key == items_per_page + 2)
return MENU_EXIT;
else
return (start + key - 1);
} else if (page == num_pages - 1) {
//last page
size_t remaining = m_Items.size() - start;
if (key == remaining + 1)
{
return MENU_BACK;
} else if (key == remaining + 2) {
return MENU_EXIT;
} else {
return (start + key - 1);
}
} else {
if (key > items_per_page && (key-items_per_page<=3))
{
return m_OptOrders[key-items_per_page-1];
} else {
return (start + key - 1);
}
}
}
}
bool Menu::Display(int player, page_t page)
{
int keys = 0;
const char *str = GetTextString(player, page, keys);
if (!str)
return false;
static char buffer[2048];
int len = _snprintf(buffer, sizeof(buffer)-1, "%s", str);
CPlayer *pPlayer = GET_PLAYER_POINTER_I(player);
pPlayer->keys = keys;
pPlayer->menu = menuId;
pPlayer->newmenu = thisId;
pPlayer->page = (int)page;
UTIL_ShowMenu(pPlayer->pEdict, keys, -1, buffer, len);
return true;
}
const char *Menu::GetTextString(int player, page_t page, int &keys)
{
page_t pages = GetPageCount();
item_t numItems = GetItemCount();
if (page >= pages)
return NULL;
m_Text.clear();
char buffer[255];
if (m_AutoColors)
_snprintf(buffer, sizeof(buffer)-1, "\\y%s %d/%d\n\\w\n", m_Title.c_str(), page + 1, pages);
else
_snprintf(buffer, sizeof(buffer)-1, "%s %d/%d\n\n", m_Title.c_str(), page + 1, pages);
m_Text.append(buffer);
enum
{
Display_Back = (1<<0),
Display_Next = (1<<1),
Display_Exit = (1<<2),
};
int flags = Display_Back|Display_Next;
item_t start = page * items_per_page;
item_t end = 0;
if (items_per_page)
{
if (start + items_per_page >= numItems)
{
end = numItems - 1;
flags &= ~Display_Next;
} else {
end = start + items_per_page - 1;
}
if (!m_NeverExit && (m_AlwaysExit || (page == 0 || page == pages-1)))
flags |= Display_Exit;
} else {
end = numItems - 1;
if (end > 10)
end = 10;
flags = 0;
}
if (page == 0)
flags &= ~Display_Back;
menuitem *pItem = NULL;
int option = 0;
keys = 0;
bool enabled = true;
int ret = 0;
int slots = 0;
for (item_t i = start; i <= end; i++)
{
pItem = m_Items[i];
if (pItem->access && !(pItem->access & g_players[player].flags[0]))
enabled = false;
if (pItem->handler != -1)
{
ret = executeForwards(pItem->handler, static_cast<cell>(player), static_cast<cell>(thisId), static_cast<cell>(i));
if (ret == ITEM_ENABLED)
enabled = true;
else if (ret == ITEM_DISABLED)
enabled = false;
}
if (pItem->pfn)
{
ret = (pItem->pfn)(player, thisId, i);
if (ret == ITEM_ENABLED)
enabled = true;
else if (ret == ITEM_DISABLED)
enabled = false;
}
if (enabled)
{
keys |= (1<<option);
if (m_AutoColors)
_snprintf(buffer, sizeof(buffer)-1, "\\r%d.\\w %s\n", ++option, pItem->name.c_str());
else
_snprintf(buffer, sizeof(buffer)-1, "%d. %s\n", ++option, pItem->name.c_str());
} else {
if (m_AutoColors)
{
_snprintf(buffer, sizeof(buffer)-1, "\\d%d. %s\n\\w", ++option, pItem->name.c_str());
} else {
_snprintf(buffer, sizeof(buffer)-1, "#. %s\n", pItem->name.c_str());
option++;
}
}
slots++;
m_Text.append(buffer);
//attach blanks
if (pItem->blanks.size())
{
for (size_t j=0; j<pItem->blanks.size(); j++)
{
if (pItem->blanks[j] == 1)
option++;
m_Text.append("\n");
slots++;
}
}
}
if (padding == 1 && items_per_page)
{
int pad = items_per_page;
if (flags & Display_Back)
pad--;
if (flags & Display_Next)
pad--;
if (flags & Display_Exit)
pad--;
for (int i=slots+1; i<=pad; i++)
{
m_Text.append("\n");
option++;
}
}
for (int i=0; i<3; i++)
{
switch (m_OptOrders[i])
{
case MENU_BACK:
{
if (flags & Display_Back)
{
keys |= (1<<option++);
_snprintf(buffer,
sizeof(buffer)-1,
m_AutoColors ? "\\r%d. \\w%s\n" : "%d. %s\n",
option,
m_OptNames[abs(MENU_BACK)].c_str()
);
m_Text.append(buffer);
}
break;
}
case MENU_MORE:
{
if (flags & Display_Next)
{
keys |= (1<<option++);
_snprintf(buffer,
sizeof(buffer)-1,
m_AutoColors ? "\\r%d. \\w%s\n" : "%d. %s\n",
option,
m_OptNames[abs(MENU_MORE)].c_str()
);
m_Text.append(buffer);
}
break;
}
case MENU_EXIT:
{
if (flags & Display_Exit)
{
keys |= (1<<option++);
_snprintf(buffer,
sizeof(buffer)-1,
m_AutoColors ? "\\r%d. \\w%s\n" : "%d. %s\n",
option,
m_OptNames[abs(MENU_EXIT)].c_str()
);
m_Text.append(buffer);
}
break;
}
}
}
return m_Text.c_str();
}
#define GETMENU(p) if (p >= (int)g_NewMenus.size() || p < 0 || !g_NewMenus[p] || g_NewMenus[p]->isDestroying) { \
LogError(amx, AMX_ERR_NATIVE, "Invalid menu id %d(%d)", p, g_NewMenus.size()); \
return 0; } \
Menu *pMenu = g_NewMenus[p];
//Makes a new menu handle (-1 for failure)
//native csdm_makemenu(title[]);
static cell AMX_NATIVE_CALL menu_create(AMX *amx, cell *params)
{
int len;
char *title = get_amxstring(amx, params[1], 0, len);
validate_menu_text(title);
char *handler = get_amxstring(amx, params[2], 1, len);
int func = registerSPForwardByName(amx, handler, FP_CELL, FP_CELL, FP_CELL, FP_DONE);
if (func == -1)
{
LogError(amx, AMX_ERR_NOTFOUND, "Invalid function \"%s\"", handler);
return 0;
}
int id = g_menucmds.registerMenuId(title, amx);
g_menucmds.registerMenuCmd(g_plugins.findPluginFast(amx), id, 1023, func);
Menu *pMenu = new Menu(title, id, 0);
pMenu->func = func;
if (g_MenuFreeStack.empty())
{
g_NewMenus.push_back(pMenu);
pMenu->thisId = (int)g_NewMenus.size() - 1;
return (int)g_NewMenus.size() - 1;
} else {
int pos = g_MenuFreeStack.front();
g_MenuFreeStack.pop();
g_NewMenus[pos] = pMenu;
pMenu->thisId = pos;
return pos;
}
}
static cell AMX_NATIVE_CALL menu_addblank(AMX *amx, cell *params)
{
GETMENU(params[1]);
if (params[2] && (!pMenu->items_per_page && pMenu->GetItemCount() >= 10))
{
LogError(amx, AMX_ERR_NATIVE, "Non-paginated menus are limited to 10 items.");
return 0;
}
if (!pMenu->m_Items.size())
{
LogError(amx, AMX_ERR_NATIVE, "Blanks can only be added after items.");
return 0;
}
menuitem *item = pMenu->m_Items[pMenu->m_Items.size() - 1];
item->blanks.push_back(params[2]);
return 1;
}
//Adds an item to the menu (returns current item count - 1)
//native menu_additem(menu, const name[], const command[]="", access=0);
static cell AMX_NATIVE_CALL menu_additem(AMX *amx, cell *params)
{
int len;
char *name, *cmd;
int access;
GETMENU(params[1]);
if (!pMenu->items_per_page && pMenu->GetItemCount() >= 10)
{
LogError(amx, AMX_ERR_NATIVE, "Non-paginated menus are limited to 10 items.");
return 0;
}
name = get_amxstring(amx, params[2], 0, len);
validate_menu_text(name);
cmd = get_amxstring(amx, params[3], 1, len);
access = params[4];
menuitem *pItem = pMenu->AddItem(name, cmd, access);
pItem->handler = params[5];
return 1;
}
//Returns the number of pages in a menu
//native csdm_menu_pages(menu);
static cell AMX_NATIVE_CALL menu_pages(AMX *amx, cell *params)
{
GETMENU(params[1]);
return pMenu->GetPageCount();
}
//Returns the number of items in a menu
//native csdm_menu_items(menu);
static cell AMX_NATIVE_CALL menu_items(AMX *amx, cell *params)
{
GETMENU(params[1]);
return pMenu->GetItemCount();
}
//Builds the menu string for a specific page (set title to 0 to not include title)
//page indices start at 0!
static cell AMX_NATIVE_CALL menu_display(AMX *amx, cell *params)
{
GETMENU(params[2]);
int player = params[1];
int page = params[3];
CPlayer* pPlayer = GET_PLAYER_POINTER_I(player);
// This will set the expire time of the menu to infinite
pPlayer->menuexpire = INFINITE;
return pMenu->Display(player, page);
}
//Finds the id of a menu item for a specific page and key value.
//Note that key should be from 0-6, as it only displays 7 per page.
//page indices start at 0
//native menu_keyid(menu, page, key);
static cell AMX_NATIVE_CALL menu_find_id(AMX *amx, cell *params)
{
GETMENU(params[1]);
page_t page = static_cast<page_t>(params[2]);
item_t key = static_cast<item_t>(params[3]);
return pMenu->PagekeyToItem(page, key);
}
//Gets info about a menu option
//native menu_item_getinfo(menu, item, &access, command[], cmdlen, name[]="", namelen=0, &callback);
static cell AMX_NATIVE_CALL menu_item_getinfo(AMX *amx, cell *params)
{
GETMENU(params[1]);
menuitem *pItem = pMenu->GetMenuItem(static_cast<item_t>(params[2]));
if (!pItem)
return 0;
cell *addr = get_amxaddr(amx, params[3]);
addr[0] = pItem->access;
set_amxstring(amx, params[4], pItem->cmd.c_str(), params[5]);
set_amxstring(amx, params[6], pItem->name.c_str(), params[7]);
if (params[8])
{
addr = get_amxaddr(amx, params[8]);
if (addr)
addr[0] = pItem->handler;
}
return 1;
}
static cell AMX_NATIVE_CALL menu_makecallback(AMX *amx, cell *params)
{
int len;
char *name = get_amxstring(amx, params[1], 0, len);
int id = registerSPForwardByName(amx, name, FP_CELL, FP_CELL, FP_CELL, FP_DONE);
if (id == -1)
{
LogError(amx, AMX_ERR_NOTFOUND, "Invalid function %s", name);
return -1;
}
return id;
}
static cell AMX_NATIVE_CALL menu_item_setname(AMX *amx, cell *params)
{
GETMENU(params[1]);
menuitem *pItem = pMenu->GetMenuItem(static_cast<item_t>(params[2]));
if (!pItem)
return 0;
int len;
char *name;
name = get_amxstring(amx, params[3], 0, len);
pItem->name.assign(name);
return 1;
}
static cell AMX_NATIVE_CALL menu_item_setcmd(AMX *amx, cell *params)
{
GETMENU(params[1]);
menuitem *pItem = pMenu->GetMenuItem(static_cast<item_t>(params[2]));
if (!pItem)
return 0;
int len;
char *cmd;
cmd = get_amxstring(amx, params[3], 0, len);
pItem->cmd.assign(cmd);
return 1;
}
static cell AMX_NATIVE_CALL menu_item_setcall(AMX *amx, cell *params)
{
GETMENU(params[1]);
menuitem *pItem = pMenu->GetMenuItem(static_cast<item_t>(params[2]));
if (!pItem)
return 0;
pItem->handler = params[3];
return 1;
}
static cell AMX_NATIVE_CALL menu_setprop(AMX *amx, cell *params)
{
GETMENU(params[1]);
int len = params[0] / sizeof(cell);
if (len < 3)
{
LogError(amx, AMX_ERR_NATIVE, "Expected 3 parameters");
return 0;
}
switch (params[2])
{
case MPROP_PERPAGE:
{
cell count = *get_amxaddr(amx, params[3]);
if (count < 0 || count > 7)
{
LogError(amx, AMX_ERR_NATIVE, "Cannot set %d items per page", count);
return 0;
}
pMenu->items_per_page = count;
break;
}
case MPROP_BACKNAME:
{
char *str = get_amxstring(amx, params[3], 0, len);
validate_menu_text(str);
pMenu->m_OptNames[abs(MENU_BACK)].assign(str);
break;
}
case MPROP_NEXTNAME:
{
char *str = get_amxstring(amx, params[3], 0, len);
validate_menu_text(str);
pMenu->m_OptNames[abs(MENU_MORE)].assign(str);
break;
}
case MPROP_EXITNAME:
{
char *str = get_amxstring(amx, params[3], 0, len);
validate_menu_text(str);
pMenu->m_OptNames[abs(MENU_EXIT)].assign(str);
break;
}
case MPROP_TITLE:
{
char *str = get_amxstring(amx, params[3], 0, len);
int old = pMenu->menuId;
g_menucmds.removeMenuId(old);
pMenu->m_Title.assign(str);
pMenu->menuId = g_menucmds.registerMenuId(str, amx);
g_menucmds.registerMenuCmd(
g_plugins.findPluginFast(amx),
pMenu->menuId,
1023,
pMenu->func);
CPlayer *pl;
/**
* NOTE - this is actually bogus
* the client's screen won't actually match the cmd here
* I think, this scenario needs to be tested.
*/
for (int i=1; i<=gpGlobals->maxClients; i++)
{
pl = GET_PLAYER_POINTER_I(i);
if (pl->menu == old)
pl->menu = pMenu->menuId;
}
break;
}
case MPROP_EXITALL:
{
cell ans = *get_amxaddr(amx, params[3]);
if (ans == 1)
{
pMenu->m_AlwaysExit = true;
pMenu->m_NeverExit = false;
} else if (ans == 0) {
pMenu->m_AlwaysExit = false;
pMenu->m_NeverExit = false;
} else if (ans == -1) {
pMenu->m_NeverExit = true;
pMenu->m_AlwaysExit = false;
}
break;
}
case MPROP_ORDER:
{
cell *addr = get_amxaddr(amx, params[3]);
pMenu->m_OptOrders[0] = addr[0];
pMenu->m_OptOrders[1] = addr[1];
pMenu->m_OptOrders[2] = addr[2];
break;
}
case MPROP_NOCOLORS:
{
pMenu->m_AutoColors = *get_amxaddr(amx, params[3]) ? true : false;
break;
}
case MPROP_PADMENU:
{
pMenu->padding = *get_amxaddr(amx, params[3]);
break;
}
default:
{
LogError(amx, AMX_ERR_NATIVE, "Invalid menu setting: %d", params[1]);
return 0;
}
}
return 1;
}
#define GETMENU_R(p) if (p >= (int)g_NewMenus.size() || p < 0 || !g_NewMenus[p]) { \
LogError(amx, AMX_ERR_NATIVE, "Invalid menu id %d(%d)", p, g_NewMenus.size()); \
return 0; } \
Menu *pMenu = g_NewMenus[p];
static cell AMX_NATIVE_CALL menu_destroy(AMX *amx, cell *params)
{
GETMENU_R(params[1]);
if (pMenu->isDestroying)
return 0; //prevent infinite recursion
pMenu->isDestroying = true;
g_menucmds.removeMenuId(pMenu->menuId);
CPlayer *player;
for (int i=1; i<=gpGlobals->maxClients; i++)
{
player = GET_PLAYER_POINTER_I(i);
if (player->newmenu == pMenu->thisId)
{
executeForwards(pMenu->func,
static_cast<cell>(i),
static_cast<cell>(pMenu->thisId),
static_cast<cell>(MENU_EXIT));
player->newmenu = -1;
player->menu = 0;
}
}
g_NewMenus[params[1]] = NULL;
delete pMenu;
g_MenuFreeStack.push(params[1]);
return 1;
}
static cell AMX_NATIVE_CALL player_menu_info(AMX *amx, cell *params)
{
if (params[1] < 1 || params[1] > gpGlobals->maxClients)
{
LogError(amx, AMX_ERR_NATIVE, "Invalid player id %d", params[1]);
return 0;
}
CPlayer *player = GET_PLAYER_POINTER_I(params[1]);
if (!player->ingame)
{
LogError(amx, AMX_ERR_NATIVE, "Player %d is not ingame", params[1]);
return 0;
}
cell *m = get_amxaddr(amx, params[2]);
cell *n = get_amxaddr(amx, params[3]);
*m = player->menu;
*n = player->newmenu;
if ( (*m != 0 && *m != -1) || (*n != -1))
return 1;
return 0;
}
AMX_NATIVE_INFO g_NewMenuNatives[] =
{
{"menu_create", menu_create},
{"menu_additem", menu_additem},
{"menu_addblank", menu_addblank},
{"menu_pages", menu_pages},
{"menu_items", menu_items},
{"menu_display", menu_display},
{"menu_find_id", menu_find_id},
{"menu_item_getinfo", menu_item_getinfo},
{"menu_makecallback", menu_makecallback},
{"menu_item_setcall", menu_item_setcall},
{"menu_item_setcmd", menu_item_setcmd},
{"menu_item_setname", menu_item_setname},
{"menu_destroy", menu_destroy},
{"menu_setprop", menu_setprop},
{"player_menu_info", player_menu_info},
{NULL, NULL},
};

115
amxmodx/newmenus.h
View File

@ -1,115 +0,0 @@
/* 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.
*/
#ifndef _INCLUDE_NEWMENUS_H
#define _INCLUDE_NEWMENUS_H
#define MENU_EXIT -3
#define MENU_BACK -2
#define MENU_MORE -1
#define ITEM_IGNORE 0
#define ITEM_ENABLED 1
#define ITEM_DISABLED 2
#define MPROP_PERPAGE 1
#define MPROP_BACKNAME 2
#define MPROP_NEXTNAME 3
#define MPROP_EXITNAME 4
#define MPROP_TITLE 5
#define MPROP_EXITALL 6
#define MPROP_ORDER 7
#define MPROP_NOCOLORS 8
#define MPROP_PADMENU 9
typedef int (*MENUITEM_CALLBACK)(int, int, int);
struct menuitem
{
String name;
String cmd;
int access;
int handler;
MENUITEM_CALLBACK pfn;
size_t id;
CVector<int> blanks;
};
typedef unsigned int menu_t;
typedef unsigned int item_t;
typedef unsigned int page_t;
class Menu
{
public:
Menu(const char *title, int menuId, int thisId);
~Menu();
menuitem *GetMenuItem(item_t item);
size_t GetPageCount();
size_t GetItemCount();
menuitem *AddItem(const char *name, const char *cmd, int access);
const char *GetTextString(int player, page_t page, int &keys);
bool Display(int player, page_t page);
int PagekeyToItem(page_t page, item_t key);
int GetMenuMenuid();
public:
CVector<menuitem * > m_Items;
String m_Title;
String m_Text;
String m_OptNames[4];
int m_OptOrders[3];
bool m_AlwaysExit;
bool m_NeverExit;
bool m_AutoColors;
int menuId;
int thisId;
int func;
int padding;
bool isDestroying;
public:
unsigned int items_per_page;
};
void ClearMenus();
extern CVector<Menu *> g_NewMenus;
extern AMX_NATIVE_INFO g_NewMenuNatives[];
#endif //_INCLUDE_NEWMENUS_H

103
amxmodx/optimizer.cpp
View File

@ -1,103 +0,0 @@
#include <string.h>
#include "optimizer.h"
#define OP_SYSREQ_C 123
#define OP_NOP 134
#define OP_FLOAT_MUL 138
#define OP_FLOAT_DIV 139
#define OP_FLOAT_ADD 140
#define OP_FLOAT_SUB 141
#define OP_FLOAT_TO 142
#define OP_FLOAT_ROUND 143
#define OP_FLOAT_CMP 144
cell op_trans_table[N_Total_FloatOps] =
{
OP_FLOAT_MUL,
OP_FLOAT_DIV,
OP_FLOAT_ADD,
OP_FLOAT_SUB,
OP_FLOAT_TO,
OP_FLOAT_ROUND,
OP_FLOAT_CMP
};
void OnBrowseRelocate(AMX *amx, cell *oplist, cell *cip)
{
char *codeptr = (char *)amx->base + (long)(((AMX_HEADER *)amx->base)->cod);
//jump to the parameter;
codeptr += *cip;
int native = -1;
cell n_offs = *(cell *)codeptr;
optimizer_s *opt = (optimizer_s *)amx->usertags[UT_OPTIMIZER];
for (int i=0; i<N_Total_FloatOps; i++)
{
if (opt->natives[i] == n_offs)
{
native = i;
break;
}
}
if (native != -1)
{
//we're patching this:
// 0x7B 0x?? SYSREQ.C float???
//with:
// 0x8A FLOAT.MUL
// 0x86 NOP
cell new_opcodes[2];
new_opcodes[0] = op_trans_table[native];
new_opcodes[1] = OP_NOP;
codeptr -= sizeof(cell);
#if defined __GNUC__ || defined ASM32 || defined JIT
*(cell *)codeptr = oplist[new_opcodes[0]];
*(cell *)(codeptr + sizeof(cell)) = oplist[new_opcodes[1]];
#else
*(cell *)codeptr = new_opcodes[0];
*(cell *)(codeptr + sizeof(cell)) = new_opcodes[1];
#endif
}
*cip += sizeof(cell);
return;
}
#define FIND_NATIVE(name, bind) \
if (amx_FindNative(amx, name, &index) != AMX_ERR_NOTFOUND) \
opt->natives[bind] = index;
void _Setup_Optimizer_Stage2(AMX *amx, cell *oplist, cell *cip)
{
int index;
amx->usertags[UT_BROWSEHOOK] = (void *)OnBrowseRelocate;
optimizer_s *opt = new optimizer_s;
for (int i=0; i<N_Total_FloatOps; i++)
opt->natives[i] = -1;
amx->usertags[UT_OPTIMIZER] = (void *)opt;
FIND_NATIVE("floatmul", N_Float_Mul);
FIND_NATIVE("floatdiv", N_Float_Div);
FIND_NATIVE("floatadd", N_Float_Add);
FIND_NATIVE("floatsub", N_Float_Sub);
FIND_NATIVE("float", N_Float_To);
FIND_NATIVE("floatround", N_Float_Round);
FIND_NATIVE("floatcmp", N_Float_Cmp);
//we don't do these yet because of radix stuff >:\
//FIND_NATIVE("floatsin", N_Float_Sin);
//FIND_NATIVE("floatcos", N_Float_Cos);
//FIND_NATIVE("floattan", N_Float_Tan);
}
void SetupOptimizer(AMX *amx)
{
amx->usertags[UT_BROWSEHOOK] = (void *)_Setup_Optimizer_Stage2;
}

