//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ // //===========================================================================// #include #include #include #include "basetypes.h" #include "tier1/convar.h" #include "tier1/strtools.h" #include "tier1/characterset.h" #include "tier1/utlbuffer.h" #include "tier1/tier1.h" #include "tier1/convar_serverbounded.h" #include "icvar.h" #include "tier0/dbg.h" #include "Color.h" #if defined( _X360 ) #include "xbox/xbox_console.h" #endif #include "tier0/memdbgon.h" #ifndef NDEBUG // Comment this out when we release. #define ALLOW_DEVELOPMENT_CVARS #endif //