26
amxmodx/optimizer.h
View File

@ -1,26 +0,0 @@
#ifndef _INCLUDE_AMXMODX_OPTIMIZER_H
#define _INCLUDE_AMXMODX_OPTIMIZER_H
#include "amx.h"
enum
{
N_Float_Mul=0,
N_Float_Div,
N_Float_Add,
N_Float_Sub,
N_Float_To,
N_Float_Round,
N_Float_Cmp,
/* ------------ */
N_Total_FloatOps,
};
struct optimizer_s
{
int natives[N_Total_FloatOps];
};
void SetupOptimizer(AMX *amx);
#endif //_INCLUDE_AMXMODX_OPTIMIZER_H

1
amxmodx/power.cpp
View File

@ -6,7 +6,6 @@
* This file may be freely used. No warranties of any kind. * This file may be freely used. No warranties of any kind.
*/ */
#include <stdlib.h>
// this file does not include amxmodx.h, so we have to include the memory manager here // this file does not include amxmodx.h, so we have to include the memory manager here
#ifdef MEMORY_TEST #ifdef MEMORY_TEST
#include "mmgr/mmgr.h" #include "mmgr/mmgr.h"

7
amxmodx/sclinux.h
View File

@ -20,13 +20,6 @@
#define stricmp(a,b) strcasecmp(a,b) #define stricmp(a,b) strcasecmp(a,b)
#define strnicmp(a,b,c) strncasecmp(a,b,c) #define strnicmp(a,b,c) strncasecmp(a,b,c)
#if defined __linux__ && !defined _snprintf
#define _snprintf snprintf
#endif
#if defined __linux__ && !defined _vsnprintf
//#define _vsnprintf vsnprintf
#endif
/* /*
* WinWorld wants '\'. Unices do not. * WinWorld wants '\'. Unices do not.
*/ */

126
amxmodx/sdk/amxxmodule.cpp
View File

@ -45,13 +45,6 @@
enginefuncs_t g_engfuncs; enginefuncs_t g_engfuncs;
globalvars_t *gpGlobals; globalvars_t *gpGlobals;
DLL_FUNCTIONS *g_pFunctionTable;
DLL_FUNCTIONS *g_pFunctionTable_Post;
enginefuncs_t *g_pengfuncsTable;
enginefuncs_t *g_pengfuncsTable_Post;
NEW_DLL_FUNCTIONS *g_pNewFunctionsTable;
NEW_DLL_FUNCTIONS *g_pNewFunctionsTable_Post;
// GetEntityAPI2 functions // GetEntityAPI2 functions
static DLL_FUNCTIONS g_EntityAPI_Table = static DLL_FUNCTIONS g_EntityAPI_Table =
{ {
@ -2121,7 +2114,6 @@ C_DLLEXPORT int GetEntityAPI2(DLL_FUNCTIONS *pFunctionTable, int *interfaceVersi
return(FALSE); return(FALSE);
} }
memcpy(pFunctionTable, &g_EntityAPI_Table, sizeof(DLL_FUNCTIONS)); memcpy(pFunctionTable, &g_EntityAPI_Table, sizeof(DLL_FUNCTIONS));
g_pFunctionTable=pFunctionTable;
return(TRUE); return(TRUE);
} }
@ -2139,7 +2131,7 @@ C_DLLEXPORT int GetEntityAPI2_Post(DLL_FUNCTIONS *pFunctionTable, int *interface
return(FALSE); return(FALSE);
} }
memcpy( pFunctionTable, &g_EntityAPI_Post_Table, sizeof( DLL_FUNCTIONS ) ); memcpy( pFunctionTable, &g_EntityAPI_Post_Table, sizeof( DLL_FUNCTIONS ) );
g_pFunctionTable_Post=pFunctionTable;
return(TRUE); return(TRUE);
} }
@ -2162,7 +2154,6 @@ C_DLLEXPORT int GetEngineFunctions(enginefuncs_t *pengfuncsFromEngine, int *inte
return(FALSE); return(FALSE);
} }
memcpy(pengfuncsFromEngine, &g_EngineFuncs_Table, sizeof(enginefuncs_t)); memcpy(pengfuncsFromEngine, &g_EngineFuncs_Table, sizeof(enginefuncs_t));
g_pengfuncsTable=pengfuncsFromEngine;
return TRUE; return TRUE;
} }
@ -2180,7 +2171,6 @@ C_DLLEXPORT int GetEngineFunctions_Post(enginefuncs_t *pengfuncsFromEngine, int
return(FALSE); return(FALSE);
} }
memcpy(pengfuncsFromEngine, &g_EngineFuncs_Post_Table, sizeof(enginefuncs_t)); memcpy(pengfuncsFromEngine, &g_EngineFuncs_Post_Table, sizeof(enginefuncs_t));
g_pengfuncsTable_Post=pengfuncsFromEngine;
return TRUE; return TRUE;
} }
@ -2205,7 +2195,6 @@ C_DLLEXPORT int GetNewDLLFunctions(NEW_DLL_FUNCTIONS *pNewFunctionTable,
return(FALSE); return(FALSE);
} }
memcpy(pNewFunctionTable, &g_NewFuncs_Table, sizeof(NEW_DLL_FUNCTIONS)); memcpy(pNewFunctionTable, &g_NewFuncs_Table, sizeof(NEW_DLL_FUNCTIONS));
g_pNewFunctionsTable=pNewFunctionTable;
return TRUE; return TRUE;
} }
@ -2223,7 +2212,6 @@ C_DLLEXPORT int GetNewDLLFunctions_Post( NEW_DLL_FUNCTIONS *pNewFunctionTable, i
return(FALSE); return(FALSE);
} }
memcpy(pNewFunctionTable, &g_NewFuncs_Post_Table, sizeof(NEW_DLL_FUNCTIONS)); memcpy(pNewFunctionTable, &g_NewFuncs_Post_Table, sizeof(NEW_DLL_FUNCTIONS));
g_pNewFunctionsTable_Post=pNewFunctionTable;
return TRUE; return TRUE;
} }
@ -2418,6 +2406,9 @@ C_DLLEXPORT void __stdcall GiveFnptrsToDll( enginefuncs_t* pengfuncsFromEngine,
/************* AMXX Stuff *************/ /************* AMXX Stuff *************/
// *** Types ***
typedef void* (*PFN_REQ_FNPTR)(const char * /*name*/);
// *** Globals *** // *** Globals ***
// Module info // Module info
static amxx_module_info_s g_ModuleInfo = static amxx_module_info_s g_ModuleInfo =
@ -2426,17 +2417,15 @@ static amxx_module_info_s g_ModuleInfo =
MODULE_AUTHOR, MODULE_AUTHOR,
MODULE_VERSION, MODULE_VERSION,
#ifdef MODULE_RELOAD_ON_MAPCHANGE #ifdef MODULE_RELOAD_ON_MAPCHANGE
1, 1
#else // MODULE_RELOAD_ON_MAPCHANGE #else // MODULE_RELOAD_ON_MAPCHANGE
0, 0
#endif // MODULE_RELOAD_ON_MAPCHANGE #endif // MODULE_RELOAD_ON_MAPCHANGE
MODULE_LOGTAG
}; };
// Storage for the requested functions // Storage for the requested functions
PFN_ADD_NATIVES g_fn_AddNatives; PFN_ADD_NATIVES g_fn_AddNatives;
PFN_BUILD_PATHNAME g_fn_BuildPathname; PFN_BUILD_PATHNAME g_fn_BuildPathname;
PFN_BUILD_PATHNAME_R g_fn_BuildPathnameR;
PFN_GET_AMXADDR g_fn_GetAmxAddr; PFN_GET_AMXADDR g_fn_GetAmxAddr;
PFN_PRINT_SRVCONSOLE g_fn_PrintSrvConsole; PFN_PRINT_SRVCONSOLE g_fn_PrintSrvConsole;
PFN_GET_MODNAME g_fn_GetModname; PFN_GET_MODNAME g_fn_GetModname;
@ -2450,14 +2439,11 @@ PFN_GET_AMXSTRINGLEN g_fn_GetAmxStringLen;
PFN_FORMAT_AMXSTRING g_fn_FormatAmxString; PFN_FORMAT_AMXSTRING g_fn_FormatAmxString;
PFN_COPY_AMXMEMORY g_fn_CopyAmxMemory; PFN_COPY_AMXMEMORY g_fn_CopyAmxMemory;
PFN_LOG g_fn_Log; PFN_LOG g_fn_Log;
PFN_LOG_ERROR g_fn_LogErrorFunc;
PFN_RAISE_AMXERROR g_fn_RaiseAmxError; PFN_RAISE_AMXERROR g_fn_RaiseAmxError;
PFN_REGISTER_FORWARD g_fn_RegisterForward; PFN_REGISTER_FORWARD g_fn_RegisterForward;
PFN_EXECUTE_FORWARD g_fn_ExecuteForward; PFN_EXECUTE_FORWARD g_fn_ExecuteForward;
PFN_PREPARE_CELLARRAY g_fn_PrepareCellArray; PFN_PREPARE_CELLARRAY g_fn_PrepareCellArray;
PFN_PREPARE_CHARARRAY g_fn_PrepareCharArray; PFN_PREPARE_CHARARRAY g_fn_PrepareCharArray;
PFN_PREPARE_CELLARRAY_A g_fn_PrepareCellArrayA;
PFN_PREPARE_CHARARRAY_A g_fn_PrepareCharArrayA;
PFN_IS_PLAYER_VALID g_fn_IsPlayerValid; PFN_IS_PLAYER_VALID g_fn_IsPlayerValid;
PFN_GET_PLAYER_NAME g_fn_GetPlayerName; PFN_GET_PLAYER_NAME g_fn_GetPlayerName;
PFN_GET_PLAYER_IP g_fn_GetPlayerIP; PFN_GET_PLAYER_IP g_fn_GetPlayerIP;
@ -2467,7 +2453,6 @@ PFN_IS_PLAYER_AUTHORIZED g_fn_IsPlayerAuthorized;
PFN_GET_PLAYER_TIME g_fn_GetPlayerTime; PFN_GET_PLAYER_TIME g_fn_GetPlayerTime;
PFN_GET_PLAYER_PLAYTIME g_fn_GetPlayerPlayTime; PFN_GET_PLAYER_PLAYTIME g_fn_GetPlayerPlayTime;
PFN_GET_PLAYER_CURWEAPON g_fn_GetPlayerCurweapon; PFN_GET_PLAYER_CURWEAPON g_fn_GetPlayerCurweapon;
PFN_GET_PLAYER_TEAM g_fn_GetPlayerTeam;
PFN_GET_PLAYER_TEAMID g_fn_GetPlayerTeamID; PFN_GET_PLAYER_TEAMID g_fn_GetPlayerTeamID;
PFN_GET_PLAYER_DEATHS g_fn_GetPlayerDeaths; PFN_GET_PLAYER_DEATHS g_fn_GetPlayerDeaths;
PFN_GET_PLAYER_MENU g_fn_GetPlayerMenu; PFN_GET_PLAYER_MENU g_fn_GetPlayerMenu;
@ -2478,11 +2463,9 @@ PFN_IS_PLAYER_CONNECTING g_fn_IsPlayerConnecting;
PFN_IS_PLAYER_HLTV g_fn_IsPlayerHLTV; PFN_IS_PLAYER_HLTV g_fn_IsPlayerHLTV;
PFN_GET_PLAYER_ARMOR g_fn_GetPlayerArmor; PFN_GET_PLAYER_ARMOR g_fn_GetPlayerArmor;
PFN_GET_PLAYER_HEALTH g_fn_GetPlayerHealth; PFN_GET_PLAYER_HEALTH g_fn_GetPlayerHealth;
#ifdef MEMORY_TEST
PFN_ALLOCATOR g_fn_Allocator; PFN_ALLOCATOR g_fn_Allocator;
PFN_REALLOCATOR g_fn_Reallocator; PFN_REALLOCATOR g_fn_Reallocator;
PFN_DEALLOCATOR g_fn_Deallocator; PFN_DEALLOCATOR g_fn_Deallocator;
#endif
PFN_AMX_EXEC g_fn_AmxExec; PFN_AMX_EXEC g_fn_AmxExec;
PFN_AMX_EXECV g_fn_AmxExecv; PFN_AMX_EXECV g_fn_AmxExecv;
PFN_AMX_ALLOT g_fn_AmxAllot; PFN_AMX_ALLOT g_fn_AmxAllot;
@ -2495,17 +2478,6 @@ PFN_REGISTER_SPFORWARD g_fn_RegisterSPForward;
PFN_REGISTER_SPFORWARD_BYNAME g_fn_RegisterSPForwardByName; PFN_REGISTER_SPFORWARD_BYNAME g_fn_RegisterSPForwardByName;
PFN_UNREGISTER_SPFORWARD g_fn_UnregisterSPForward; PFN_UNREGISTER_SPFORWARD g_fn_UnregisterSPForward;
PFN_MERGEDEFINITION_FILE g_fn_MergeDefinition_File; PFN_MERGEDEFINITION_FILE g_fn_MergeDefinition_File;
PFN_AMX_FINDNATIVE g_fn_AmxFindNative;
PFN_GETPLAYERFLAGS g_fn_GetPlayerFlags;
PFN_GET_PLAYER_EDICT g_fn_GetPlayerEdict;
PFN_FORMAT g_fn_Format;
PFN_REGISTERFUNCTION g_fn_RegisterFunction;
PFN_REQ_FNPTR g_fn_RequestFunction;
PFN_AMX_PUSH g_fn_AmxPush;
PFN_SET_TEAM_INFO g_fn_SetTeamInfo;
PFN_PLAYER_PROP_ADDR g_fn_PlayerPropAddr;
PFN_REG_AUTH_FUNC g_fn_RegAuthFunc;
PFN_UNREG_AUTH_FUNC g_fn_UnregAuthFunc;
// *** Exports *** // *** Exports ***
C_DLLEXPORT int AMXX_Query(int *interfaceVersion, amxx_module_info_s *moduleInfo) C_DLLEXPORT int AMXX_Query(int *interfaceVersion, amxx_module_info_s *moduleInfo)
@ -2543,19 +2515,13 @@ C_DLLEXPORT int AMXX_Attach(PFN_REQ_FNPTR reqFnptrFunc)
if (!reqFnptrFunc) if (!reqFnptrFunc)
return AMXX_PARAM; return AMXX_PARAM;
g_fn_RequestFunction = reqFnptrFunc;
// Req all known functions // Req all known functions
// Misc // Misc
REQFUNC("BuildPathname", g_fn_BuildPathname, PFN_BUILD_PATHNAME); REQFUNC("BuildPathname", g_fn_BuildPathname, PFN_BUILD_PATHNAME);
REQFUNC("BuildPathnameR", g_fn_BuildPathnameR, PFN_BUILD_PATHNAME_R);
REQFUNC("PrintSrvConsole", g_fn_PrintSrvConsole, PFN_PRINT_SRVCONSOLE); REQFUNC("PrintSrvConsole", g_fn_PrintSrvConsole, PFN_PRINT_SRVCONSOLE);
REQFUNC("GetModname", g_fn_GetModname, PFN_GET_MODNAME); REQFUNC("GetModname", g_fn_GetModname, PFN_GET_MODNAME);
REQFUNC("Log", g_fn_Log, PFN_LOG); REQFUNC("Log", g_fn_Log, PFN_LOG);
REQFUNC("LogError", g_fn_LogErrorFunc, PFN_LOG_ERROR);
REQFUNC("MergeDefinitionFile", g_fn_MergeDefinition_File, PFN_MERGEDEFINITION_FILE); REQFUNC("MergeDefinitionFile", g_fn_MergeDefinition_File, PFN_MERGEDEFINITION_FILE);
REQFUNC("Format", g_fn_Format, PFN_FORMAT);
REQFUNC("RegisterFunction", g_fn_RegisterFunction, PFN_REGISTERFUNCTION);
// Amx scripts // Amx scripts
REQFUNC("GetAmxScript", g_fn_GetAmxScript, PFN_GET_AMXSCRIPT); REQFUNC("GetAmxScript", g_fn_GetAmxScript, PFN_GET_AMXSCRIPT);
@ -2563,7 +2529,6 @@ C_DLLEXPORT int AMXX_Attach(PFN_REQ_FNPTR reqFnptrFunc)
REQFUNC("FindAmxScriptByName", g_fn_FindAmxScriptByName, PFN_FIND_AMXSCRIPT_BYNAME); REQFUNC("FindAmxScriptByName", g_fn_FindAmxScriptByName, PFN_FIND_AMXSCRIPT_BYNAME);
REQFUNC("LoadAmxScript", g_fn_LoadAmxScript, PFN_LOAD_AMXSCRIPT); REQFUNC("LoadAmxScript", g_fn_LoadAmxScript, PFN_LOAD_AMXSCRIPT);
REQFUNC("UnloadAmxScript", g_fn_UnloadAmxScript, PFN_UNLOAD_AMXSCRIPT); REQFUNC("UnloadAmxScript", g_fn_UnloadAmxScript, PFN_UNLOAD_AMXSCRIPT);
REQFUNC("GetAmxScriptName", g_fn_GetAmxScriptName, PFN_GET_AMXSCRIPTNAME);
// String / mem in amx scripts support // String / mem in amx scripts support
REQFUNC("SetAmxString", g_fn_SetAmxString, PFN_SET_AMXSTRING); REQFUNC("SetAmxString", g_fn_SetAmxString, PFN_SET_AMXSTRING);
@ -2577,7 +2542,6 @@ C_DLLEXPORT int AMXX_Attach(PFN_REQ_FNPTR reqFnptrFunc)
REQFUNC("amx_Execv", g_fn_AmxExecv, PFN_AMX_EXECV); REQFUNC("amx_Execv", g_fn_AmxExecv, PFN_AMX_EXECV);
REQFUNC("amx_FindPublic", g_fn_AmxFindPublic, PFN_AMX_FINDPUBLIC); REQFUNC("amx_FindPublic", g_fn_AmxFindPublic, PFN_AMX_FINDPUBLIC);
REQFUNC("amx_Allot", g_fn_AmxAllot, PFN_AMX_ALLOT); REQFUNC("amx_Allot", g_fn_AmxAllot, PFN_AMX_ALLOT);
REQFUNC("amx_FindNative", g_fn_AmxFindNative, PFN_AMX_FINDNATIVE);
// Natives / Forwards // Natives / Forwards
REQFUNC("AddNatives", g_fn_AddNatives, PFN_ADD_NATIVES); REQFUNC("AddNatives", g_fn_AddNatives, PFN_ADD_NATIVES);
@ -2589,8 +2553,7 @@ C_DLLEXPORT int AMXX_Attach(PFN_REQ_FNPTR reqFnptrFunc)
REQFUNC("ExecuteForward", g_fn_ExecuteForward, PFN_EXECUTE_FORWARD); REQFUNC("ExecuteForward", g_fn_ExecuteForward, PFN_EXECUTE_FORWARD);
REQFUNC("PrepareCellArray", g_fn_PrepareCellArray, PFN_PREPARE_CELLARRAY); REQFUNC("PrepareCellArray", g_fn_PrepareCellArray, PFN_PREPARE_CELLARRAY);
REQFUNC("PrepareCharArray", g_fn_PrepareCharArray, PFN_PREPARE_CHARARRAY); REQFUNC("PrepareCharArray", g_fn_PrepareCharArray, PFN_PREPARE_CHARARRAY);
REQFUNC("PrepareCellArrayA", g_fn_PrepareCellArrayA, PFN_PREPARE_CELLARRAY_A);
REQFUNC("PrepareCharArrayA", g_fn_PrepareCharArrayA, PFN_PREPARE_CHARARRAY_A);
// Player // Player
REQFUNC("IsPlayerValid", g_fn_IsPlayerValid, PFN_IS_PLAYER_VALID); REQFUNC("IsPlayerValid", g_fn_IsPlayerValid, PFN_IS_PLAYER_VALID);
REQFUNC("GetPlayerName", g_fn_GetPlayerName, PFN_GET_PLAYER_NAME); REQFUNC("GetPlayerName", g_fn_GetPlayerName, PFN_GET_PLAYER_NAME);
@ -2602,7 +2565,6 @@ C_DLLEXPORT int AMXX_Attach(PFN_REQ_FNPTR reqFnptrFunc)
REQFUNC("GetPlayerPlayTime", g_fn_GetPlayerPlayTime, PFN_GET_PLAYER_PLAYTIME); REQFUNC("GetPlayerPlayTime", g_fn_GetPlayerPlayTime, PFN_GET_PLAYER_PLAYTIME);
REQFUNC("GetPlayerCurweapon", g_fn_GetPlayerCurweapon, PFN_GET_PLAYER_CURWEAPON); REQFUNC("GetPlayerCurweapon", g_fn_GetPlayerCurweapon, PFN_GET_PLAYER_CURWEAPON);
REQFUNC("GetPlayerTeamID", g_fn_GetPlayerTeamID, PFN_GET_PLAYER_TEAMID); REQFUNC("GetPlayerTeamID", g_fn_GetPlayerTeamID, PFN_GET_PLAYER_TEAMID);
REQFUNC("GetPlayerTeam",g_fn_GetPlayerTeam, PFN_GET_PLAYER_TEAM);
REQFUNC("GetPlayerDeaths", g_fn_GetPlayerDeaths, PFN_GET_PLAYER_DEATHS); REQFUNC("GetPlayerDeaths", g_fn_GetPlayerDeaths, PFN_GET_PLAYER_DEATHS);
REQFUNC("GetPlayerMenu", g_fn_GetPlayerMenu, PFN_GET_PLAYER_MENU); REQFUNC("GetPlayerMenu", g_fn_GetPlayerMenu, PFN_GET_PLAYER_MENU);
REQFUNC("GetPlayerKeys", g_fn_GetPlayerKeys, PFN_GET_PLAYER_KEYS); REQFUNC("GetPlayerKeys", g_fn_GetPlayerKeys, PFN_GET_PLAYER_KEYS);
@ -2612,20 +2574,11 @@ C_DLLEXPORT int AMXX_Attach(PFN_REQ_FNPTR reqFnptrFunc)
REQFUNC("IsPlayerHLTV", g_fn_IsPlayerHLTV, PFN_IS_PLAYER_HLTV); REQFUNC("IsPlayerHLTV", g_fn_IsPlayerHLTV, PFN_IS_PLAYER_HLTV);
REQFUNC("GetPlayerArmor", g_fn_GetPlayerArmor, PFN_GET_PLAYER_ARMOR); REQFUNC("GetPlayerArmor", g_fn_GetPlayerArmor, PFN_GET_PLAYER_ARMOR);
REQFUNC("GetPlayerHealth", g_fn_GetPlayerHealth, PFN_GET_PLAYER_HEALTH); REQFUNC("GetPlayerHealth", g_fn_GetPlayerHealth, PFN_GET_PLAYER_HEALTH);
REQFUNC("GetPlayerFlags", g_fn_GetPlayerFlags, PFN_GETPLAYERFLAGS);
REQFUNC("GetPlayerEdict", g_fn_GetPlayerEdict, PFN_GET_PLAYER_EDICT);
REQFUNC("amx_Push", g_fn_AmxPush, PFN_AMX_PUSH);
REQFUNC("SetPlayerTeamInfo", g_fn_SetTeamInfo, PFN_SET_TEAM_INFO);
REQFUNC("PlayerPropAddr", g_fn_PlayerPropAddr, PFN_PLAYER_PROP_ADDR);
REQFUNC("RegAuthFunc", g_fn_RegAuthFunc, PFN_REG_AUTH_FUNC);
REQFUNC("UnregAuthFunc", g_fn_UnregAuthFunc, PFN_UNREG_AUTH_FUNC);
#ifdef MEMORY_TEST
// Memory // Memory
REQFUNC_OPT("Allocator", g_fn_Allocator, PFN_ALLOCATOR); REQFUNC_OPT("Allocator", g_fn_Allocator, PFN_ALLOCATOR);
REQFUNC_OPT("Reallocator", g_fn_Reallocator, PFN_REALLOCATOR); REQFUNC_OPT("Reallocator", g_fn_Reallocator, PFN_REALLOCATOR);
REQFUNC_OPT("Deallocator", g_fn_Deallocator, PFN_DEALLOCATOR); REQFUNC_OPT("Deallocator", g_fn_Deallocator, PFN_DEALLOCATOR);
#endif
REQFUNC("CellToReal", g_fn_CellToReal, PFN_CELL_TO_REAL); REQFUNC("CellToReal", g_fn_CellToReal, PFN_CELL_TO_REAL);
REQFUNC("RealToCell", g_fn_RealToCell, PFN_REAL_TO_CELL); REQFUNC("RealToCell", g_fn_RealToCell, PFN_REAL_TO_CELL);
@ -2664,19 +2617,7 @@ void MF_Log(const char *fmt, ...)
vsprintf(msg, fmt, arglst); vsprintf(msg, fmt, arglst);
va_end(arglst); va_end(arglst);
g_fn_Log("[%s] %s", MODULE_LOGTAG, msg); g_fn_Log("[%s] %s", MODULE_NAME, msg);
}
void MF_LogError(AMX *amx, int err, const char *fmt, ...)
{
// :TODO: Overflow possible here
char msg[3072];
va_list arglst;
va_start(arglst, fmt);
vsprintf(msg, fmt, arglst);
va_end(arglst);
g_fn_LogErrorFunc(amx, err, "[%s] %s", MODULE_LOGTAG, msg);
} }
@ -2686,7 +2627,6 @@ void MF_LogError(AMX *amx, int err, const char *fmt, ...)
void ValidateMacros_DontCallThis_Smiley() void ValidateMacros_DontCallThis_Smiley()
{ {
MF_BuildPathname("str", "str", 0); MF_BuildPathname("str", "str", 0);
MF_BuildPathnameR(NULL, 0, "%d", 0);
MF_FormatAmxString(NULL, 0, 0, NULL); MF_FormatAmxString(NULL, 0, 0, NULL);
MF_GetAmxAddr(NULL, 0); MF_GetAmxAddr(NULL, 0);
MF_PrintSrvConsole("str", "str", 0); MF_PrintSrvConsole("str", "str", 0);
@ -2700,14 +2640,11 @@ void ValidateMacros_DontCallThis_Smiley()
MF_GetAmxStringLen(NULL); MF_GetAmxStringLen(NULL);
MF_CopyAmxMemory(NULL, NULL, 0); MF_CopyAmxMemory(NULL, NULL, 0);
MF_Log("str", "str", 0); MF_Log("str", "str", 0);
MF_LogError(NULL, 0, NULL);
MF_RaiseAmxError(NULL, 0); MF_RaiseAmxError(NULL, 0);
MF_RegisterForward("str", (ForwardExecType)0, 0, 0, 0); MF_RegisterForward("str", (ForwardExecType)0, 0, 0, 0);
MF_ExecuteForward(0, 0, 0); MF_ExecuteForward(0, 0, 0);
MF_PrepareCellArray(NULL, 0); MF_PrepareCellArray(NULL, 0);
MF_PrepareCharArray(NULL, 0); MF_PrepareCharArray(NULL, 0);
MF_PrepareCellArrayA(NULL, 0, true);
MF_PrepareCharArrayA(NULL, 0, true);
MF_IsPlayerValid(0); MF_IsPlayerValid(0);
MF_GetPlayerName(0); MF_GetPlayerName(0);
MF_GetPlayerIP(0); MF_GetPlayerIP(0);
@ -2718,7 +2655,6 @@ void ValidateMacros_DontCallThis_Smiley()
MF_GetPlayerPlayTime(0); MF_GetPlayerPlayTime(0);
MF_GetPlayerCurweapon(0); MF_GetPlayerCurweapon(0);
MF_GetPlayerTeamID(0); MF_GetPlayerTeamID(0);
MF_GetPlayerTeam(0);
MF_GetPlayerDeaths(0); MF_GetPlayerDeaths(0);
MF_GetPlayerMenu(0); MF_GetPlayerMenu(0);
MF_GetPlayerKeys(0); MF_GetPlayerKeys(0);
@ -2728,28 +2664,18 @@ void ValidateMacros_DontCallThis_Smiley()
MF_IsPlayerHLTV(0); MF_IsPlayerHLTV(0);
MF_GetPlayerArmor(0); MF_GetPlayerArmor(0);
MF_GetPlayerHealth(0); MF_GetPlayerHealth(0);
MF_AmxExec(0, 0, 0); MF_AmxExec(0, 0, 0, 0);
MF_AmxExecv(0, 0, 0, 0, 0); MF_AmxExecv(0, 0, 0, 0, 0);
MF_AmxFindPublic(0, 0, 0); MF_AmxFindPublic(0, 0, 0);
MF_AmxAllot(0, 0, 0, 0); MF_AmxAllot(0, 0, 0, 0);
MF_LoadAmxScript(0, 0, 0, 0, 0); MF_LoadAmxScript(0, 0, 0, 0);
MF_UnloadAmxScript(0, 0); MF_UnloadAmxScript(0, 0);
MF_RegisterSPForward(0, 0, 0, 0, 0, 0); MF_RegisterSPForward(0, 0, 0, 0, 0, 0);
MF_RegisterSPForwardByName(0, 0, 0, 0, 0, 0); MF_RegisterSPForwardByName(0, 0, 0, 0, 0, 0);
MF_UnregisterSPForward(0); MF_UnregisterSPForward(0);
MF_GetPlayerFrags(0);
MF_GetPlayerEdict(0);
MF_Format("", 4, "str");
MF_RegisterFunction(NULL, "");
MF_SetPlayerTeamInfo(0, 0, "");
MF_PlayerPropAddr(0, 0);
MF_RegAuthFunc(NULL);
MF_UnregAuthFunc(NULL);
} }
#endif #endif
#ifdef MEMORY_TEST
/************* MEMORY *************/ /************* MEMORY *************/
// undef all defined macros // undef all defined macros
#undef new #undef new
@ -2863,7 +2789,7 @@ void *operator new(size_t reportedSize)
return ptr; return ptr;
// allocation failed // allocation failed
return NULL; throw std::bad_alloc();
} }
void *operator new[](size_t reportedSize) void *operator new[](size_t reportedSize)
@ -2876,7 +2802,7 @@ void *operator new[](size_t reportedSize)
return ptr; return ptr;
// allocation failed // allocation failed
return NULL; throw std::bad_alloc();
} }
// Microsoft memory tracking operators // Microsoft memory tracking operators
@ -2890,7 +2816,7 @@ void *operator new(size_t reportedSize, const char *sourceFile, int sourceLine)
return ptr; return ptr;
// allocation failed // allocation failed
return NULL; throw std::bad_alloc();
} }
void *operator new[](size_t reportedSize, const char *sourceFile, int sourceLine) void *operator new[](size_t reportedSize, const char *sourceFile, int sourceLine)
{ {
@ -2902,7 +2828,7 @@ void *operator new[](size_t reportedSize, const char *sourceFile, int sourceLine
return ptr; return ptr;
// allocation failed // allocation failed
return NULL; throw std::bad_alloc();
} }
void operator delete(void *reportedAddress) void operator delete(void *reportedAddress)
@ -2921,30 +2847,6 @@ void operator delete[](void *reportedAddress)
Mem_Deallocator(g_Mem_CurrentFilename, g_Mem_CurrentLine, g_Mem_CurrentFunc, m_alloc_delete_array, reportedAddress); Mem_Deallocator(g_Mem_CurrentFilename, g_Mem_CurrentLine, g_Mem_CurrentFunc, m_alloc_delete_array, reportedAddress);
} }
#else
#if !defined NO_ALLOC_OVERRIDES && !defined MEMORY_TEST && !defined WIN32
void * operator new(size_t size) {
return(calloc(1, size));
}
void * operator new[](size_t size) {
return(calloc(1, size));
}
void operator delete(void * ptr) {
if(ptr)
free(ptr);
}
void operator delete[](void * ptr) {
if(ptr)
free(ptr);
}
#endif
#endif //MEMORY_TEST
/************* stuff from dlls/util.cpp *************/ /************* stuff from dlls/util.cpp *************/
// must come here because cbase.h declares it's own operator new // must come here because cbase.h declares it's own operator new

247
amxmodx/sdk/amxxmodule.h
View File

@ -31,10 +31,8 @@
// ***** AMXX stuff ***** // ***** AMXX stuff *****
// module interface version was 1 // module interface version is 1
// 2 - added logtag to struct (amxx1.1-rc1) #define AMXX_INTERFACE_VERSION 1
// 3 - added new tagAMX structure (amxx1.5)
#define AMXX_INTERFACE_VERSION 3
// amxx module info // amxx module info
struct amxx_module_info_s struct amxx_module_info_s
@ -43,9 +41,10 @@ struct amxx_module_info_s
const char *author; const char *author;
const char *version; const char *version;
int reload; // reload on mapchange when nonzero int reload; // reload on mapchange when nonzero
const char *logtag; // added in version 2
}; };
// return values from functions called by amxx // return values from functions called by amxx
#define AMXX_OK 0 /* no error */ #define AMXX_OK 0 /* no error */
#define AMXX_IFVERS 1 /* interface version */ #define AMXX_IFVERS 1 /* interface version */
@ -54,56 +53,39 @@ struct amxx_module_info_s
// *** Small stuff *** // *** Small stuff ***
// The next section is copied from the amx.h file // The next section is copied from the amx.h file
// Copyright (c) ITB CompuPhase, 1997-2005 // Copyright (c) ITB CompuPhase, 1997-2004
#if defined HAVE_STDINT_H #if defined __LCC__ || defined __DMC__ || defined __linux__
#include <stdint.h> #include <stdint.h>
#else #elif !defined __STDC_VERSION__ || __STDC_VERSION__ < 199901L
#if defined __LCC__ || defined __DMC__ || defined LINUX /* The ISO C99 defines the int16_t and int_32t types. If the compiler got
#if defined HAVE_INTTYPES_H * here, these types are probably undefined.
#include <inttypes.h> */
#if defined __FreeBSD__
#include <inttypes.h>
#else
typedef short int int16_t;
typedef unsigned short int uint16_t;
#if defined SN_TARGET_PS2
typedef int int32_t;
typedef unsigned int uint32_t;
#else #else
#include <stdint.h> typedef long int int32_t;
typedef unsigned long int uint32_t;
#endif #endif
#elif !defined __STDC_VERSION__ || __STDC_VERSION__ < 199901L #if defined __WIN32__ || defined _WIN32 || defined WIN32
/* The ISO C99 defines the int16_t and int_32t types. If the compiler got typedef __int64 int64_t;
* here, these types are probably undefined. typedef unsigned __int64 uint64_t;
*/ #define HAVE_I64
#if defined __MACH__ #elif defined __GNUC__
#include <ppc/types.h> typedef long long int64_t;
typedef unsigned short int uint16_t; typedef unsigned long long uint64_t;
typedef unsigned long int uint32_t; #define HAVE_I64
#elif defined __FreeBSD__
#include <inttypes.h>
#else
typedef short int int16_t;
typedef unsigned short int uint16_t;
#if defined SN_TARGET_PS2
typedef int int32_t;
typedef unsigned int uint32_t;
#else
typedef long int int32_t;
typedef unsigned long int uint32_t;
#endif
#if defined __WIN32__ || defined _WIN32 || defined WIN32
typedef __int64 int64_t;
typedef unsigned __int64 uint64_t;
#define HAVE_I64
#elif defined __GNUC__
typedef long long int64_t;
typedef unsigned long long uint64_t;
#define HAVE_I64
#endif
#endif #endif
#endif #endif
#define HAVE_STDINT_H
#endif
#if defined _LP64 || defined WIN64 || defined _WIN64
#if !defined __64BIT__
#define __64BIT__
#endif
#endif #endif
/* calling convention for native functions */ /* calling convention for native functions */
#if !defined AMX_NATIVE_CALL #if !defined AMX_NATIVE_CALL
#define AMX_NATIVE_CALL #define AMX_NATIVE_CALL
@ -122,26 +104,24 @@ struct amxx_module_info_s
#define AMXEXPORT #define AMXEXPORT
#endif #endif
#if !defined PAWN_CELL_SIZE
#define PAWN_CELL_SIZE 32 /* by default, use 32-bit cells */
#if !defined SMALL_CELL_SIZE
#define SMALL_CELL_SIZE 32 /* by default, use 32-bit cells */
#endif #endif
#if PAWN_CELL_SIZE==16 #if SMALL_CELL_SIZE==32
typedef uint16_t ucell;
typedef int16_t cell;
#elif PAWN_CELL_SIZE==32
typedef uint32_t ucell; typedef uint32_t ucell;
typedef int32_t cell; typedef int32_t cell;
#define REAL float typedef float REAL;
#elif PAWN_CELL_SIZE==64 #elif SMALL_CELL_SIZE==64
typedef uint64_t ucell; typedef uint64_t ucell;
typedef int64_t cell; typedef int64_t cell;
#define REAL double typedef double REAL;
#else #else
#error Unsupported cell size (PAWN_CELL_SIZE) #error Unsupported cell size (SMALL_CELL_SIZE)
#endif #endif
#define UNPACKEDMAX ((1 << (sizeof(cell)-1)*8) - 1) #define UNPACKEDMAX ((1 << (sizeof(cell)-1)*8) - 1)
#define UNLIMITED (~1u >> 1)
struct tagAMX; struct tagAMX;
typedef cell (AMX_NATIVE_CALL *AMX_NATIVE)(struct tagAMX *amx, cell *params); typedef cell (AMX_NATIVE_CALL *AMX_NATIVE)(struct tagAMX *amx, cell *params);
@ -159,24 +139,21 @@ typedef int (AMXAPI *AMX_DEBUG)(struct tagAMX *amx);
#endif #endif
/* Some compilers do not support the #pragma align, which should be fine. Some #if defined SN_TARGET_PS2 || defined __GNUC__
* compilers give a warning on unknown #pragmas, which is not so fine...
*/
#if (defined SN_TARGET_PS2 || defined __GNUC__) && !defined AMX_NO_ALIGN
#define AMX_NO_ALIGN #define AMX_NO_ALIGN
#endif #endif
#if defined __GNUC__ #if defined __GNUC__
#define PACKED __attribute__((packed)) #define PACKED __attribute__((packed))
#else #else
#define PACKED #define PACKED
#endif #endif
#if !defined AMX_NO_ALIGN #if !defined AMX_NO_ALIGN
#if defined LINUX || defined __FreeBSD__ #if defined __linux__
#pragma pack(1) /* structures must be packed (byte-aligned) */ #pragma pack(1) /* structures must be packed (byte-aligned) */
#elif defined MACOS && defined __MWERKS__
#pragma options align=mac68k
#else #else
#pragma pack(push) #pragma pack(push)
#pragma pack(1) /* structures must be packed (byte-aligned) */ #pragma pack(1) /* structures must be packed (byte-aligned) */
@ -197,7 +174,7 @@ typedef struct {
* fields are valid at all times; many fields are cached in local variables. * fields are valid at all times; many fields are cached in local variables.
*/ */
typedef struct tagAMX { typedef struct tagAMX {
unsigned char _FAR *base PACKED; /* points to the AMX header plus the code, optionally also the data */ unsigned char _FAR *base PACKED; /* points to the AMX header ("amxhdr") plus the code, optionally also the data */
unsigned char _FAR *data PACKED; /* points to separate data+stack+heap, may be NULL */ unsigned char _FAR *data PACKED; /* points to separate data+stack+heap, may be NULL */
AMX_CALLBACK callback PACKED; AMX_CALLBACK callback PACKED;
AMX_DEBUG debug PACKED; /* debug callback */ AMX_DEBUG debug PACKED; /* debug callback */
@ -209,25 +186,30 @@ typedef struct tagAMX {
cell stk PACKED; /* stack pointer: relative to base + amxhdr->dat */ cell stk PACKED; /* stack pointer: relative to base + amxhdr->dat */
cell stp PACKED; /* top of the stack: relative to base + amxhdr->dat */ cell stp PACKED; /* top of the stack: relative to base + amxhdr->dat */
int flags PACKED; /* current status, see amx_Flags() */ int flags PACKED; /* current status, see amx_Flags() */
/* for assertions and debug hook */
cell curline PACKED;
cell curfile PACKED;
int dbgcode PACKED;
cell dbgaddr PACKED;
cell dbgparam PACKED;
char _FAR *dbgname PACKED;
/* user data */ /* user data */
long usertags[AMX_USERNUM] PACKED; long usertags[AMX_USERNUM] PACKED;
//okay userdata[3] in AMX Mod X is for the CPlugin * pointer
//we're also gonna set userdata[2] to a special debug structure
void _FAR *userdata[AMX_USERNUM] PACKED; void _FAR *userdata[AMX_USERNUM] PACKED;
/* native functions can raise an error */ /* native functions can raise an error */
int error PACKED; int error PACKED;
/* passing parameters requires a "count" field */
int paramcount;
/* the sleep opcode needs to store the full AMX status */ /* the sleep opcode needs to store the full AMX status */
cell pri PACKED; cell pri PACKED;
cell alt PACKED; cell alt PACKED;
cell reset_stk PACKED; cell reset_stk PACKED;
cell reset_hea PACKED; cell reset_hea PACKED;
cell sysreq_d PACKED; /* relocated address/value for the SYSREQ.D opcode */ cell sysreq_d PACKED; /* relocated address/value for the SYSREQ.D opcode */
/* support variables for the JIT */ #if defined JIT
int reloc_size PACKED; /* required temporary buffer for relocations */ /* support variables for the JIT */
long code_size PACKED; /* estimated memory footprint of the native code */ int reloc_size PACKED; /* required temporary buffer for relocations */
} PACKED AMX; long code_size PACKED; /* estimated memory footprint of the native code */
#endif
} AMX;
enum { enum {
AMX_ERR_NONE, AMX_ERR_NONE,
@ -244,7 +226,6 @@ enum {
AMX_ERR_NATIVE, /* native function failed */ AMX_ERR_NATIVE, /* native function failed */
AMX_ERR_DIVIDE, /* divide by zero */ AMX_ERR_DIVIDE, /* divide by zero */
AMX_ERR_SLEEP, /* go into sleepmode - code can be restarted */ AMX_ERR_SLEEP, /* go into sleepmode - code can be restarted */
AMX_ERR_INVSTATE, /* invalid state for this access */
AMX_ERR_MEMORY = 16, /* out of memory */ AMX_ERR_MEMORY = 16, /* out of memory */
AMX_ERR_FORMAT, /* invalid file format */ AMX_ERR_FORMAT, /* invalid file format */
@ -259,14 +240,6 @@ enum {
AMX_ERR_DOMAIN, /* domain error, expression result does not fit in range */ AMX_ERR_DOMAIN, /* domain error, expression result does not fit in range */
}; };
#if !defined AMX_NO_ALIGN
#if defined __linux__
#pragma pack() /* reset default packing */
#else
#pragma pack(pop) /* reset previous packing */
#endif
#endif
// ***** declare functions ***** // ***** declare functions *****
@ -950,7 +923,7 @@ void FN_EngineFprintf(FILE *pfile, char *szFmt, ...);
#endif // FN_EngineFprintf #endif // FN_EngineFprintf
#ifdef FN_PvAllocEntPrivateData #ifdef FN_PvAllocEntPrivateData
void *FN_PvAllocEntPrivateData(edict_t *pEdict, int32 cb); void *FN_PvAllocEntPrivateData(edict_t *pEdict, long cb);
#endif // FN_PvAllocEntPrivateData #endif // FN_PvAllocEntPrivateData
#ifdef FN_PvEntPrivateData #ifdef FN_PvEntPrivateData
@ -1904,9 +1877,6 @@ void FN_AMXX_DETACH(void);
void FN_AMXX_PLUGINSLOADED(void); void FN_AMXX_PLUGINSLOADED(void);
#endif // FN_AMXX_PLUGINSLOADED #endif // FN_AMXX_PLUGINSLOADED
// *** Types ***
typedef void* (*PFN_REQ_FNPTR)(const char * /*name*/);
// ***** Module funcs stuff ***** // ***** Module funcs stuff *****
enum ForwardExecType enum ForwardExecType
{ {
@ -1927,34 +1897,9 @@ enum ForwardParam
FP_ARRAY, // array; use the return value of prepareArray. FP_ARRAY, // array; use the return value of prepareArray.
}; };
enum PlayerProp
{
Player_Name, //String
Player_Ip, //String
Player_Team, //String
Player_Ingame, //bool
Player_Authorized, //bool
Player_Vgui, //bool
Player_Time, //float
Player_Playtime, //float
Player_MenuExpire, //float
Player_Weapons, //struct{int,int}[32]
Player_CurrentWeapon, //int
Player_TeamID, //int
Player_Deaths, //int
Player_Aiming, //int
Player_Menu, //int
Player_Keys, //int
Player_Flags, //int[32]
Player_Newmenu, //int
Player_NewmenuPage, //int
};
typedef void (*AUTHORIZEFUNC)(int player, const char *authstring);
typedef int (*PFN_ADD_NATIVES) (const AMX_NATIVE_INFO * /*list*/); typedef int (*PFN_ADD_NATIVES) (const AMX_NATIVE_INFO * /*list*/);
typedef char * (*PFN_BUILD_PATHNAME) (const char * /*format*/, ...); typedef char * (*PFN_BUILD_PATHNAME) (const char * /*format*/, ...);
typedef char * (*PFN_BUILD_PATHNAME_R) (char * /*buffer*/, size_t /* maxlen */, const char * /* format */, ...);
typedef cell * (*PFN_GET_AMXADDR) (AMX * /*amx*/, cell /*offset*/); typedef cell * (*PFN_GET_AMXADDR) (AMX * /*amx*/, cell /*offset*/);
typedef void (*PFN_PRINT_SRVCONSOLE) (char * /*format*/, ...); typedef void (*PFN_PRINT_SRVCONSOLE) (char * /*format*/, ...);
typedef const char * (*PFN_GET_MODNAME) (void); typedef const char * (*PFN_GET_MODNAME) (void);
@ -1968,14 +1913,11 @@ typedef int (*PFN_GET_AMXSTRINGLEN) (const cell *ptr);
typedef char * (*PFN_FORMAT_AMXSTRING) (AMX * /*amx*/, cell * /*params*/, int /*startParam*/, int * /*pLen*/); typedef char * (*PFN_FORMAT_AMXSTRING) (AMX * /*amx*/, cell * /*params*/, int /*startParam*/, int * /*pLen*/);
typedef void (*PFN_COPY_AMXMEMORY) (cell * /*dest*/, const cell * /*src*/, int /*len*/); typedef void (*PFN_COPY_AMXMEMORY) (cell * /*dest*/, const cell * /*src*/, int /*len*/);
typedef void (*PFN_LOG) (const char * /*fmt*/, ...); typedef void (*PFN_LOG) (const char * /*fmt*/, ...);
typedef void (*PFN_LOG_ERROR) (AMX * /*amx*/, int /*err*/, const char * /*fmt*/, ...);
typedef int (*PFN_RAISE_AMXERROR) (AMX * /*amx*/, int /*error*/); typedef int (*PFN_RAISE_AMXERROR) (AMX * /*amx*/, int /*error*/);
typedef int (*PFN_REGISTER_FORWARD) (const char * /*funcname*/, ForwardExecType /*exectype*/, ... /*paramtypes terminated by PF_DONE*/); typedef int (*PFN_REGISTER_FORWARD) (const char * /*funcname*/, ForwardExecType /*exectype*/, ... /*paramtypes terminated by PF_DONE*/);
typedef int (*PFN_EXECUTE_FORWARD) (int /*id*/, ... /*params*/); typedef int (*PFN_EXECUTE_FORWARD) (int /*id*/, ... /*params*/);
typedef cell (*PFN_PREPARE_CELLARRAY) (cell * /*ptr*/, unsigned int /*size*/); typedef cell (*PFN_PREPARE_CELLARRAY) (cell * /*ptr*/, unsigned int /*size*/);
typedef cell (*PFN_PREPARE_CHARARRAY) (char * /*ptr*/, unsigned int /*size*/); typedef cell (*PFN_PREPARE_CHARARRAY) (char * /*ptr*/, unsigned int /*size*/);
typedef cell (*PFN_PREPARE_CELLARRAY_A) (cell * /*ptr*/, unsigned int /*size*/, bool /*copyBack*/);
typedef cell (*PFN_PREPARE_CHARARRAY_A) (char * /*ptr*/, unsigned int /*size*/, bool /*copyBack*/);
typedef int (*PFN_IS_PLAYER_VALID) (int /*id*/); typedef int (*PFN_IS_PLAYER_VALID) (int /*id*/);
typedef const char * (*PFN_GET_PLAYER_NAME) (int /*id*/); typedef const char * (*PFN_GET_PLAYER_NAME) (int /*id*/);
typedef const char * (*PFN_GET_PLAYER_IP) (int /*id*/); typedef const char * (*PFN_GET_PLAYER_IP) (int /*id*/);
@ -1984,9 +1926,7 @@ typedef int (*PFN_IS_PLAYER_BOT) (int /*id*/);
typedef int (*PFN_IS_PLAYER_AUTHORIZED) (int /*id*/); typedef int (*PFN_IS_PLAYER_AUTHORIZED) (int /*id*/);
typedef float (*PFN_GET_PLAYER_TIME) (int /*id*/); typedef float (*PFN_GET_PLAYER_TIME) (int /*id*/);
typedef float (*PFN_GET_PLAYER_PLAYTIME) (int /*id*/); typedef float (*PFN_GET_PLAYER_PLAYTIME) (int /*id*/);
typedef int (*PFN_GETPLAYERFLAGS) (int /* id*/);
typedef int (*PFN_GET_PLAYER_CURWEAPON) (int /*id*/); typedef int (*PFN_GET_PLAYER_CURWEAPON) (int /*id*/);
typedef const char * (*PFN_GET_PLAYER_TEAM) (int /*id*/);
typedef int (*PFN_GET_PLAYER_TEAMID) (int /*id*/); typedef int (*PFN_GET_PLAYER_TEAMID) (int /*id*/);
typedef int (*PFN_GET_PLAYER_DEATHS) (int /*id*/); typedef int (*PFN_GET_PLAYER_DEATHS) (int /*id*/);
typedef int (*PFN_GET_PLAYER_MENU) (int /*id*/); typedef int (*PFN_GET_PLAYER_MENU) (int /*id*/);
@ -1997,27 +1937,17 @@ typedef int (*PFN_IS_PLAYER_CONNECTING) (int /*id*/);
typedef int (*PFN_IS_PLAYER_HLTV) (int /*id*/); typedef int (*PFN_IS_PLAYER_HLTV) (int /*id*/);
typedef int (*PFN_GET_PLAYER_ARMOR) (int /*id*/); typedef int (*PFN_GET_PLAYER_ARMOR) (int /*id*/);
typedef int (*PFN_GET_PLAYER_HEALTH) (int /*id*/); typedef int (*PFN_GET_PLAYER_HEALTH) (int /*id*/);
#ifdef USE_METAMOD
typedef edict_t * (*PFN_GET_PLAYER_EDICT) (int /*id*/);
#else
typedef void * (*PFN_GET_PLAYER_EDICT) (int /*id*/);
#endif
typedef void * (*PFN_PLAYER_PROP_ADDR) (int /*id*/, int /*prop*/);
#ifdef MEMORY_TEST
typedef void * (*PFN_ALLOCATOR) (const char* /*filename*/, const unsigned int /*line*/, const char* /*func*/, typedef void * (*PFN_ALLOCATOR) (const char* /*filename*/, const unsigned int /*line*/, const char* /*func*/,
const unsigned int /*type*/, const size_t /*size*/); const unsigned int /*type*/, const size_t /*size*/);
typedef void * (*PFN_REALLOCATOR) (const char* /*filename*/, const unsigned int /*line*/, const char* /*func*/, typedef void * (*PFN_REALLOCATOR) (const char* /*filename*/, const unsigned int /*line*/, const char* /*func*/,
const unsigned int /*type*/, const size_t /*size*/, void* /*addr*/ ); const unsigned int /*type*/, const size_t /*size*/, void* /*addr*/ );
typedef void (*PFN_DEALLOCATOR) (const char* /*filename*/, const unsigned int /*line*/, const char* /*func*/, typedef void (*PFN_DEALLOCATOR) (const char* /*filename*/, const unsigned int /*line*/, const char* /*func*/,
const unsigned int /*type*/, const void* /*addr*/ ); const unsigned int /*type*/, const void* /*addr*/ );
#endif typedef int (*PFN_AMX_EXEC) (AMX* /*amx*/, cell* /*return val*/, int /*index*/, int /*numparams*/, ... /*params*/);
typedef int (*PFN_AMX_EXEC) (AMX* /*amx*/, cell* /*return val*/, int /*index*/);
typedef int (*PFN_AMX_EXECV) (AMX* /*amx*/, cell* /*return val*/, int /*index*/, int /*numparams*/, cell[] /*params*/); typedef int (*PFN_AMX_EXECV) (AMX* /*amx*/, cell* /*return val*/, int /*index*/, int /*numparams*/, cell[] /*params*/);
typedef int (*PFN_AMX_ALLOT) (AMX* /*amx*/, int /*length*/, cell* /*amx_addr*/, cell** /*phys_addr*/); typedef int (*PFN_AMX_ALLOT) (AMX* /*amx*/, int /*length*/, cell* /*amx_addr*/, cell** /*phys_addr*/);
typedef int (*PFN_AMX_FINDPUBLIC) (AMX* /*amx*/, char* /*func name*/, int* /*index*/); typedef int (*PFN_AMX_FINDPUBLIC) (AMX* /*amx*/, char* /*func name*/, int* /*index*/);
typedef int (*PFN_AMX_FINDNATIVE) (AMX* /*amx*/, char* /*func name*/, int* /*index*/); typedef int (*PFN_LOAD_AMXSCRIPT) (AMX* /*amx*/, void** /*code*/, const char* /*path*/, char[64] /*error info*/);
typedef int (*PFN_LOAD_AMXSCRIPT) (AMX* /*amx*/, void** /*code*/, const char* /*path*/, char[64] /*error info*/, int /* debug */);
typedef int (*PFN_UNLOAD_AMXSCRIPT) (AMX* /*amx*/,void** /*code*/); typedef int (*PFN_UNLOAD_AMXSCRIPT) (AMX* /*amx*/,void** /*code*/);
typedef cell (*PFN_REAL_TO_CELL) (REAL /*x*/); typedef cell (*PFN_REAL_TO_CELL) (REAL /*x*/);
typedef REAL (*PFN_CELL_TO_REAL) (cell /*x*/); typedef REAL (*PFN_CELL_TO_REAL) (cell /*x*/);
@ -2025,16 +1955,9 @@ typedef int (*PFN_REGISTER_SPFORWARD) (AMX * /*amx*/, int /*func*/, ... /*pa
typedef int (*PFN_REGISTER_SPFORWARD_BYNAME) (AMX * /*amx*/, const char * /*funcName*/, ... /*params*/); typedef int (*PFN_REGISTER_SPFORWARD_BYNAME) (AMX * /*amx*/, const char * /*funcName*/, ... /*params*/);
typedef void (*PFN_UNREGISTER_SPFORWARD) (int /*id*/); typedef void (*PFN_UNREGISTER_SPFORWARD) (int /*id*/);
typedef void (*PFN_MERGEDEFINITION_FILE) (const char * /*filename*/); typedef void (*PFN_MERGEDEFINITION_FILE) (const char * /*filename*/);
typedef const char * (*PFN_FORMAT) (const char * /*fmt*/, ... /*params*/);
typedef void (*PFN_REGISTERFUNCTION) (void * /*pfn*/, const char * /*desc*/);
typedef int (*PFN_AMX_PUSH) (AMX * /*amx*/, cell /*value*/);
typedef int (*PFN_SET_TEAM_INFO) (int /*player */, int /*teamid */, const char * /*name */);
typedef void (*PFN_REG_AUTH_FUNC) (AUTHORIZEFUNC);
typedef void (*PFN_UNREG_AUTH_FUNC) (AUTHORIZEFUNC);
extern PFN_ADD_NATIVES g_fn_AddNatives; extern PFN_ADD_NATIVES g_fn_AddNatives;
extern PFN_BUILD_PATHNAME g_fn_BuildPathname; extern PFN_BUILD_PATHNAME g_fn_BuildPathname;
extern PFN_BUILD_PATHNAME_R g_fn_BuildPathnameR;
extern PFN_GET_AMXADDR g_fn_GetAmxAddr; extern PFN_GET_AMXADDR g_fn_GetAmxAddr;
extern PFN_PRINT_SRVCONSOLE g_fn_PrintSrvConsole; extern PFN_PRINT_SRVCONSOLE g_fn_PrintSrvConsole;
extern PFN_GET_MODNAME g_fn_GetModname; extern PFN_GET_MODNAME g_fn_GetModname;
@ -2048,14 +1971,11 @@ extern PFN_GET_AMXSTRINGLEN g_fn_GetAmxStringLen;
extern PFN_FORMAT_AMXSTRING g_fn_FormatAmxString; extern PFN_FORMAT_AMXSTRING g_fn_FormatAmxString;
extern PFN_COPY_AMXMEMORY g_fn_CopyAmxMemory; extern PFN_COPY_AMXMEMORY g_fn_CopyAmxMemory;
extern PFN_LOG g_fn_Log; extern PFN_LOG g_fn_Log;
extern PFN_LOG_ERROR g_fn_LogErrorFunc;
extern PFN_RAISE_AMXERROR g_fn_RaiseAmxError; extern PFN_RAISE_AMXERROR g_fn_RaiseAmxError;
extern PFN_REGISTER_FORWARD g_fn_RegisterForward; extern PFN_REGISTER_FORWARD g_fn_RegisterForward;
extern PFN_EXECUTE_FORWARD g_fn_ExecuteForward; extern PFN_EXECUTE_FORWARD g_fn_ExecuteForward;
extern PFN_PREPARE_CELLARRAY g_fn_PrepareCellArray; extern PFN_PREPARE_CELLARRAY g_fn_PrepareCellArray;
extern PFN_PREPARE_CHARARRAY g_fn_PrepareCharArray; extern PFN_PREPARE_CHARARRAY g_fn_PrepareCharArray;
extern PFN_PREPARE_CELLARRAY_A g_fn_PrepareCellArrayA;
extern PFN_PREPARE_CHARARRAY_A g_fn_PrepareCharArrayA;
extern PFN_IS_PLAYER_VALID g_fn_IsPlayerValid; extern PFN_IS_PLAYER_VALID g_fn_IsPlayerValid;
extern PFN_GET_PLAYER_NAME g_fn_GetPlayerName; extern PFN_GET_PLAYER_NAME g_fn_GetPlayerName;
extern PFN_GET_PLAYER_IP g_fn_GetPlayerIP; extern PFN_GET_PLAYER_IP g_fn_GetPlayerIP;
@ -2076,6 +1996,7 @@ extern PFN_IS_PLAYER_HLTV g_fn_IsPlayerHLTV;
extern PFN_GET_PLAYER_ARMOR g_fn_GetPlayerArmor; extern PFN_GET_PLAYER_ARMOR g_fn_GetPlayerArmor;
extern PFN_GET_PLAYER_HEALTH g_fn_GetPlayerHealth; extern PFN_GET_PLAYER_HEALTH g_fn_GetPlayerHealth;
extern PFN_AMX_EXEC g_fn_AmxExec; extern PFN_AMX_EXEC g_fn_AmxExec;
extern PFN_AMX_EXECV g_fn_AmxExecv;
extern PFN_AMX_ALLOT g_fn_AmxAllot; extern PFN_AMX_ALLOT g_fn_AmxAllot;
extern PFN_AMX_FINDPUBLIC g_fn_AmxFindPublic; extern PFN_AMX_FINDPUBLIC g_fn_AmxFindPublic;
extern PFN_LOAD_AMXSCRIPT g_fn_LoadAmxScript; extern PFN_LOAD_AMXSCRIPT g_fn_LoadAmxScript;
@ -2086,25 +2007,12 @@ extern PFN_REGISTER_SPFORWARD g_fn_RegisterSPForward;
extern PFN_REGISTER_SPFORWARD_BYNAME g_fn_RegisterSPForwardByName; extern PFN_REGISTER_SPFORWARD_BYNAME g_fn_RegisterSPForwardByName;
extern PFN_UNREGISTER_SPFORWARD g_fn_UnregisterSPForward; extern PFN_UNREGISTER_SPFORWARD g_fn_UnregisterSPForward;
extern PFN_MERGEDEFINITION_FILE g_fn_MergeDefinition_File; extern PFN_MERGEDEFINITION_FILE g_fn_MergeDefinition_File;
extern PFN_AMX_FINDNATIVE g_fn_AmxFindNative;
extern PFN_GETPLAYERFLAGS g_fn_GetPlayerFlags;
extern PFN_GET_PLAYER_EDICT g_fn_GetPlayerEdict;
extern PFN_FORMAT g_fn_Format;
extern PFN_GET_PLAYER_TEAM g_fn_GetPlayerTeam;
extern PFN_REGISTERFUNCTION g_fn_RegisterFunction;
extern PFN_REQ_FNPTR g_fn_RequestFunction;
extern PFN_AMX_PUSH g_fn_AmxPush;
extern PFN_SET_TEAM_INFO g_fn_SetTeamInfo;
extern PFN_PLAYER_PROP_ADDR g_fn_PlayerPropAddr;
extern PFN_REG_AUTH_FUNC g_fn_RegAuthFunc;
extern PFN_UNREG_AUTH_FUNC g_fn_UnregAuthFunc;
#ifdef MAY_NEVER_BE_DEFINED #ifdef MAY_NEVER_BE_DEFINED
// Function prototypes for intellisense and similar systems // Function prototypes for intellisense and similar systems
// They understand #if 0 so we use #ifdef MAY_NEVER_BE_DEFINED // They understand #if 0 so we use #ifdef MAY_NEVER_BE_DEFINED
int MF_AddNatives (const AMX_NATIVE_INFO *list) { } int MF_AddNatives (const AMX_NATIVE_INFO *list) { }
char * MF_BuildPathname (const char * format, ...) { } char * MF_BuildPathname (const char * format, ...) { }
char * MF_BuildPathnameR (char *buffer, size_t maxlen, const char *fmt, ...) { }
cell * MF_GetAmxAddr (AMX * amx, cell offset) { } cell * MF_GetAmxAddr (AMX * amx, cell offset) { }
void MF_PrintSrvConsole (char * format, ...) { } void MF_PrintSrvConsole (char * format, ...) { }
const char * MF_GetModname (void) { } const char * MF_GetModname (void) { }
@ -2118,14 +2026,11 @@ int MF_GetAmxStringLen (const cell *ptr) { }
char * MF_FormatAmxString (AMX * amx, cell * params, int startParam, int * pLen) { } char * MF_FormatAmxString (AMX * amx, cell * params, int startParam, int * pLen) { }
void MF_CopyAmxMemory (cell * dest, const cell * src, int len) { } void MF_CopyAmxMemory (cell * dest, const cell * src, int len) { }
void MF_Log (const char * fmt, ...) { } void MF_Log (const char * fmt, ...) { }
void MF_LogError (AMX * amx, int err, const char *fmt, ...) { }
int MF_RaiseAmxError (AMX * amx, int error) { } int MF_RaiseAmxError (AMX * amx, int error) { }
int MF_RegisterForward (const char * funcname, ForwardExecType exectype, ...) { } int MF_RegisterForward (const char * funcname, ForwardExecType exectype, ...) { }
int MF_ExecuteForward (int id, ...) { } int MF_ExecuteForward (int id, ...) { }
cell MF_PrepareCellArray (cell * ptr, unsigned int size) { } cell MF_PrepareCellArray (cell * ptr, unsigned int size) { }
cell MF_PrepareCharArray (char * ptr, unsigned int size) { } cell MF_PrepareCharArray (char * ptr, unsigned int size) { }
cell MF_PrepareCellArrayA (cell * ptr, unsigned int size, bool copyBack) { }
cell MF_PrepareCharArrayA (char * ptr, unsigned int size, bool copyBack) { }
int MF_IsPlayerValid (int id) { } int MF_IsPlayerValid (int id) { }
const char * MF_GetPlayerName (int id) { } const char * MF_GetPlayerName (int id) { }
const char * MF_GetPlayerIP (int id) { } const char * MF_GetPlayerIP (int id) { }
@ -2135,7 +2040,6 @@ int MF_IsPlayerAuthorized (int id) { }
float MF_GetPlayerTime (int id) { } float MF_GetPlayerTime (int id) { }
float MF_GetPlayerPlayTime (int id) { } float MF_GetPlayerPlayTime (int id) { }
int MF_GetPlayerCurweapon (int id) { } int MF_GetPlayerCurweapon (int id) { }
const char * MF_GetPlayerTeam (int id) { }
int MF_GetPlayerTeamID (int id) { } int MF_GetPlayerTeamID (int id) { }
int MF_GetPlayerDeaths (int id) { } int MF_GetPlayerDeaths (int id) { }
int MF_GetPlayerMenu (int id) { } int MF_GetPlayerMenu (int id) { }
@ -2151,22 +2055,10 @@ cell amx_ftoc (float x) { }
int MF_RegisterSPForwardByName (AMX * amx, const char *str, ...) { } int MF_RegisterSPForwardByName (AMX * amx, const char *str, ...) { }
int MF_RegisterSPForward (AMX * amx, int func, ...) { } int MF_RegisterSPForward (AMX * amx, int func, ...) { }
void MF_UnregisterSPForward (int id) { } void MF_UnregisterSPForward (int id) { }
int MF_GetPlayerFlags (int id) { }
edict_t* MF_GetPlayerEdict (int id) { }
const char * MF_Format (const char *fmt, ...) { }
void MF_RegisterFunction (void *pfn, const char *description) { }
void * MF_RequestFunction (const char *description) { }
int MF_AmxPush (AMX *amx, cell *params) { }
int MF_AmxExec (AMX *amx, cell *retval, int idx) { }
int MF_SetPlayerTeamInfo (int id, int teamid, const char *teamname) { }
void * MF_PlayerPropAddr (int id, int prop) { }
void MF_RegAuthFunc (AUTHORIZEFUNC fn) { }
void MF_UnregAuthFunc (AUTHORIZEFUNC fn) { }
#endif // MAY_NEVER_BE_DEFINED #endif // MAY_NEVER_BE_DEFINED
#define MF_AddNatives g_fn_AddNatives #define MF_AddNatives g_fn_AddNatives
#define MF_BuildPathname g_fn_BuildPathname #define MF_BuildPathname g_fn_BuildPathname
#define MF_BuildPathnameR g_fn_BuildPathnameR
#define MF_FormatAmxString g_fn_FormatAmxString #define MF_FormatAmxString g_fn_FormatAmxString
#define MF_GetAmxAddr g_fn_GetAmxAddr #define MF_GetAmxAddr g_fn_GetAmxAddr
#define MF_PrintSrvConsole g_fn_PrintSrvConsole #define MF_PrintSrvConsole g_fn_PrintSrvConsole
@ -2180,14 +2072,11 @@ void MF_UnregAuthFunc (AUTHORIZEFUNC fn) { }
#define MF_GetAmxStringLen g_fn_GetAmxStringLen #define MF_GetAmxStringLen g_fn_GetAmxStringLen
#define MF_CopyAmxMemory g_fn_CopyAmxMemory #define MF_CopyAmxMemory g_fn_CopyAmxMemory
void MF_Log(const char *fmt, ...); void MF_Log(const char *fmt, ...);
void MF_LogError(AMX *amx, int err, const char *fmt, ...);
#define MF_RaiseAmxError g_fn_RaiseAmxError #define MF_RaiseAmxError g_fn_RaiseAmxError
#define MF_RegisterForward g_fn_RegisterForward #define MF_RegisterForward g_fn_RegisterForward
#define MF_ExecuteForward g_fn_ExecuteForward #define MF_ExecuteForward g_fn_ExecuteForward
#define MF_PrepareCellArray g_fn_PrepareCellArray #define MF_PrepareCellArray g_fn_PrepareCellArray
#define MF_PrepareCharArray g_fn_PrepareCharArray #define MF_PrepareCharArray g_fn_PrepareCharArray
#define MF_PrepareCellArrayA g_fn_PrepareCellArrayA
#define MF_PrepareCharArrayA g_fn_PrepareCharArrayA
#define MF_IsPlayerValid g_fn_IsPlayerValid #define MF_IsPlayerValid g_fn_IsPlayerValid
#define MF_GetPlayerName g_fn_GetPlayerName #define MF_GetPlayerName g_fn_GetPlayerName
#define MF_GetPlayerIP g_fn_GetPlayerIP #define MF_GetPlayerIP g_fn_GetPlayerIP
@ -2197,7 +2086,6 @@ void MF_LogError(AMX *amx, int err, const char *fmt, ...);
#define MF_GetPlayerTime g_fn_GetPlayerTime #define MF_GetPlayerTime g_fn_GetPlayerTime
#define MF_GetPlayerPlayTime g_fn_GetPlayerPlayTime #define MF_GetPlayerPlayTime g_fn_GetPlayerPlayTime
#define MF_GetPlayerCurweapon g_fn_GetPlayerCurweapon #define MF_GetPlayerCurweapon g_fn_GetPlayerCurweapon
#define MF_GetPlayerTeam g_fn_GetPlayerTeam
#define MF_GetPlayerTeamID g_fn_GetPlayerTeamID #define MF_GetPlayerTeamID g_fn_GetPlayerTeamID
#define MF_GetPlayerDeaths g_fn_GetPlayerDeaths #define MF_GetPlayerDeaths g_fn_GetPlayerDeaths
#define MF_GetPlayerMenu g_fn_GetPlayerMenu #define MF_GetPlayerMenu g_fn_GetPlayerMenu
@ -2212,27 +2100,14 @@ void MF_LogError(AMX *amx, int err, const char *fmt, ...);
#define MF_AmxExecv g_fn_AmxExecv #define MF_AmxExecv g_fn_AmxExecv
#define MF_AmxFindPublic g_fn_AmxFindPublic #define MF_AmxFindPublic g_fn_AmxFindPublic
#define MF_AmxAllot g_fn_AmxAllot #define MF_AmxAllot g_fn_AmxAllot
#define MF_AmxFindNative g_fn_AmxFindNative
#define MF_LoadAmxScript g_fn_LoadAmxScript #define MF_LoadAmxScript g_fn_LoadAmxScript
#define MF_UnloadAmxScript g_fn_UnloadAmxScript #define MF_UnloadAmxScript g_fn_UnloadAmxScript
#define MF_MergeDefinitionFile g_fn_MergeDefinition_File
#define amx_ctof g_fn_CellToReal #define amx_ctof g_fn_CellToReal
#define amx_ftoc g_fn_RealToCell #define amx_ftoc g_fn_RealToCell
#define MF_RegisterSPForwardByName g_fn_RegisterSPForwardByName #define MF_RegisterSPForwardByName g_fn_RegisterSPForwardByName
#define MF_RegisterSPForward g_fn_RegisterSPForward #define MF_RegisterSPForward g_fn_RegisterSPForward
#define MF_UnregisterSPForward g_fn_UnregisterSPForward #define MF_UnregisterSPForward g_fn_UnregisterSPForward
#define MF_GetPlayerFlags g_fn_GetPlayerFlags
#define MF_GetPlayerEdict g_fn_GetPlayerEdict
#define MF_Format g_fn_Format
#define MF_RegisterFunction g_fn_RegisterFunction
#define MF_RequestFunction g_fn_RequestFunction
#define MF_AmxPush g_fn_AmxPush
#define MF_SetPlayerTeamInfo g_fn_SetTeamInfo
#define MF_PlayerPropAddr g_fn_PlayerPropAddr
#define MF_RegAuthFunc g_fn_RegAuthFunc
#define MF_UnregAuthFunc g_fn_UnregAuthFunc
#ifdef MEMORY_TEST
/*** Memory ***/ /*** Memory ***/
void *operator new(size_t reportedSize); void *operator new(size_t reportedSize);
void *operator new[](size_t reportedSize); void *operator new[](size_t reportedSize);
@ -2276,6 +2151,4 @@ void Mem_Deallocator(const char *sourceFile, const unsigned int sourceLine, cons
#define realloc(ptr,sz) Mem_Reallocator(__FILE__,__LINE__,__FUNCTION__,m_alloc_realloc,sz,ptr) #define realloc(ptr,sz) Mem_Reallocator(__FILE__,__LINE__,__FUNCTION__,m_alloc_realloc,sz,ptr)
#define free(ptr) Mem_Deallocator(__FILE__,__LINE__,__FUNCTION__,m_alloc_free,ptr) #define free(ptr) Mem_Deallocator(__FILE__,__LINE__,__FUNCTION__,m_alloc_free,ptr)
#endif //MEMORY_TEST
#endif // #ifndef __AMXXMODULE_H__ #endif // #ifndef __AMXXMODULE_H__

12
amxmodx/sdk/moduleconfig.h
View File

@ -21,23 +21,13 @@
// metamod plugin? // metamod plugin?
// #define USE_METAMOD // #define USE_METAMOD
// use memory manager/tester?
// note that if you use this, you cannot construct/allocate
// anything before the module attached (OnAmxxAttach).
// be careful of default constructors using new/malloc!
// #define MEMORY_TEST
// Unless you use STL or exceptions, keep this commented.
// It allows you to compile without libstdc++.so as a dependency
// #define NO_ALLOC_OVERRIDES
// - AMXX Init functions // - AMXX Init functions
// Also consider using FN_META_* // Also consider using FN_META_*
// AMXX query // AMXX query
//#define FN_AMXX_QUERY OnAmxxQuery //#define FN_AMXX_QUERY OnAmxxQuery
// AMXX attach // AMXX attach
// Do native functions init here (MF_AddNatives) // Do native functions init here (MF_AddNatives)
//#define FN_AMXX_ATTACH OnAmxxAttach // #define FN_AMXX_ATTACH OnAmxxAttach
// AMXX detach // AMXX detach
//#define FN_AMXX_DETACH OnAmxxDetach //#define FN_AMXX_DETACH OnAmxxDetach
// All plugins loaded // All plugins loaded

290
amxmodx/sh_list.h
View File

@ -1,290 +0,0 @@
/* ======== SourceMM ========
* Copyright (C) 2004-2005 Metamod:Source Development Team
* No warranties of any kind
*
* License: zlib/libpng
*
* Author(s): David "BAILOPAN" Anderson
* ============================
*/
#ifndef _INCLUDE_SMM_LIST_H
#define _INCLUDE_SMM_LIST_H
#include <new>
#include <malloc.h>
//namespace SourceHook
//{
//This class is from CSDM for AMX Mod X
/*
A circular, doubly-linked list with one sentinel node
Empty:
m_Head = sentinel
m_Head->next = m_Head;
m_Head->prev = m_Head;
One element:
m_Head = sentinel
m_Head->next = node1
m_Head->prev = node1
node1->next = m_Head
node1->prev = m_Head
Two elements:
m_Head = sentinel
m_Head->next = node1
m_Head->prev = node2
node1->next = node2
node1->prev = m_Head
node2->next = m_Head
node2->prev = node1
*/
template <class T>
class List
{
public:
class iterator;
friend class iterator;
class ListNode
{
public:
ListNode(const T & o) : obj(o) { };
ListNode() { };
T obj;
ListNode *next;
ListNode *prev;
};
private:
// Initializes the sentinel node.
// BAIL used malloc instead of new in order to bypass the need for a constructor.
ListNode *_Initialize()
{
ListNode *n = (ListNode *)malloc(sizeof(ListNode));
n->next = n;
n->prev = n;
return n;
}
public:
List() : m_Head(_Initialize()), m_Size(0)
{
}
List(const List &src) : m_Head(_Initialize()), m_Size(0)
{
iterator iter;
for (iter=src.begin(); iter!=src.end(); iter++)
push_back( (*iter) );
}
~List()
{
clear();
// Don't forget to free the sentinel
if (m_Head)
{
free(m_Head);
m_Head = NULL;
}
}
void push_back(const T &obj)
{
ListNode *node = new ListNode(obj);
node->prev = m_Head->prev;
node->next = m_Head;
m_Head->prev->next = node;
m_Head->prev = node;
m_Size++;
}
size_t size()
{
return m_Size;
}
void clear()
{
ListNode *node = m_Head->next;
ListNode *temp;
m_Head->next = m_Head;
m_Head->prev = m_Head;
// Iterate through the nodes until we find g_Head (the sentinel) again
while (node != m_Head)
{
temp = node->next;
delete node;
node = temp;
}
m_Size = 0;
}
bool empty()
{
return (m_Size == 0);
}
T & back()
{
return m_Head->prev->obj;
}
private:
ListNode *m_Head;
size_t m_Size;
public:
class iterator
{
friend class List;
public:
iterator()
{
m_This = NULL;
}
iterator(const List &src)
{
m_This = src.m_Head;
}
iterator(ListNode *n) : m_This(n)
{
}
iterator(const iterator &where)
{
m_This = where.m_This;
}
//pre decrement
iterator & operator--()
{
if (m_This)
m_This = m_This->prev;
return *this;
}
//post decrement
iterator operator--(int)
{
iterator old(*this);
if (m_This)
m_This = m_This->prev;
return old;
}
//pre increment
iterator & operator++()
{
if (m_This)
m_This = m_This->next;
return *this;
}
//post increment
iterator operator++(int)
{
iterator old(*this);
if (m_This)
m_This = m_This->next;
return old;
}
const T & operator * () const
{
return m_This->obj;
}
T & operator * ()
{
return m_This->obj;
}
T * operator -> ()
{
return &(m_This->obj);
}
const T * operator -> () const
{
return &(m_This->obj);
}
bool operator != (const iterator &where) const
{
return (m_This != where.m_This);
}
bool operator ==(const iterator &where) const
{
return (m_This == where.m_This);
}
private:
ListNode *m_This;
};
public:
iterator begin() const
{
return iterator(m_Head->next);
}
iterator end() const
{
return iterator(m_Head);
}
iterator erase(iterator &where)
{
ListNode *pNode = where.m_This;
iterator iter(where);
iter++;
// Works for all cases: empty list, erasing first element, erasing tail, erasing in the middle...
pNode->prev->next = pNode->next;
pNode->next->prev = pNode->prev;
delete pNode;
m_Size--;
return iter;
}
iterator insert(iterator where, const T &obj)
{
// Insert obj right before where
ListNode *node = new ListNode(obj);
ListNode *pWhereNode = where.m_This;
pWhereNode->prev->next = node;
node->prev = pWhereNode->prev;
pWhereNode->prev = node;
node->next = pWhereNode;
m_Size++;
return iterator(node);
}
public:
void remove(const T & obj)
{
iterator b;
for (b=begin(); b!=end(); b++)
{
if ( (*b) == obj )
{
erase( b );
break;
}
}
}
template <typename U>
iterator find(const U & equ)
{
iterator iter;
for (iter=begin(); iter!=end(); iter++)
{
if ( (*iter) == equ )
return iter;
}
return end();
}
List & operator =(const List &src)
{
clear();
iterator iter;
for (iter=src.begin(); iter!=src.end(); iter++)
push_back( (*iter) );
return *this;
}
};
//}; //NAMESPACE
#endif //_INCLUDE_CSDM_LIST_H

219
amxmodx/sh_stack.h
View File

@ -1,219 +0,0 @@
/* ======== SourceMM ========
* Copyright (C) 2004-2005 Metamod:Source Development Team
* No warranties of any kind
*
* License: zlib/libpng
*
* Author(s): Pavol "PM OnoTo" Marko
* ============================
*/
#ifndef __SH_STACK_H__
#define __SH_STACK_H__
#define SH_STACK_DEFAULT_SIZE 4
//namespace SourceHook
//{/
// Vector
template <class T> class CStack
{
T *m_Elements;
size_t m_AllocatedSize;
size_t m_UsedSize;
public:
friend class iterator;
class iterator
{
CStack<T> *m_pParent;
size_t m_Index;
public:
iterator(CStack<T> *pParent, size_t id) : m_pParent(pParent), m_Index(id)
{
}
iterator(CStack<T> *pParent) : m_pParent(pParent), m_Index(0)
{
}
iterator() : m_pParent(NULL), m_Index(0)
{
}
T &operator *()
{
return m_pParent->m_Elements[m_Index];
}
const T &operator *() const
{
return m_pParent->m_Elements[m_Index];
}
T * operator->()
{
return m_pParent->m_Elements + m_Index;
}
const T * operator->() const
{
return m_pParent->m_Elements + m_Index;
}
iterator & operator++() // preincrement
{
++m_Index;
return (*this);
}
iterator operator++(int) // postincrement
{
iterator tmp = *this;
++m_Index;
return tmp;
}
iterator & operator--() // predecrement
{
--m_Index;
return (*this);
}
iterator operator--(int) // postdecrememnt
{
iterator tmp = *this;
--m_Index;
return tmp;
}
bool operator==(const iterator & right) const
{
return (m_pParent == right.m_pParent && m_Index == right.m_Index);
}
bool operator!=(const iterator & right) const
{
return !(*this == right);
}
};
CStack() : m_Elements(new T[SH_STACK_DEFAULT_SIZE]),
m_AllocatedSize(SH_STACK_DEFAULT_SIZE),
m_UsedSize(0)
{
}
CStack(size_t size) : m_Elements(new T[size]),
m_AllocatedSize(size),
m_UsedSize(0)
{
}
CStack(const CStack &other) : m_Elements(NULL),
m_AllocatedSize(0),
m_UsedSize(0)
{
reserve(other.m_AllocatedSize);
m_UsedSize = other.m_UsedSize;
for (size_t i = 0; i < m_UsedSize; ++i)
m_Elements[i] = other.m_Elements[i];
}
~CStack()
{
if (m_Elements)
delete [] m_Elements;
}
void operator=(const CStack &other)
{
if (m_AllocatedSize < other.m_AllocatedSize)
{
if (m_Elements)
delete [] m_Elements;
m_Elements = new T[other.m_AllocatedSize];
m_AllocatedSize = other.m_AllocatedSize;
}
m_UsedSize = other.m_UsedSize;
for (size_t i = 0; i < m_UsedSize; ++i)
m_Elements[i] = other.m_Elements[i];
}
bool push(const T &val)
{
if (m_UsedSize + 1 == m_AllocatedSize)
{
// zOHNOES! REALLOCATE!
m_AllocatedSize *= 2;
T *newElements = new T[m_AllocatedSize];
if (!newElements)
{
m_AllocatedSize /= 2;
return false;
}
if (m_Elements)
{
for (size_t i = 0; i < m_UsedSize; ++i)
newElements[i] = m_Elements[i];
delete [] m_Elements;
}
m_Elements = newElements;
}
m_Elements[m_UsedSize++] = val;
return true;
}
void pop()
{
--m_UsedSize;
}
T &front()
{
return m_Elements[m_UsedSize - 1];
}
const T &front() const
{
return m_Elements[m_UsedSize - 1];
}
iterator begin()
{
return iterator(this, 0);
}
iterator end()
{
return iterator(this, m_UsedSize);
}
size_t size()
{
return m_UsedSize;
}
size_t capacity()
{
return m_AllocatedSize;
}
bool empty()
{
return m_UsedSize == 0 ? true : false;
}
bool reserve(size_t size)
{
if (size > m_AllocatedSize)
{
T *newElements = new T[size];
if (!newElements)
return false;
if (m_Elements)
{
for (size_t i = 0; i < m_UsedSize; ++i)
newElements[i] = m_Elements[i];
delete [] m_Elements;
}
m_Elements = newElements;
m_AllocatedSize = size;
}
return true;
}
};
//}; //namespace SourceHook
#endif

526
amxmodx/sh_tinyhash.h
View File

@ -1,526 +0,0 @@
/* ======== SourceMM ========
* Copyright (C) 2004-2005 Metamod:Source Development Team
* No warranties of any kind
*
* License: zlib/libpng
*
* Author(s): David "BAILOPAN" Anderson
* ============================
*/
#ifndef _INCLUDE_SH_TINYHASH_H_
#define _INCLUDE_SH_TINYHASH_H_
#include "sh_list.h"
#define _T_INIT_HASH_SIZE 512
//namespace SourceHook
//{
template <class K>
int HashFunction(const K & k);
template <class K>
int Compare(const K & k1, const K & k2);
template <class U, class K>
int CompareAlt(const U &k1, const K &k2);
template <class U>
int HashAlt(const U &u);
/**
* This is a tiny, growable hash class.
* Meant for quick and dirty dictionaries only!
*/
template <class K, class V>
class THash
{
public:
struct THashNode
{
THashNode(const K & k, const V & v) :
key(k), val(v)
{
};
THashNode & operator =(const THashNode &other)
{
key = other.key;
val = other.val;
}
K key;
V val;
};
typedef List<THashNode *> * NodePtr;
public:
class const_iterator;
THash() : m_Buckets(NULL), m_numBuckets(0), m_percentUsed(0.0f), m_items(0)
{
_Refactor();
}
THash(const THash &other) : m_Buckets(new NodePtr[other.m_numBuckets]),
m_numBuckets(other.m_numBuckets), m_percentUsed(other.m_percentUsed), m_items(0)
{
for (size_t i=0; i<m_numBuckets; i++)
m_Buckets[i] = NULL;
for (const_iterator iter = other.begin(); iter != other.end(); ++iter)
_FindOrInsert(iter->key)->val = iter->val;
}
void operator=(const THash &other)
{
clear();
for (const_iterator iter = other.begin(); iter != other.end(); ++iter)
_FindOrInsert(iter->key)->val = iter->val;
}
~THash()
{
_Clear();
}
void clear()
{
_Clear();
_Refactor();
}
size_t size()
{
return m_items;
}
size_t GetBuckets()
{
return m_numBuckets;
}
float PercentUsed()
{
return m_percentUsed;
}
V & operator [](const K & key)
{
THashNode *pNode = _FindOrInsert(key);
return pNode->val;
}
private:
void _Clear()
{
typename List<THashNode *>::iterator iter, end;
for (size_t i=0; i<m_numBuckets; i++)
{
if (m_Buckets[i])
{
end = m_Buckets[i]->end();
iter = m_Buckets[i]->begin();
while (iter != end)
{
delete (*iter);
iter++;
}
delete m_Buckets[i];
m_Buckets[i] = NULL;
}
}
if (m_Buckets)
delete [] m_Buckets;
m_Buckets = NULL;
m_numBuckets = 0;
m_items = 0;
}
public:
template <typename U>
V & AltFindOrInsert(const U & ukey)
{
size_t place = HashAlt(ukey) % m_numBuckets;
THashNode *pNode = NULL;
if (!m_Buckets[place])
{
m_Buckets[place] = new List<THashNode *>;
pNode = new THashNode(ukey, V());
m_Buckets[place]->push_back(pNode);
m_percentUsed += (1.0f / (float)m_numBuckets);
m_items++;
} else {
typename List<THashNode *>::iterator iter;
for (iter=m_Buckets[place]->begin(); iter!=m_Buckets[place]->end(); iter++)
{
if (CompareAlt(ukey, (*iter)->key) == 0)
return (*iter)->val;
}
pNode = new THashNode(ukey, V());
m_Buckets[place]->push_back(pNode);
m_items++;
}
if (PercentUsed() > 0.75f)
_Refactor();
return pNode->val;
}
private:
THashNode *_FindOrInsert(const K & key)
{
size_t place = HashFunction(key) % m_numBuckets;
THashNode *pNode = NULL;
if (!m_Buckets[place])
{
m_Buckets[place] = new List<THashNode *>;
pNode = new THashNode(key, V());
m_Buckets[place]->push_back(pNode);
m_percentUsed += (1.0f / (float)m_numBuckets);
m_items++;
} else {
typename List<THashNode *>::iterator iter;
for (iter=m_Buckets[place]->begin(); iter!=m_Buckets[place]->end(); iter++)
{
if (Compare((*iter)->key, key) == 0)
return (*iter);
}
//node does not exist
pNode = new THashNode(key, V());
m_Buckets[place]->push_back(pNode);
m_items++;
}
if (PercentUsed() > 0.75f)
_Refactor();
return pNode;
}
void _Refactor()
{
m_percentUsed = 0.0f;
if (!m_numBuckets)
{
m_numBuckets = _T_INIT_HASH_SIZE;
m_Buckets = new NodePtr[m_numBuckets];
for (size_t i=0; i<m_numBuckets; i++)
m_Buckets[i] = NULL;
} else {
size_t oldSize = m_numBuckets;
m_numBuckets *= 2;
typename List<THashNode *>::iterator iter;
size_t place;
THashNode *pHashNode;
NodePtr *temp = new NodePtr[m_numBuckets];
for (size_t i=0; i<m_numBuckets; i++)
temp[i] = NULL;
//look in old hash table
for (size_t i=0; i<oldSize; i++)
{
//does a bucket have anything?
if (m_Buckets[i])
{
//go through the list of items
for (iter = m_Buckets[i]->begin(); iter != m_Buckets[i]->end(); iter++)
{
pHashNode = (*iter);
//rehash it with the new bucket filter
place = HashFunction(pHashNode->key) % m_numBuckets;
//add it to the new hash table
if (!temp[place])
{
temp[place] = new List<THashNode *>;
m_percentUsed += (1.0f / (float)m_numBuckets);
}
temp[place]->push_back(pHashNode);
}
//delete that bucket!
delete m_Buckets[i];
m_Buckets[i] = NULL;
}
}
//reassign bucket table
delete [] m_Buckets;
m_Buckets = temp;
}
}
public:
friend class iterator;
friend class const_iterator;
class iterator
{
friend class THash;
public:
iterator() : curbucket(-1), hash(NULL), end(true)
{
};
iterator(THash *h) : curbucket(-1), hash(h), end(false)
{
if (!h->m_Buckets)
end = true;
else
_Inc();
};
//pre increment
iterator & operator++()
{
_Inc();
return *this;
}
//post increment
iterator operator++(int)
{
iterator old(*this);
_Inc();
return old;
}
const THashNode & operator * () const
{
return *(*iter);
}
THashNode & operator * ()
{
return *(*iter);
}
const THashNode * operator ->() const
{
return (*iter);
}
THashNode * operator ->()
{
return (*iter);
}
bool operator ==(const iterator &where) const
{
if (where.hash == this->hash
&& where.end == this->end
&&
(this->end ||
((where.curbucket == this->curbucket)
&& (where.iter == iter))
))
return true;
return false;
}
bool operator !=(const iterator &where) const
{
return !( (*this) == where );
}
void erase()
{
if (end || !hash || curbucket < 0 || curbucket >= static_cast<int>(hash->m_numBuckets))
return;
// Remove this element and move to the next one
iterator tmp = *this;
++tmp;
delete (*iter);
hash->m_Buckets[curbucket]->erase(iter);
*this = tmp;
// :TODO: Maybe refactor to a lower size if required
m_items--;
}
private:
void _Inc()
{
if (end || !hash || curbucket >= static_cast<int>(hash->m_numBuckets))
return;
if (curbucket < 0)
{
for (int i=0; i<(int)hash->m_numBuckets; i++)
{
if (hash->m_Buckets[i])
{
iter = hash->m_Buckets[i]->begin();
if (iter == hash->m_Buckets[i]->end())
continue;
curbucket = i;
break;
}
}
if (curbucket < 0)
end = true;
} else {
if (iter != hash->m_Buckets[curbucket]->end())
iter++;
if (iter == hash->m_Buckets[curbucket]->end())
{
int oldbucket = curbucket;
for (int i=curbucket+1; i<(int)hash->m_numBuckets; i++)
{
if (hash->m_Buckets[i])
{
iter = hash->m_Buckets[i]->begin();
if (iter == hash->m_Buckets[i]->end())
continue;
curbucket = i;
break;
}
}
if (curbucket == oldbucket)
end = true;
}
}
}
private:
int curbucket;
typename List<THashNode *>::iterator iter;
THash *hash;
bool end;
};
class const_iterator
{
friend class THash;
public:
const_iterator() : curbucket(-1), hash(NULL), end(true)
{
};
const_iterator(const THash *h) : curbucket(-1), hash(h), end(false)
{
if (!h->m_Buckets)
end = true;
else
_Inc();
};
//pre increment
const_iterator & operator++()
{
_Inc();
return *this;
}
//post increment
const_iterator operator++(int)
{
iterator old(*this);
_Inc();
return old;
}
const THashNode & operator * () const
{
return *(*iter);
}
const THashNode * operator ->() const
{
return (*iter);
}
bool operator ==(const const_iterator &where) const
{
if (where.hash == this->hash
&& where.end == this->end
&&
(this->end ||
((where.curbucket == this->curbucket)
&& (where.iter == iter))
))
return true;
return false;
}
bool operator !=(const const_iterator &where) const
{
return !( (*this) == where );
}
private:
void _Inc()
{
if (end || !hash || curbucket >= static_cast<int>(hash->m_numBuckets))
return;
if (curbucket < 0)
{
for (int i=0; i<(int)hash->m_numBuckets; i++)
{
if (hash->m_Buckets[i])
{
iter = hash->m_Buckets[i]->begin();
if (iter == hash->m_Buckets[i]->end())
continue;
curbucket = i;
break;
}
}
if (curbucket < 0)
end = true;
} else {
if (iter != hash->m_Buckets[curbucket]->end())
iter++;
if (iter == hash->m_Buckets[curbucket]->end())
{
int oldbucket = curbucket;
for (int i=curbucket+1; i<(int)hash->m_numBuckets; i++)
{
if (hash->m_Buckets[i])
{
iter = hash->m_Buckets[i]->begin();
if (iter == hash->m_Buckets[i]->end())
continue;
curbucket = i;
break;
}
}
if (curbucket == oldbucket)
end = true;
}
}
}
private:
int curbucket;
typename List<THashNode *>::iterator iter;
const THash *hash;
bool end;
};
public:
iterator begin()
{
return iterator(this);
}
iterator end()
{
iterator iter;
iter.hash = this;
return iter;
}
const_iterator begin() const
{
return const_iterator(this);
}
const_iterator end() const
{
const_iterator iter;
iter.hash = this;
return iter;
}
template <typename U>
iterator find(const U & u) const
{
iterator b = begin();
iterator e = end();
for (iterator iter = b; iter != e; iter++)
{
if ( (*iter).key == u )
return iter;
}
return end();
}
template <typename U>
iterator find(const U & u)
{
iterator b = begin();
iterator e = end();
for (iterator iter = b; iter != e; iter++)
{
if ( (*iter).key == u )
return iter;
}
return end();
}
iterator erase(iterator where)
{
where.erase();
return where;
}
template <typename U>
void erase(const U & u)
{
iterator iter = find(u);
if (iter == end())
return;
iter.erase();
}
private:
NodePtr *m_Buckets;
size_t m_numBuckets;
float m_percentUsed;
size_t m_items;
};
//};
#endif //_INCLUDE_SH_TINYHASH_H_

447
amxmodx/srvcmd.cpp
View File

@ -31,241 +31,254 @@
#include "amxmodx.h" #include "amxmodx.h"
void amx_command() void amx_command(){
{
const char* cmd = CMD_ARGV(1);
if (!strcmp(cmd, "plugins") || !strcmp(cmd, "list")) const char* cmd = CMD_ARGV(1);
{
print_srvconsole("Currently loaded plugins:\n"); if (!strcmp(cmd,"plugins") || !strcmp(cmd,"list"))
print_srvconsole(" %-18.17s %-8.7s %-17.16s %-16.15s %-9.8s\n", "name", "version", "author", "file", "status");
int plugins = 0;
int running = 0;
CPluginMngr::iterator a = g_plugins.begin();
while (a)
{ {
++plugins;
if ((*a).isValid() && !(*a).isPaused())
++running;
print_srvconsole(" [%3d] %-18.17s %-8.7s %-17.16s %-16.15s %-9.8s\n", plugins, (*a).getTitle(), (*a).getVersion(), (*a).getAuthor(), (*a).getName(), (*a).getStatus()); print_srvconsole( "Currently loaded plugins:\n");
++a; print_srvconsole( " %-18.17s %-8.7s %-17.16s %-16.15s %-9.8s\n",
"name","version","author","file","status");
int plugins = 0;
int running = 0;
CPluginMngr::iterator a = g_plugins.begin();
while (a)
{
++plugins;
if ( (*a).isValid() && !(*a).isPaused() )
++running;
print_srvconsole( " [%3d] %-18.17s %-8.7s %-17.16s %-16.15s %-9.8s\n",
plugins,(*a).getTitle(),(*a).getVersion(),
(*a).getAuthor(), (*a).getName(), (*a).getStatus() );
++a;
}
print_srvconsole( "%d plugins, %d running\n",plugins,running );
} }
else if (!strcmp(cmd,"pause") && CMD_ARGC() > 2)
a = g_plugins.begin();
int num = 0;
while (a)
{ {
num++; const char* sPlugin = CMD_ARGV(2);
if ((*a).getStatusCode() == ps_bad_load)
{ CPluginMngr::CPlugin *plugin = g_plugins.findPlugin(sPlugin);
//error
print_srvconsole("(%3d) Load fails: %s\n", num, (*a).getError()); if ( plugin && plugin->isValid() )
} else if ( (*a).getStatusCode() == ps_error) { {
//error plugin->pausePlugin();
print_srvconsole("(%3d) Error: %s\n", num, (*a).getError()); print_srvconsole("Paused plugin \"%s\"\n",plugin->getName() );
} }
++a; else print_srvconsole("Couldn't find plugin matching \"%s\"\n",sPlugin);
} }
else if (!strcmp(cmd,"unpause") && CMD_ARGC() > 2)
print_srvconsole("%d plugins, %d running\n", plugins, running);
}
else if (!strcmp(cmd, "pause") && CMD_ARGC() > 2)
{
const char* sPlugin = CMD_ARGV(2);
CPluginMngr::CPlugin *plugin = g_plugins.findPlugin(sPlugin);
if (plugin && plugin->isValid())
{ {
plugin->pausePlugin(); const char* sPlugin = CMD_ARGV(2);
print_srvconsole("Paused plugin \"%s\"\n", plugin->getName());
CPluginMngr::CPlugin *plugin = g_plugins.findPlugin(sPlugin);
if ( plugin && plugin->isValid() )
{
plugin->unpausePlugin();
print_srvconsole("Unpaused plugin \"%s\"\n",plugin->getName() );
}
else print_srvconsole("Couldn't find plugin matching \"%s\"\n",sPlugin);
}
else if (!strcmp(cmd,"cvars"))
{
print_srvconsole( "Registered cvars:\n");
print_srvconsole( " %-24.23s %-24.23s %-16.15s\n",
"name","value","plugin");
int ammount = 0;
for( CList<CCVar>::iterator a = g_cvars.begin(); a ; ++a )
{
print_srvconsole( " [%3d] %-24.23s %-24.23s %-16.15s\n",++ammount,
(*a).getName() ,CVAR_GET_STRING( (*a).getName() ),(*a).getPluginName() );
}
print_srvconsole( "%d cvars\n",ammount);
}
else if ( !strcmp(cmd,"cmds") )
{
print_srvconsole( "Registered commands:\n");
print_srvconsole( " %-24.23s %-16.15s %-8.7s %-16.15s\n",
"name","access" ,"type" ,"plugin");
int ammount = 0;
char access[32];
CmdMngr::iterator a = g_commands.begin( CMD_ConsoleCommand );
while( a )
{
UTIL_GetFlags( access , (*a).getFlags() );
print_srvconsole( " [%3d] %-24.23s %-16.15s %-8.7s %-16.15s\n",
++ammount,(*a).getCmdLine() , access , (*a).getCmdType() , (*a).getPlugin()->getName());
++a;
}
print_srvconsole( "%d commands\n",ammount);
}
else if (!strcmp(cmd,"version"))
{
print_srvconsole( "%s %s\n", Plugin_info.name, Plugin_info.version);
print_srvconsole( "author: %s (%s)\n", Plugin_info.author, Plugin_info.url);
print_srvconsole( "compiled: %s\n", __DATE__ ", " __TIME__);
}
else if (!strcmp(cmd,"modules"))
{
print_srvconsole( "Currently loaded modules:\n");
print_srvconsole( " %-23.22s %-8.7s %-20.19s %-11.10s\n",
"name", "version", "author", "status");
int running = 0;
int modules = 0;
CList<CModule>::iterator a = g_modules.begin();
while ( a )
{
if ( (*a).getStatusValue() == MODULE_LOADED )
++running;
++modules;
print_srvconsole( " [%2d] %-23.22s %-8.7s %-20.19s %-11.10s\n", modules,
(*a).getName(), (*a).getVersion(), (*a).getAuthor() , (*a).getStatus() );
++a;
}
print_srvconsole( "%d modules, %d correct\n",modules,running);
}
else if (!strcmp(cmd, "gpl"))
{
print_srvconsole("AMX Mod X\n");
print_srvconsole("\n");
print_srvconsole(" by the AMX Mod X Development Team\n");
print_srvconsole(" originally developed by OLO\n");
print_srvconsole("\n");
print_srvconsole("\n");
print_srvconsole(" This program is free software; you can redistribute it and/or modify it\n");
print_srvconsole(" under the terms of the GNU General Public License as published by the\n");
print_srvconsole(" Free Software Foundation; either version 2 of the License, or (at\n");
print_srvconsole(" your option) any later version.\n");
print_srvconsole("\n");
print_srvconsole(" This program is distributed in the hope that it will be useful, but\n");
print_srvconsole(" WITHOUT ANY WARRANTY; without even the implied warranty of\n");
print_srvconsole(" MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU\n");
print_srvconsole(" General Public License for more details.\n");
print_srvconsole("\n");
print_srvconsole(" You should have received a copy of the GNU General Public License\n");
print_srvconsole(" along with this program; if not, write to the Free Software Foundation,\n");
print_srvconsole(" Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA\n");
print_srvconsole("\n");
print_srvconsole(" In addition, as a special exception, the author gives permission to\n");
print_srvconsole(" link the code of this program with the Half-Life Game Engine (\"HL\n");
print_srvconsole(" Engine\") and Modified Game Libraries (\"MODs\") developed by Valve,\n");
print_srvconsole(" L.L.C (\"Valve\"). You must obey the GNU General Public License in all\n");
print_srvconsole(" respects for all of the code used other than the HL Engine and MODs\n");
print_srvconsole(" from Valve. If you modify this file, you may extend this exception\n");
print_srvconsole(" to your version of the file, but you are not obligated to do so. If\n");
print_srvconsole(" you do not wish to do so, delete this exception statement from your\n");
print_srvconsole(" version.\n");
print_srvconsole("\n");
}
else if (!strcmp(cmd, "\x74\x75\x72\x74\x6C\x65")) // !! Hidden Command :D !!
{
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x2E\x2E\x3A\x3A\x3E\x3E\x3A\x3A\x3B\x3E\x5E\x27\x2E\x27\x27\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x27\x3A\x3A\x3F\x3D\x3E\x3E\x3E\x3E\x3E\x3D\x3F\x3E\x78\x2B\x3F\x3E\x3E\x3E\x3D\x3E\x3F\x2B\x3F\x3E\x3B\x2E\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x2E\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x27\x2C\x3A\x3E\x3B\x3F\x3D\x3E\x3B\x2E\x27\x5E\x5E\x3B\x3B\x2C\x3A\x3F\x3F\x3D\x78\x3F\x3B\x3E\x3A\x3B\x3A\x5E\x3B\x3D\x3E\x2B\x2B\x2B\x2B\x3D\x2C\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x2C\x3E\x37\x24\x24\x78\x3D\x3D\x3D\x3F\x3A\x27\x20\x20\x20\x20\x20\x20\x20\x2E\x3A\x3B\x3D\x3E\x3A\x3A\x3A\x3A\x3F\x3F\x3F\x3E\x5E\x2C\x2E\x2E\x2C\x2C\x2C\x2C\x3A\x3B\x3D\x3D\x3B\x5E\x2C\x2C\x2C\x3A\x5E\x3A\x3F\x3F\x3E\x3D\x3D\x3E\x3E\x2B\x3B\x27\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x2C\x3D\x2B\x3E\x2C\x5E\x3D\x79\x24\x33\x78\x33\x24\x5A\x24\x3B\x20\x20\x3A\x3E\x2B\x3E\x3D\x3F\x5E\x2C\x2C\x2C\x5E\x5E\x3E\x3D\x3E\x3B\x3B\x3A\x5E\x5E\x3E\x3F\x3D\x2B\x37\x3D\x3F\x3E\x3E\x3E\x3F\x3D\x3F\x3F\x3D\x3D\x3D\x3D\x3E\x3F\x3D\x3E\x3E\x3E\x3D\x5A\x78\x3E\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x3D\x5A\x24\x37\x78\x66\x68\x78\x5A\x5A\x24\x79\x79\x71\x23\x23\x4D\x71\x3B\x3A\x3B\x3A\x3E\x3B\x3B\x2C\x5E\x3E\x3F\x3D\x3F\x3A\x2C\x2C\x3A\x3B\x3B\x3E\x3E\x3D\x2B\x3D\x3E\x3D\x3B\x3A\x3E\x3D\x2B\x3D\x2B\x37\x2B\x3D\x2B\x37\x37\x2B\x2B\x33\x33\x33\x37\x37\x24\x5A\x79\x3A\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x5E\x2B\x5A\x2B\x3E\x3D\x37\x5A\x66\x40\x40\x23\x40\x48\x23\x23\x23\x38\x5E\x3B\x3D\x3F\x2B\x3E\x3B\x3E\x5E\x5E\x2C\x27\x2E\x27\x2E\x2E\x5E\x3F\x3D\x3D\x3F\x3A\x3B\x3A\x3A\x3A\x5E\x5E\x3E\x3E\x3F\x3D\x37\x37\x3D\x3D\x37\x2B\x3D\x37\x2B\x37\x78\x24\x79\x38\x68\x45\x48\x79\x3E\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x2C\x3E\x3E\x78\x33\x68\x48\x23\x23\x40\x40\x48\x45\x66\x33\x20\x2C\x3A\x3E\x3E\x3E\x3B\x3B\x3A\x3A\x2C\x2E\x2C\x5E\x3A\x2C\x5E\x3B\x3E\x37\x37\x3F\x3B\x3A\x2E\x3A\x3A\x3B\x3D\x3B\x3B\x3D\x2B\x3D\x78\x33\x37\x3E\x3D\x3D\x2B\x37\x2B\x78\x78\x78\x78\x5A\x66\x71\x68\x38\x45\x27\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x3A\x37\x37\x24\x66\x71\x45\x45\x71\x45\x3A\x3A\x2C\x5E\x3A\x3E\x3A\x3A\x3B\x3B\x5E\x3A\x2C\x5E\x5E\x2C\x2C\x5E\x3A\x3E\x2B\x33\x3D\x3E\x3A\x3A\x3A\x3D\x2B\x2B\x3D\x3F\x3F\x37\x37\x2B\x37\x3D\x3D\x5A\x33\x78\x33\x37\x78\x24\x5A\x33\x37\x38\x40\x71\x38\x66\x40\x2C\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x5E\x2B\x5A\x45\x40\x5E\x5E\x5E\x3A\x2C\x3A\x3B\x3E\x3A\x5E\x5E\x2C\x2E\x2E\x2C\x5E\x3B\x3B\x3A\x2B\x3E\x3F\x3B\x3F\x3F\x3F\x3F\x3E\x3F\x3D\x37\x3B\x3B\x3D\x33\x2B\x3D\x3D\x78\x78\x5A\x78\x33\x78\x5A\x5A\x5A\x24\x71\x48\x79\x5A\x24\x79\x45\x3E\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x27\x3B\x2C\x2C\x27\x5E\x5E\x2C\x3A\x5E\x3A\x3A\x5E\x3A\x3B\x3F\x3E\x3F\x3E\x3B\x3E\x3E\x3F\x3D\x2B\x37\x37\x2B\x2B\x3D\x2B\x37\x2B\x37\x37\x2B\x3B\x3D\x33\x2B\x2B\x37\x37\x2B\x3D\x78\x78\x66\x78\x78\x37\x33\x66\x78\x38\x23\x23\x27\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x3A\x3F\x3B\x5E\x2C\x3B\x3F\x3D\x3F\x3F\x3B\x3A\x3A\x3A\x3E\x3F\x3E\x3E\x3F\x3A\x3F\x33\x78\x78\x33\x24\x24\x33\x2B\x37\x78\x24\x78\x33\x3D\x2B\x2B\x5A\x24\x78\x24\x78\x33\x33\x24\x5A\x79\x24\x24\x24\x68\x45\x48\x38\x68\x45\x40\x3E\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x2C\x3A\x3E\x3F\x37\x3D\x3E\x3F\x2B\x3F\x3F\x3E\x3F\x3F\x3F\x3D\x3F\x3E\x3F\x3D\x37\x2B\x3E\x3E\x2B\x37\x37\x33\x37\x33\x78\x33\x33\x33\x78\x37\x37\x37\x78\x5A\x78\x5A\x79\x79\x5A\x24\x79\x79\x79\x79\x79\x68\x71\x38\x38\x71\x23\x23\x45\x37\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x5E\x2B\x2B\x3F\x2B\x78\x40\x38\x3F\x3B\x3E\x3B\x3B\x3E\x3F\x37\x2B\x3F\x3F\x3D\x3D\x3E\x3F\x2B\x37\x37\x37\x37\x33\x33\x78\x78\x33\x37\x24\x5A\x78\x5A\x5A\x78\x24\x33\x3D\x37\x37\x37\x78\x24\x5A\x78\x37\x37\x78\x66\x79\x66\x71\x66\x40\x45\x40\x3A\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x2B\x3A\x3F\x2B\x3D\x2B\x79\x23\x79\x3B\x2C\x3A\x3A\x3A\x37\x78\x3F\x3E\x3B\x3E\x3B\x3E\x3D\x37\x24\x33\x37\x33\x37\x78\x78\x33\x24\x68\x79\x33\x24\x78\x2B\x33\x33\x5A\x79\x24\x5A\x79\x24\x5A\x37\x24\x5A\x5A\x66\x38\x66\x79\x66\x40\x71\x45\x48\x5A\x3A\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x5E\x37\x3D\x37\x37\x33\x37\x37\x66\x45\x5A\x3F\x5E\x5E\x78\x37\x3D\x3F\x3E\x3B\x3B\x3E\x2B\x2B\x24\x78\x37\x2B\x37\x2B\x37\x78\x78\x71\x79\x33\x33\x24\x24\x78\x24\x5A\x3F\x37\x78\x24\x78\x79\x66\x5A\x78\x79\x66\x79\x68\x79\x66\x5A\x33\x3F\x3D\x3D\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x5E\x2B\x3D\x3F\x37\x37\x78\x33\x5A\x4E\x4D\x23\x38\x33\x3F\x3E\x3B\x3E\x3B\x3D\x3D\x33\x66\x24\x78\x33\x2B\x78\x24\x5A\x24\x5A\x71\x79\x78\x33\x33\x78\x79\x5A\x5A\x33\x66\x24\x78\x78\x24\x79\x5A\x24\x79\x5A\x37\x66\x24\x3D\x3B\x66\x23\x4D\x4D\x4D\x79\x3B\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x3A\x33\x37\x37\x24\x78\x66\x79\x48\x4D\x4D\x4D\x4D\x23\x71\x68\x5A\x24\x5A\x79\x68\x68\x5A\x5A\x24\x79\x66\x68\x78\x5A\x4E\x45\x66\x66\x45\x45\x45\x24\x5A\x40\x71\x68\x5A\x68\x5A\x37\x66\x79\x78\x37\x78\x37\x68\x38\x38\x71\x48\x40\x23\x45\x3A\x3D\x37\x45\x27\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x37\x37\x78\x37\x33\x38\x45\x45\x71\x20\x5E\x3D\x2B\x3F\x2B\x2B\x79\x71\x45\x48\x40\x45\x45\x45\x45\x45\x71\x40\x40\x71\x38\x38\x79\x66\x38\x68\x48\x48\x45\x66\x37\x2B\x3A\x37\x3F\x3B\x3A\x2C\x27\x2C\x27\x78\x4D\x23\x48\x48\x48\x79\x2B\x3A\x3F\x79\x27\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x3A\x78\x78\x24\x40\x4E\x4E\x4D\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x5E\x3E\x3E\x3F\x3E\x3E\x3E\x3E\x3B\x3B\x3B\x3A\x3A\x3F\x3E\x3A\x2E\x2E\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x2E\x45\x4D\x40\x45\x78\x5E\x33\x68\x33\x2B\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x24\x48\x45\x48\x78\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x2B\x4E\x40\x2B\x66\x33\x78\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x2B\x2C\x20\x3A\x20\x20\n");
} }
else else
print_srvconsole("Couldn't find plugin matching \"%s\"\n", sPlugin);
}
else if (!strcmp(cmd, "unpause") && CMD_ARGC() > 2)
{
const char* sPlugin = CMD_ARGV(2);
CPluginMngr::CPlugin *plugin = g_plugins.findPlugin(sPlugin);
if (plugin && plugin->isValid() && plugin->isPaused())
{ {
plugin->unpausePlugin();
print_srvconsole("Unpaused plugin \"%s\"\n", plugin->getName());
print_srvconsole("Usage: amxx < command > [ argument ]\n");
print_srvconsole("Commands:\n");
print_srvconsole(" version - display amxx version info\n");
print_srvconsole(" gpl - print the license\n");
print_srvconsole(" plugins - list plugins currently loaded\n");
print_srvconsole(" modules - list modules currently loaded\n");
print_srvconsole(" cvars - list cvars registered by plugins\n");
print_srvconsole(" cmds - list commands registered by plugins\n");
print_srvconsole(" pause < plugin > - pause a running plugin\n");
print_srvconsole(" unpause < plugin > - unpause a previously paused plugin\n");
} }
else if (!plugin)
{
print_srvconsole("Couldn't find plugin matching \"%s\"\n", sPlugin);
} else {
print_srvconsole("Plugin %s can't be unpaused right now.", sPlugin);
}
}
else if (!strcmp(cmd, "cvars"))
{
print_srvconsole("Registered cvars:\n");
print_srvconsole(" %-24.23s %-24.23s %-16.15s\n", "name", "value", "plugin");
int ammount = 0;
for (CList<CCVar>::iterator a = g_cvars.begin(); a; ++a)
{
print_srvconsole(" [%3d] %-24.23s %-24.23s %-16.15s\n", ++ammount, (*a).getName(), CVAR_GET_STRING((*a).getName()), (*a).getPluginName());
}
print_srvconsole("%d cvars\n", ammount);
}
else if (!strcmp(cmd, "cmds"))
{
print_srvconsole("Registered commands:\n");
print_srvconsole(" %-24.23s %-16.15s %-8.7s %-16.15s\n", "name", "access", "type", "plugin");
int ammount = 0;
char access[32];
CmdMngr::iterator a = g_commands.begin(CMD_ConsoleCommand);
while (a)
{
UTIL_GetFlags(access, (*a).getFlags());
print_srvconsole(" [%3d] %-24.23s %-16.15s %-8.7s %-16.15s\n", ++ammount, (*a).getCmdLine(), access, (*a).getCmdType(), (*a).getPlugin()->getName());
++a;
}
print_srvconsole("%d commands\n",ammount);
}
else if (!strcmp(cmd, "version"))
{
print_srvconsole("%s %s (%s)\n", Plugin_info.name, Plugin_info.version, Plugin_info.url);
print_srvconsole("Authors: David \"BAILOPAN\" Anderson, Pavol \"PM OnoTo\" Marko\n");
print_srvconsole("\tFelix \"SniperBeamer\" Geyer, Jonny \"Got His Gun\" Bergstrom\n");
print_srvconsole("\tLukasz \"SidLuke\" Wlasinski, Christian \"Basic-Master\" Hammacher\n");
print_srvconsole("\tBorja \"faluco\" Ferrer\n");
print_srvconsole("Compiled: %s\n", __DATE__ ", " __TIME__);
#if defined JIT && !defined ASM32
print_srvconsole("Core mode: JIT Only\n");
#elif !defined JIT && defined ASM32
print_srvconsole("Core mode: ASM32 Only\n");
#elif defined JIT && defined ASM32
print_srvconsole("Core mode: JIT+ASM32\n");
#else
print_srvconsole("Core mode: Normal\n");
#endif
}
else if (!strcmp(cmd, "modules"))
{
print_srvconsole("Currently loaded modules:\n");
print_srvconsole(" %-23.22s %-8.7s %-20.19s %-11.10s\n", "name", "version", "author", "status");
int running = 0;
int modules = 0;
CList<CModule,const char *>::iterator a = g_modules.begin();
while (a)
{
if ((*a).getStatusValue() == MODULE_LOADED)
++running;
++modules;
print_srvconsole(" [%2d] %-23.22s %-8.7s %-20.19s %-11.10s\n", modules, (*a).getName(), (*a).getVersion(), (*a).getAuthor(), (*a).getStatus());
++a;
}
print_srvconsole("%d modules, %d correct\n", modules, running);
}
else if (!strcmp(cmd, "gpl"))
{
print_srvconsole("AMX Mod X\n");
print_srvconsole("\n");
print_srvconsole(" by the AMX Mod X Development Team\n");
print_srvconsole(" originally developed by OLO\n");
print_srvconsole("\n");
print_srvconsole("\n");
print_srvconsole(" This program is free software; you can redistribute it and/or modify it\n");
print_srvconsole(" under the terms of the GNU General Public License as published by the\n");
print_srvconsole(" Free Software Foundation; either version 2 of the License, or (at\n");
print_srvconsole(" your option) any later version.\n");
print_srvconsole("\n");
print_srvconsole(" This program is distributed in the hope that it will be useful, but\n");
print_srvconsole(" WITHOUT ANY WARRANTY; without even the implied warranty of\n");
print_srvconsole(" MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU\n");
print_srvconsole(" General Public License for more details.\n");
print_srvconsole("\n");
print_srvconsole(" You should have received a copy of the GNU General Public License\n");
print_srvconsole(" along with this program; if not, write to the Free Software Foundation,\n");
print_srvconsole(" Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA\n");
print_srvconsole("\n");
print_srvconsole(" In addition, as a special exception, the author gives permission to\n");
print_srvconsole(" link the code of this program with the Half-Life Game Engine (\"HL\n");
print_srvconsole(" Engine\") and Modified Game Libraries (\"MODs\") developed by Valve,\n");
print_srvconsole(" L.L.C (\"Valve\"). You must obey the GNU General Public License in all\n");
print_srvconsole(" respects for all of the code used other than the HL Engine and MODs\n");
print_srvconsole(" from Valve. If you modify this file, you may extend this exception\n");
print_srvconsole(" to your version of the file, but you are not obligated to do so. If\n");
print_srvconsole(" you do not wish to do so, delete this exception statement from your\n");
print_srvconsole(" version.\n");
print_srvconsole("\n");
}
else if (!strcmp(cmd, "\x74\x75\x72\x74\x6C\x65")) // !! Hidden Command :D !!
{
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x2E\x2E\x3A\x3A\x3E\x3E\x3A\x3A\x3B\x3E\x5E\x27\x2E\x27\x27\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x27\x3A\x3A\x3F\x3D\x3E\x3E\x3E\x3E\x3E\x3D\x3F\x3E\x78\x2B\x3F\x3E\x3E\x3E\x3D\x3E\x3F\x2B\x3F\x3E\x3B\x2E\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x2E\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x27\x2C\x3A\x3E\x3B\x3F\x3D\x3E\x3B\x2E\x27\x5E\x5E\x3B\x3B\x2C\x3A\x3F\x3F\x3D\x78\x3F\x3B\x3E\x3A\x3B\x3A\x5E\x3B\x3D\x3E\x2B\x2B\x2B\x2B\x3D\x2C\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x2C\x3E\x37\x24\x24\x78\x3D\x3D\x3D\x3F\x3A\x27\x20\x20\x20\x20\x20\x20\x20\x2E\x3A\x3B\x3D\x3E\x3A\x3A\x3A\x3A\x3F\x3F\x3F\x3E\x5E\x2C\x2E\x2E\x2C\x2C\x2C\x2C\x3A\x3B\x3D\x3D\x3B\x5E\x2C\x2C\x2C\x3A\x5E\x3A\x3F\x3F\x3E\x3D\x3D\x3E\x3E\x2B\x3B\x27\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x2C\x3D\x2B\x3E\x2C\x5E\x3D\x79\x24\x33\x78\x33\x24\x5A\x24\x3B\x20\x20\x3A\x3E\x2B\x3E\x3D\x3F\x5E\x2C\x2C\x2C\x5E\x5E\x3E\x3D\x3E\x3B\x3B\x3A\x5E\x5E\x3E\x3F\x3D\x2B\x37\x3D\x3F\x3E\x3E\x3E\x3F\x3D\x3F\x3F\x3D\x3D\x3D\x3D\x3E\x3F\x3D\x3E\x3E\x3E\x3D\x5A\x78\x3E\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x3D\x5A\x24\x37\x78\x66\x68\x78\x5A\x5A\x24\x79\x79\x71\x23\x23\x4D\x71\x3B\x3A\x3B\x3A\x3E\x3B\x3B\x2C\x5E\x3E\x3F\x3D\x3F\x3A\x2C\x2C\x3A\x3B\x3B\x3E\x3E\x3D\x2B\x3D\x3E\x3D\x3B\x3A\x3E\x3D\x2B\x3D\x2B\x37\x2B\x3D\x2B\x37\x37\x2B\x2B\x33\x33\x33\x37\x37\x24\x5A\x79\x3A\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x5E\x2B\x5A\x2B\x3E\x3D\x37\x5A\x66\x40\x40\x23\x40\x48\x23\x23\x23\x38\x5E\x3B\x3D\x3F\x2B\x3E\x3B\x3E\x5E\x5E\x2C\x27\x2E\x27\x2E\x2E\x5E\x3F\x3D\x3D\x3F\x3A\x3B\x3A\x3A\x3A\x5E\x5E\x3E\x3E\x3F\x3D\x37\x37\x3D\x3D\x37\x2B\x3D\x37\x2B\x37\x78\x24\x79\x38\x68\x45\x48\x79\x3E\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x2C\x3E\x3E\x78\x33\x68\x48\x23\x23\x40\x40\x48\x45\x66\x33\x20\x2C\x3A\x3E\x3E\x3E\x3B\x3B\x3A\x3A\x2C\x2E\x2C\x5E\x3A\x2C\x5E\x3B\x3E\x37\x37\x3F\x3B\x3A\x2E\x3A\x3A\x3B\x3D\x3B\x3B\x3D\x2B\x3D\x78\x33\x37\x3E\x3D\x3D\x2B\x37\x2B\x78\x78\x78\x78\x5A\x66\x71\x68\x38\x45\x27\x20\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x3A\x37\x37\x24\x66\x71\x45\x45\x71\x45\x3A\x3A\x2C\x5E\x3A\x3E\x3A\x3A\x3B\x3B\x5E\x3A\x2C\x5E\x5E\x2C\x2C\x5E\x3A\x3E\x2B\x33\x3D\x3E\x3A\x3A\x3A\x3D\x2B\x2B\x3D\x3F\x3F\x37\x37\x2B\x37\x3D\x3D\x5A\x33\x78\x33\x37\x78\x24\x5A\x33\x37\x38\x40\x71\x38\x66\x40\x2C\x20\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x5E\x2B\x5A\x45\x40\x5E\x5E\x5E\x3A\x2C\x3A\x3B\x3E\x3A\x5E\x5E\x2C\x2E\x2E\x2C\x5E\x3B\x3B\x3A\x2B\x3E\x3F\x3B\x3F\x3F\x3F\x3F\x3E\x3F\x3D\x37\x3B\x3B\x3D\x33\x2B\x3D\x3D\x78\x78\x5A\x78\x33\x78\x5A\x5A\x5A\x24\x71\x48\x79\x5A\x24\x79\x45\x3E\x20\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x27\x3B\x2C\x2C\x27\x5E\x5E\x2C\x3A\x5E\x3A\x3A\x5E\x3A\x3B\x3F\x3E\x3F\x3E\x3B\x3E\x3E\x3F\x3D\x2B\x37\x37\x2B\x2B\x3D\x2B\x37\x2B\x37\x37\x2B\x3B\x3D\x33\x2B\x2B\x37\x37\x2B\x3D\x78\x78\x66\x78\x78\x37\x33\x66\x78\x38\x23\x23\x27\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x3A\x3F\x3B\x5E\x2C\x3B\x3F\x3D\x3F\x3F\x3B\x3A\x3A\x3A\x3E\x3F\x3E\x3E\x3F\x3A\x3F\x33\x78\x78\x33\x24\x24\x33\x2B\x37\x78\x24\x78\x33\x3D\x2B\x2B\x5A\x24\x78\x24\x78\x33\x33\x24\x5A\x79\x24\x24\x24\x68\x45\x48\x38\x68\x45\x40\x3E\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x2C\x3A\x3E\x3F\x37\x3D\x3E\x3F\x2B\x3F\x3F\x3E\x3F\x3F\x3F\x3D\x3F\x3E\x3F\x3D\x37\x2B\x3E\x3E\x2B\x37\x37\x33\x37\x33\x78\x33\x33\x33\x78\x37\x37\x37\x78\x5A\x78\x5A\x79\x79\x5A\x24\x79\x79\x79\x79\x79\x68\x71\x38\x38\x71\x23\x23\x45\x37\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x5E\x2B\x2B\x3F\x2B\x78\x40\x38\x3F\x3B\x3E\x3B\x3B\x3E\x3F\x37\x2B\x3F\x3F\x3D\x3D\x3E\x3F\x2B\x37\x37\x37\x37\x33\x33\x78\x78\x33\x37\x24\x5A\x78\x5A\x5A\x78\x24\x33\x3D\x37\x37\x37\x78\x24\x5A\x78\x37\x37\x78\x66\x79\x66\x71\x66\x40\x45\x40\x3A\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x2B\x3A\x3F\x2B\x3D\x2B\x79\x23\x79\x3B\x2C\x3A\x3A\x3A\x37\x78\x3F\x3E\x3B\x3E\x3B\x3E\x3D\x37\x24\x33\x37\x33\x37\x78\x78\x33\x24\x68\x79\x33\x24\x78\x2B\x33\x33\x5A\x79\x24\x5A\x79\x24\x5A\x37\x24\x5A\x5A\x66\x38\x66\x79\x66\x40\x71\x45\x48\x5A\x3A\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x5E\x37\x3D\x37\x37\x33\x37\x37\x66\x45\x5A\x3F\x5E\x5E\x78\x37\x3D\x3F\x3E\x3B\x3B\x3E\x2B\x2B\x24\x78\x37\x2B\x37\x2B\x37\x78\x78\x71\x79\x33\x33\x24\x24\x78\x24\x5A\x3F\x37\x78\x24\x78\x79\x66\x5A\x78\x79\x66\x79\x68\x79\x66\x5A\x33\x3F\x3D\x3D\x20\x20\x20\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x5E\x2B\x3D\x3F\x37\x37\x78\x33\x5A\x4E\x4D\x23\x38\x33\x3F\x3E\x3B\x3E\x3B\x3D\x3D\x33\x66\x24\x78\x33\x2B\x78\x24\x5A\x24\x5A\x71\x79\x78\x33\x33\x78\x79\x5A\x5A\x33\x66\x24\x78\x78\x24\x79\x5A\x24\x79\x5A\x37\x66\x24\x3D\x3B\x66\x23\x4D\x4D\x4D\x79\x3B\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x3A\x33\x37\x37\x24\x78\x66\x79\x48\x4D\x4D\x4D\x4D\x23\x71\x68\x5A\x24\x5A\x79\x68\x68\x5A\x5A\x24\x79\x66\x68\x78\x5A\x4E\x45\x66\x66\x45\x45\x45\x24\x5A\x40\x71\x68\x5A\x68\x5A\x37\x66\x79\x78\x37\x78\x37\x68\x38\x38\x71\x48\x40\x23\x45\x3A\x3D\x37\x45\x27\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x37\x37\x78\x37\x33\x38\x45\x45\x71\x20\x5E\x3D\x2B\x3F\x2B\x2B\x79\x71\x45\x48\x40\x45\x45\x45\x45\x45\x71\x40\x40\x71\x38\x38\x79\x66\x38\x68\x48\x48\x45\x66\x37\x2B\x3A\x37\x3F\x3B\x3A\x2C\x27\x2C\x27\x78\x4D\x23\x48\x48\x48\x79\x2B\x3A\x3F\x79\x27\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x3A\x78\x78\x24\x40\x4E\x4E\x4D\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x5E\x3E\x3E\x3F\x3E\x3E\x3E\x3E\x3B\x3B\x3B\x3A\x3A\x3F\x3E\x3A\x2E\x2E\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x2E\x45\x4D\x40\x45\x78\x5E\x33\x68\x33\x2B\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x24\x48\x45\x48\x78\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x2B\x4E\x40\x2B\x66\x33\x78\x20\x20\n");
print_srvconsole("\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x20\x2B\x2C\x20\x3A\x20\x20\n");
} else {
print_srvconsole("Usage: amxx < command > [ argument ]\n");
print_srvconsole("Commands:\n");
print_srvconsole(" version - display amxx version info\n");
print_srvconsole(" gpl - print the license\n");
print_srvconsole(" plugins - list plugins currently loaded\n");
print_srvconsole(" modules - list modules currently loaded\n");
print_srvconsole(" cvars - list cvars registered by plugins\n");
print_srvconsole(" cmds - list commands registered by plugins\n");
print_srvconsole(" pause < plugin > - pause a running plugin\n");
print_srvconsole(" unpause < plugin > - unpause a previously paused plugin\n");
}
} }
void plugin_srvcmd() void plugin_srvcmd()
{ {
cell ret = 0;
const char* cmd = CMD_ARGV(0);
CmdMngr::iterator a = g_commands.srvcmdbegin(); cell ret = 0;
int err;
const char* cmd = CMD_ARGV(0);
while (a) #ifdef ENABLEEXEPTIONS
{ try{
if ((*a).matchCommand(cmd) && (*a).getPlugin()->isExecutable((*a).getFunction())) #endif
CmdMngr::iterator a = g_commands.srvcmdbegin();
while ( a )
{
if ( (*a).matchCommand( cmd ) &&
(*a).getPlugin()->isExecutable( (*a).getFunction() ) )
{
if ((err = amx_Exec( (*a).getPlugin()->getAMX(), &ret , (*a).getFunction()
, 3 , g_srvindex , (*a).getFlags() , (*a).getId() )) != AMX_ERR_NONE)
AMXXLOG_Log("[AMXX] Run time error %d on line %ld (plugin \"%s\")",
err,(*a).getPlugin()->getAMX()->curline,(*a).getPlugin()->getName());
if ( ret ) break;
}
++a;
}
#ifdef ENABLEEXEPTIONS
}catch( ... )
{ {
cell ret = executeForwards((*a).getFunction(), static_cast<cell>(g_srvindex), AMXXLOG_Log( "[AMXX] fatal error at forward function execution");
static_cast<cell>((*a).getFlags()), static_cast<cell>((*a).getId()));
if (ret) break;
} }
++a; #endif
}
} }

1178
amxmodx/string.cpp
View File

File diff suppressed because it is too large Load Diff

214
amxmodx/util.cpp
View File

@ -30,68 +30,46 @@
*/ */
#include <time.h> #include <time.h>
#include "amxmodx.h" #include "amxmodx.h"
#ifdef __linux__
#define _vsnprintf vsnprintf
#endif
char *UTIL_VarArgs(const char *fmt, ...)
{
va_list ap;
static char string[4096];
va_start(ap, fmt);
_vsnprintf(string, sizeof(string)-1, fmt, ap);
va_end(ap);
return string;
}
int UTIL_ReadFlags(const char* c) int UTIL_ReadFlags(const char* c)
{ {
int flags = 0; int flags = 0;
while (*c) flags |= ( 1 << ( *c++ - 'a' ) );
while (*c)
flags |= (1<<(*c++ - 'a'));
return flags; return flags;
} }
void UTIL_GetFlags(char* f, int a) void UTIL_GetFlags(char* f,int a)
{ {
for (int i = 'a'; i <= 'z'; ++i) for(int i='a';i<='z';++i){
{ if ( a & 1 ) *f++ = i;
if (a & 1) *f++ = i;
a >>= 1; a >>= 1;
} }
*f = 0; *f = 0;
} }
/* warning - don't pass here const string */ /* warning - don't pass here const string */
void UTIL_ShowMenu(edict_t* pEdict, int slots, int time, char *menu, int mlen) void UTIL_ShowMenu( edict_t* pEdict, int slots, int time, char *menu, int mlen )
{ {
char *n = menu; char *n = menu;
char c = 0; char c = 0;
int a; int a;
if (!gmsgShowMenu) if (!gmsgShowMenu)
return; // some games don't support ShowMenu (Firearms) return; // some games don't support ShowMenu (Firearms)
while (*n) while ( *n ) {
{
a = mlen; a = mlen;
if (a > 175) a = 175; if ( a > 175 ) a = 175;
mlen -= a; mlen -= a;
c = *(n+=a); c = *(n+=a);
*n = 0; *n = 0;
MESSAGE_BEGIN( MSG_ONE , gmsgShowMenu, NULL, pEdict );
MESSAGE_BEGIN(MSG_ONE, gmsgShowMenu, NULL, pEdict); WRITE_SHORT( slots );
WRITE_SHORT(slots); WRITE_CHAR( time );
WRITE_CHAR(time); WRITE_BYTE( c ? TRUE : FALSE);
WRITE_BYTE(c ? TRUE : FALSE); WRITE_STRING( menu );
WRITE_STRING(menu);
MESSAGE_END(); MESSAGE_END();
*n = c; *n = c;
menu = n; menu = n;
@ -99,86 +77,68 @@ void UTIL_ShowMenu(edict_t* pEdict, int slots, int time, char *menu, int mlen)
} }
/* warning - don't pass here const string */ /* warning - don't pass here const string */
void UTIL_ShowMOTD(edict_t *client, char *motd, int mlen, const char *name) void UTIL_ShowMOTD( edict_t *client , char *motd, int mlen, const char *name)
{ {
if (!gmsgMOTD) if (!gmsgServerName)
return; // :TODO: Maybe output a warning log? return; // :TODO: Maybe output a warning log?
if (gmsgServerName) MESSAGE_BEGIN( MSG_ONE , gmsgServerName, NULL, client );
{ WRITE_STRING(name);
MESSAGE_BEGIN(MSG_ONE, gmsgServerName, NULL, client); MESSAGE_END();
WRITE_STRING(name);
MESSAGE_END();
}
char *n = motd; char *n = motd;
char c = 0; char c = 0;
int a; int a;
while (*n) while ( *n ) {
{
a = mlen; a = mlen;
if (a > 175) a = 175; if ( a > 175 ) a = 175;
mlen -= a; mlen -= a;
c = *(n += a); c = *(n+=a);
*n = 0; *n = 0;
MESSAGE_BEGIN( MSG_ONE , gmsgMOTD, NULL, client );
MESSAGE_BEGIN(MSG_ONE, gmsgMOTD, NULL, client); WRITE_BYTE( c ? FALSE : TRUE );
WRITE_BYTE(c ? FALSE : TRUE); WRITE_STRING( motd );
WRITE_STRING(motd);
MESSAGE_END(); MESSAGE_END();
*n = c; *n = c;
motd = n; motd = n;
} }
if (gmsgServerName) MESSAGE_BEGIN( MSG_ONE , gmsgServerName, NULL, client );
{ WRITE_STRING( hostname->string );
MESSAGE_BEGIN(MSG_ONE, gmsgServerName, NULL, client); MESSAGE_END();
WRITE_STRING(hostname->string);
MESSAGE_END();
}
} }
void UTIL_IntToString(int value, char *output) void UTIL_IntToString(int value, char *output)
{ {
static const char *words[] = static const char *words[] = {"zero ","one ","two ","three ","four ",
{"zero ","one ","two ","three ","four ",
"five ", "six ","seven ","eight ","nine ","ten ", "five ", "six ","seven ","eight ","nine ","ten ",
"eleven ","twelve ","thirteen ","fourteen ","fifteen ", "eleven ","twelve ","thirteen ","fourteen ","fifteen ",
"sixteen ","seventeen ","eighteen ","nineteen ", "sixteen ","seventeen ","eighteen ","nineteen ",
"twenty ","thirty ","fourty ", "fifty ","sixty ", "twenty ","thirty ","fourty ", "fifty ","sixty ",
"seventy ","eighty ","ninety ", "seventy ","eighty ","ninety ",
"hundred ","thousand "}; "hundred ","thousand "};
*output = 0; *output = 0;
if (value < 0) value = -value; if (value < 0) value = -value;
int tho = value / 1000; int tho = value / 1000;
int aaa = 0; int aaa = 0;
if (tho){
if (tho) aaa += sprintf(&output[aaa], words[ tho ] );
{ aaa += sprintf(&output[aaa], words[29] );
aaa += sprintf(&output[aaa], words[tho]); value = value % 1000;
aaa += sprintf(&output[aaa], words[29]);
value = value % 1000;
} }
int hun = value / 100; int hun = value / 100;
if (hun) {
if (hun) aaa += sprintf(&output[aaa], words[ hun ] );
{ aaa += sprintf(&output[aaa], words[28] );
aaa += sprintf(&output[aaa], words[hun]); value = value % 100;
aaa += sprintf(&output[aaa], words[28]);
value = value % 100;
} }
int ten = value / 10; int ten = value / 10;
int unit = value % 10; int unit = value % 10;
if ( ten )
if (ten) aaa += sprintf(&output[aaa], words[ ( ten > 1 ) ? ( ten + 18 ) : ( unit + 10 ) ] );
aaa += sprintf(&output[aaa], words[(ten > 1) ? (ten + 18) : (unit + 10)]); if ( ten != 1 && ( unit || (!value && !hun && !tho) ) )
sprintf(&output[aaa], words[ unit ] );
if (ten != 1 && (unit || (!value && !hun && !tho)))
sprintf(&output[aaa], words[unit]);
} }
char* UTIL_SplitHudMessage(const char *src) char* UTIL_SplitHudMessage(const char *src)
@ -186,57 +146,50 @@ char* UTIL_SplitHudMessage(const char *src)
static char message[512]; static char message[512];
short b = 0, d = 0, e = 0, c = -1; short b = 0, d = 0, e = 0, c = -1;
while (src[d] && e < 480) while ( src[ d ] && e < 480 ) {
{ if ( src[ d ] == ' ' ) {
if (src[d] == ' ')
{
c = e; c = e;
} }
else if (src[d] == '\n') else if ( src[ d ] == '\n' ) {
{
c = -1; c = -1;
b = 0; b = 0;
} }
message[ e++ ] = src[ d++ ];
message[e++] = src[d++]; if ( ++b == 69 ) {
if ( c == -1 ) {
if (++b == 69) message[ e++ ] = '\n';
{
if (c == -1)
{
message[e++] = '\n';
b = 0; b = 0;
} else { }
message[c] = '\n'; else {
message[ c ] = '\n';
b = e - c - 1; b = e - c - 1;
c = -1; c = -1;
} }
} }
} }
message[ e ] = 0;
message[e] = 0;
return message; return message;
} }
unsigned short FixedUnsigned16(float value, float scale) unsigned short FixedUnsigned16( float value, float scale )
{ {
int output = (int)(value * scale); int output = (int)(value * scale);
if (output < 0) if ( output < 0 )
output = 0; output = 0;
else if (output > 0xFFFF) else if ( output > 0xFFFF )
output = 0xFFFF; output = 0xFFFF;
return (unsigned short)output; return (unsigned short)output;
} }
short FixedSigned16(float value, float scale) short FixedSigned16( float value, float scale )
{ {
int output = (int)(value * scale); int output = (int)(value * scale);
if (output > 32767) if ( output > 32767 )
output = 32767; output = 32767;
else if (output < -32768) else if ( output < -32768 )
output = -32768; output = -32768;
return (short)output; return (short)output;
@ -244,15 +197,15 @@ short FixedSigned16(float value, float scale)
void UTIL_HudMessage(edict_t *pEntity, const hudtextparms_t &textparms, char *pMessage) void UTIL_HudMessage(edict_t *pEntity, const hudtextparms_t &textparms, char *pMessage)
{ {
if (pEntity) if ( pEntity )
MESSAGE_BEGIN(MSG_ONE_UNRELIABLE, SVC_TEMPENTITY, NULL, pEntity); MESSAGE_BEGIN( MSG_ONE_UNRELIABLE, SVC_TEMPENTITY, NULL, pEntity );
else else
MESSAGE_BEGIN(MSG_BROADCAST, SVC_TEMPENTITY); MESSAGE_BEGIN( MSG_BROADCAST, SVC_TEMPENTITY );
WRITE_BYTE(29); WRITE_BYTE(29);
WRITE_BYTE(textparms.channel & 0xFF); WRITE_BYTE(textparms.channel & 0xFF);
WRITE_SHORT(FixedSigned16(textparms.x, (1<<13))); WRITE_SHORT(FixedSigned16(textparms.x, (1<<13) ));
WRITE_SHORT(FixedSigned16(textparms.y, (1<<13))); WRITE_SHORT(FixedSigned16(textparms.y, (1<<13) ));
WRITE_BYTE(textparms.effect); WRITE_BYTE(textparms.effect);
WRITE_BYTE(textparms.r1); WRITE_BYTE(textparms.r1);
WRITE_BYTE(textparms.g1); WRITE_BYTE(textparms.g1);
@ -262,34 +215,30 @@ void UTIL_HudMessage(edict_t *pEntity, const hudtextparms_t &textparms, char *pM
WRITE_BYTE(255); WRITE_BYTE(255);
WRITE_BYTE(250); WRITE_BYTE(250);
WRITE_BYTE(0); WRITE_BYTE(0);
WRITE_SHORT(FixedUnsigned16(textparms.fadeinTime, (1<<8))); WRITE_SHORT(FixedUnsigned16(textparms.fadeinTime, (1<<8) ));
WRITE_SHORT(FixedUnsigned16(textparms.fadeoutTime, (1<<8))); WRITE_SHORT(FixedUnsigned16(textparms.fadeoutTime, (1<<8) ));
WRITE_SHORT(FixedUnsigned16(textparms.holdTime, (1<<8))); WRITE_SHORT(FixedUnsigned16(textparms.holdTime, (1<<8) ));
if (textparms.effect==2)
if (textparms.effect == 2) WRITE_SHORT(FixedUnsigned16(textparms.fxTime, (1<<8) ) );
WRITE_SHORT(FixedUnsigned16(textparms.fxTime, (1<<8)));
WRITE_STRING(pMessage); WRITE_STRING(pMessage);
MESSAGE_END(); MESSAGE_END();
} }
/* warning - buffer of msg must be longer than 190 chars! /* warning - buffer of msg must be longer than 190 chars!
(here in AMX it is always longer) */ (here in AMX it is always longer) */
void UTIL_ClientPrint(edict_t *pEntity, int msg_dest, char *msg) void UTIL_ClientPrint( edict_t *pEntity, int msg_dest, char *msg )
{ {
if (!gmsgTextMsg) if (!gmsgTextMsg)
return; // :TODO: Maybe output a warning log? return; // :TODO: Maybe output a warning log?
char c = msg[190]; char c = msg[190];
msg[190] = 0; // truncate without checking with strlen() msg[190] = 0; // truncate without checking with strlen()
if ( pEntity )
if (pEntity) MESSAGE_BEGIN( MSG_ONE, gmsgTextMsg, NULL, pEntity );
MESSAGE_BEGIN(MSG_ONE, gmsgTextMsg, NULL, pEntity);
else else
MESSAGE_BEGIN(MSG_BROADCAST, gmsgTextMsg); MESSAGE_BEGIN( MSG_BROADCAST , gmsgTextMsg);
WRITE_BYTE( msg_dest );
WRITE_BYTE(msg_dest); WRITE_STRING( msg );
WRITE_STRING(msg);
MESSAGE_END(); MESSAGE_END();
msg[190] = c; msg[190] = c;
} }
@ -303,6 +252,17 @@ void UTIL_ClientPrint(edict_t *pEntity, int msg_dest, char *msg)
// 4) unsets the global "fake" flag // 4) unsets the global "fake" flag
void UTIL_FakeClientCommand(edict_t *pEdict, const char *cmd, const char *arg1, const char *arg2) void UTIL_FakeClientCommand(edict_t *pEdict, const char *cmd, const char *arg1, const char *arg2)
{ {
if (!cmd)
return; // no command
/*
char clCmd[256];
snprintf(g_fakecmd.args, 255, "%s%s%s%s%s", cmd,
arg1 ? " " : "", arg1 ? arg1 : "",
arg2 ? " " : "", arg2 ? arg2 : "");
clCmd[255] = 0;
CLIENT_COMMAND(pEdict, clCmd);
return;
*/
if (!cmd) if (!cmd)
return; // no command return; // no command
@ -333,7 +293,7 @@ void UTIL_FakeClientCommand(edict_t *pEdict, const char *cmd, const char *arg1,
// store argument // store argument
g_fakecmd.argv[1] = arg1; g_fakecmd.argv[1] = arg1;
// build argument line // build argument line
snprintf(g_fakecmd.args, 255, "%s", arg1); snprintf( g_fakecmd.args, 255, "%s", arg1);
// if snprintf reached 255 chars limit, this will make sure there will be no access violation // if snprintf reached 255 chars limit, this will make sure there will be no access violation
g_fakecmd.args[255] = 0; g_fakecmd.args[255] = 0;
} }

57
amxmodx/vault.cpp
View File

@ -34,49 +34,52 @@
Vault g_vault; Vault g_vault;
static cell AMX_NATIVE_CALL set_vaultdata(AMX *amx, cell *params) static cell AMX_NATIVE_CALL set_vaultdata(AMX *amx,cell *params)
{ {
int iLen; int iLen;
g_vault.put(get_amxstring(amx, params[1], 0, iLen), get_amxstring(amx, params[2], 1, iLen)); g_vault.put( get_amxstring(amx,params[1],0,iLen) , get_amxstring(amx,params[2],1,iLen) );
g_vault.saveVault(); g_vault.saveVault();
return 1; return 1;
} }
static cell AMX_NATIVE_CALL get_vaultdata(AMX *amx, cell *params) static cell AMX_NATIVE_CALL get_vaultdata(AMX *amx,cell *params)
{ {
int iLen; int iLen;
const char* key = get_amxstring(amx, params[1], 0, iLen);
if (params[3]) const char* key = get_amxstring(amx,params[1],0,iLen);
return set_amxstring(amx, params[2], g_vault.get(key), params[3]);
return g_vault.get_number(key); if ( params[3] )
return set_amxstring( amx , params[2] , g_vault.get( key ) , params[3] );
return g_vault.get_number( key );
} }
static cell AMX_NATIVE_CALL remove_vaultdata(AMX *amx, cell *params) static cell AMX_NATIVE_CALL remove_vaultdata(AMX *amx,cell *params)
{ {
int iLen; int iLen;
g_vault.remove(get_amxstring(amx, params[1], 0, iLen)); g_vault.remove( get_amxstring(amx,params[1],0,iLen) );
g_vault.saveVault(); g_vault.saveVault();
return 1; return 1;
} }
static cell AMX_NATIVE_CALL vaultdata_exists(AMX *amx, cell *params) static cell AMX_NATIVE_CALL vaultdata_exists(AMX *amx,cell *params)
{ {
int iLen; int iLen;
return g_vault.exists(get_amxstring(amx, params[1], 0, iLen)) ? 1 : 0;
return g_vault.exists( get_amxstring(amx,params[1],0,iLen) ) ? 1 : 0;
} }
AMX_NATIVE_INFO vault_Natives[] = AMX_NATIVE_INFO vault_Natives[] = {
{ { "set_vaultdata", set_vaultdata },
{"set_vaultdata", set_vaultdata}, { "get_vaultdata", get_vaultdata },
{"get_vaultdata", get_vaultdata}, { "remove_vaultdata", remove_vaultdata },
{"remove_vaultdata", remove_vaultdata}, { "delete_vaultdata", remove_vaultdata },
{"delete_vaultdata", remove_vaultdata}, { "vaultdata_exists", vaultdata_exists },
{"vaultdata_exists", vaultdata_exists}, { 0, 0 }
{0, 0}
}; };

108
amxmodx/version.rc
View File

@ -1,34 +1,8 @@
// Microsoft Visual C++ generated resource script.
//
#include "resource.h"
#define APSTUDIO_READONLY_SYMBOLS
/////////////////////////////////////////////////////////////////////////////
//
// Generated from the TEXTINCLUDE 2 resource.
//
#include "winres.h" #include "winres.h"
/////////////////////////////////////////////////////////////////////////////
#undef APSTUDIO_READONLY_SYMBOLS
/////////////////////////////////////////////////////////////////////////////
// English (U.S.) resources
#if !defined(AFX_RESOURCE_DLL) || defined(AFX_TARG_ENU)
#ifdef _WIN32
LANGUAGE LANG_ENGLISH, SUBLANG_ENGLISH_US
#pragma code_page(1252)
#endif //_WIN32
/////////////////////////////////////////////////////////////////////////////
//
// Version
//
VS_VERSION_INFO VERSIONINFO VS_VERSION_INFO VERSIONINFO
FILEVERSION 1,7,0,0 FILEVERSION 0,2,0,0
PRODUCTVERSION 1,7,0,0 PRODUCTVERSION 0,2,0,0
FILEFLAGSMASK 0x17L FILEFLAGSMASK 0x17L
#ifdef _DEBUG #ifdef _DEBUG
FILEFLAGS 0x1L FILEFLAGS 0x1L
@ -39,64 +13,22 @@ VS_VERSION_INFO VERSIONINFO
FILETYPE 0x2L FILETYPE 0x2L
FILESUBTYPE 0x0L FILESUBTYPE 0x0L
BEGIN BEGIN
BLOCK "StringFileInfo" BLOCK "StringFileInfo"
BEGIN BEGIN
BLOCK "000004b0" BLOCK "000004b0"
BEGIN BEGIN
VALUE "Comments", "AMX Mod X" VALUE "Comments", "AMX Mod X\0"
VALUE "FileDescription", "AMX Mod X" VALUE "FileDescription", "AMX Mod X\0"
VALUE "FileVersion", "1.70" VALUE "FileVersion", "0.20\0"
VALUE "InternalName", "amxmodx" VALUE "InternalName", "amxmodx\0"
VALUE "LegalCopyright", "Copyright (c) 2004-2006, AMX Mod X Dev Team" VALUE "LegalCopyright", "Copyright (c) 2004, AMX Mod X Dev Team\0"
VALUE "OriginalFilename", "amxmodx_mm.dll" VALUE "OriginalFilename", "amxx_mm.dll\0"
VALUE "ProductName", "AMX Mod X" VALUE "ProductName", "AMX Mod X\0"
VALUE "ProductVersion", "1.70" VALUE "ProductVersion", "0.20\0"
END END
END END
BLOCK "VarFileInfo" BLOCK "VarFileInfo"
BEGIN BEGIN
VALUE "Translation", 0x0, 1200 VALUE "Translation", 0x0, 1200
END END
END END
#ifdef APSTUDIO_INVOKED
/////////////////////////////////////////////////////////////////////////////
//
// TEXTINCLUDE
//
1 TEXTINCLUDE
BEGIN
"resource.h\0"
END
2 TEXTINCLUDE
BEGIN
"#include ""winres.h""\r\n"
"\0"
END
3 TEXTINCLUDE
BEGIN
"\r\n"
"\0"
END
#endif // APSTUDIO_INVOKED
#endif // English (U.S.) resources
/////////////////////////////////////////////////////////////////////////////
#ifndef APSTUDIO_INVOKED
/////////////////////////////////////////////////////////////////////////////
//
// Generated from the TEXTINCLUDE 3 resource.
//
/////////////////////////////////////////////////////////////////////////////
#endif // not APSTUDIO_INVOKED

BIN
amxmodx/zlib/libz.a
View File

Binary file not shown.

BIN
amxmodx/zlib/libz64.a
View File

Binary file not shown.

323
amxmodx/zlib/zconf.h
View File

@ -1,323 +0,0 @@
/* zconf.h -- configuration of the zlib compression library
* Copyright (C) 1995-2003 Jean-loup Gailly.
* For conditions of distribution and use, see copyright notice in zlib.h
*/
/* @(#) $Id$ */
#ifndef ZCONF_H
#define ZCONF_H
/*
* If you *really* need a unique prefix for all types and library functions,
* compile with -DZ_PREFIX. The "standard" zlib should be compiled without it.
*/
#ifdef Z_PREFIX
# define deflateInit_ z_deflateInit_
# define deflate z_deflate
# define deflateEnd z_deflateEnd
# define inflateInit_ z_inflateInit_
# define inflate z_inflate
# define inflateEnd z_inflateEnd
# define deflateInit2_ z_deflateInit2_
# define deflateSetDictionary z_deflateSetDictionary
# define deflateCopy z_deflateCopy
# define deflateReset z_deflateReset
# define deflatePrime z_deflatePrime
# define deflateParams z_deflateParams
# define deflateBound z_deflateBound
# define inflateInit2_ z_inflateInit2_
# define inflateSetDictionary z_inflateSetDictionary
# define inflateSync z_inflateSync
# define inflateSyncPoint z_inflateSyncPoint
# define inflateCopy z_inflateCopy
# define inflateReset z_inflateReset
# define compress z_compress
# define compress2 z_compress2
# define compressBound z_compressBound
# define uncompress z_uncompress
# define adler32 z_adler32
# define crc32 z_crc32
# define get_crc_table z_get_crc_table
# define Byte z_Byte
# define uInt z_uInt
# define uLong z_uLong
# define Bytef z_Bytef
# define charf z_charf
# define intf z_intf
# define uIntf z_uIntf
# define uLongf z_uLongf
# define voidpf z_voidpf
# define voidp z_voidp
#endif
#if defined(__MSDOS__) && !defined(MSDOS)
# define MSDOS
#endif
#if (defined(OS_2) || defined(__OS2__)) && !defined(OS2)
# define OS2
#endif
#if defined(_WINDOWS) && !defined(WINDOWS)
# define WINDOWS
#endif
#if (defined(_WIN32) || defined(__WIN32__)) && !defined(WIN32)
# define WIN32
#endif
#if (defined(MSDOS) || defined(OS2) || defined(WINDOWS)) && !defined(WIN32)
# if !defined(__GNUC__) && !defined(__FLAT__) && !defined(__386__)
# ifndef SYS16BIT
# define SYS16BIT
# endif
# endif
#endif
/*
* Compile with -DMAXSEG_64K if the alloc function cannot allocate more
* than 64k bytes at a time (needed on systems with 16-bit int).
*/
#ifdef SYS16BIT
# define MAXSEG_64K
#endif
#ifdef MSDOS
# define UNALIGNED_OK
#endif
#ifdef __STDC_VERSION__
# ifndef STDC
# define STDC
# endif
# if __STDC_VERSION__ >= 199901L
# ifndef STDC99
# define STDC99
# endif
# endif
#endif
#if !defined(STDC) && (defined(__STDC__) || defined(__cplusplus))
# define STDC
#endif
#if !defined(STDC) && (defined(__GNUC__) || defined(__BORLANDC__))
# define STDC
#endif
#if !defined(STDC) && (defined(MSDOS) || defined(WINDOWS) || defined(WIN32))
# define STDC
#endif
#if !defined(STDC) && (defined(OS2) || defined(__HOS_AIX__))
# define STDC
#endif
#if defined(__OS400__) && !defined(STDC) /* iSeries (formerly AS/400). */
# define STDC
#endif
#ifndef STDC
# ifndef const /* cannot use !defined(STDC) && !defined(const) on Mac */
# define const /* note: need a more gentle solution here */
# endif
#endif
/* Some Mac compilers merge all .h files incorrectly: */
#if defined(__MWERKS__)||defined(applec)||defined(THINK_C)||defined(__SC__)
# define NO_DUMMY_DECL
#endif
/* Maximum value for memLevel in deflateInit2 */
#ifndef MAX_MEM_LEVEL
# ifdef MAXSEG_64K
# define MAX_MEM_LEVEL 8
# else
# define MAX_MEM_LEVEL 9
# endif
#endif
/* Maximum value for windowBits in deflateInit2 and inflateInit2.
* WARNING: reducing MAX_WBITS makes minigzip unable to extract .gz files
* created by gzip. (Files created by minigzip can still be extracted by
* gzip.)
*/
#ifndef MAX_WBITS
# define MAX_WBITS 15 /* 32K LZ77 window */
#endif
/* The memory requirements for deflate are (in bytes):
(1 << (windowBits+2)) + (1 << (memLevel+9))
that is: 128K for windowBits=15 + 128K for memLevel = 8 (default values)
plus a few kilobytes for small objects. For example, if you want to reduce
the default memory requirements from 256K to 128K, compile with
make CFLAGS="-O -DMAX_WBITS=14 -DMAX_MEM_LEVEL=7"
Of course this will generally degrade compression (there's no free lunch).
The memory requirements for inflate are (in bytes) 1 << windowBits
that is, 32K for windowBits=15 (default value) plus a few kilobytes
for small objects.
*/
/* Type declarations */
#ifndef OF /* function prototypes */
# ifdef STDC
# define OF(args) args
# else
# define OF(args) ()
# endif
#endif
/* The following definitions for FAR are needed only for MSDOS mixed
* model programming (small or medium model with some far allocations).
* This was tested only with MSC; for other MSDOS compilers you may have
* to define NO_MEMCPY in zutil.h. If you don't need the mixed model,
* just define FAR to be empty.
*/
#ifdef SYS16BIT
# if defined(M_I86SM) || defined(M_I86MM)
/* MSC small or medium model */
# define SMALL_MEDIUM
# ifdef _MSC_VER
# define FAR _far
# else
# define FAR far
# endif
# endif
# if (defined(__SMALL__) || defined(__MEDIUM__))
/* Turbo C small or medium model */
# define SMALL_MEDIUM
# ifdef __BORLANDC__
# define FAR _far
# else
# define FAR far
# endif
# endif
#endif
#if defined(WINDOWS) || defined(WIN32)
/* If building or using zlib as a DLL, define ZLIB_DLL.
* This is not mandatory, but it offers a little performance increase.
*/
# ifdef ZLIB_DLL
# if defined(WIN32) && (!defined(__BORLANDC__) || (__BORLANDC__ >= 0x500))
# ifdef ZLIB_INTERNAL
# define ZEXTERN extern __declspec(dllexport)
# else
# define ZEXTERN extern __declspec(dllimport)
# endif
# endif
# endif /* ZLIB_DLL */
/* If building or using zlib with the WINAPI/WINAPIV calling convention,
* define ZLIB_WINAPI.
* Caution: the standard ZLIB1.DLL is NOT compiled using ZLIB_WINAPI.
*/
# ifdef ZLIB_WINAPI
# ifdef FAR
# undef FAR
# endif
# include <windows.h>
/* No need for _export, use ZLIB.DEF instead. */
/* For complete Windows compatibility, use WINAPI, not __stdcall. */
# define ZEXPORT WINAPI
# ifdef WIN32
# define ZEXPORTVA WINAPIV
# else
# define ZEXPORTVA FAR CDECL
# endif
# endif
#endif
#if defined (__BEOS__)
# ifdef ZLIB_DLL
# ifdef ZLIB_INTERNAL
# define ZEXPORT __declspec(dllexport)
# define ZEXPORTVA __declspec(dllexport)
# else
# define ZEXPORT __declspec(dllimport)
# define ZEXPORTVA __declspec(dllimport)
# endif
# endif
#endif
#ifndef ZEXTERN
# define ZEXTERN extern
#endif
#ifndef ZEXPORT
# define ZEXPORT
#endif
#ifndef ZEXPORTVA
# define ZEXPORTVA
#endif
#ifndef FAR
# define FAR
#endif
#if !defined(__MACTYPES__)
typedef unsigned char Byte; /* 8 bits */
#endif
typedef unsigned int uInt; /* 16 bits or more */
typedef unsigned long uLong; /* 32 bits or more */
#ifdef SMALL_MEDIUM
/* Borland C/C++ and some old MSC versions ignore FAR inside typedef */
# define Bytef Byte FAR
#else
typedef Byte FAR Bytef;
#endif
typedef char FAR charf;
typedef int FAR intf;
typedef uInt FAR uIntf;
typedef uLong FAR uLongf;
#ifdef STDC
typedef void const *voidpc;
typedef void FAR *voidpf;
typedef void *voidp;
#else
typedef Byte const *voidpc;
typedef Byte FAR *voidpf;
typedef Byte *voidp;
#endif
#if 0 /* HAVE_UNISTD_H -- this line is updated by ./configure */
# include <sys/types.h> /* for off_t */
# include <unistd.h> /* for SEEK_* and off_t */
# ifdef VMS
# include <unixio.h> /* for off_t */
# endif
# define z_off_t off_t
#endif
#ifndef SEEK_SET
# define SEEK_SET 0 /* Seek from beginning of file. */
# define SEEK_CUR 1 /* Seek from current position. */
# define SEEK_END 2 /* Set file pointer to EOF plus "offset" */
#endif
#ifndef z_off_t
# define z_off_t long
#endif
#if defined(__OS400__)
#define NO_vsnprintf
#endif
#if defined(__MVS__)
# define NO_vsnprintf
# ifdef FAR
# undef FAR
# endif
#endif
/* MVS linker does not support external names larger than 8 bytes */
#if defined(__MVS__)
# pragma map(deflateInit_,"DEIN")
# pragma map(deflateInit2_,"DEIN2")
# pragma map(deflateEnd,"DEEND")
# pragma map(deflateBound,"DEBND")
# pragma map(inflateInit_,"ININ")
# pragma map(inflateInit2_,"ININ2")
# pragma map(inflateEnd,"INEND")
# pragma map(inflateSync,"INSY")
# pragma map(inflateSetDictionary,"INSEDI")
# pragma map(compressBound,"CMBND")
# pragma map(inflate_table,"INTABL")
# pragma map(inflate_fast,"INFA")
# pragma map(inflate_copyright,"INCOPY")
#endif
#endif /* ZCONF_H */

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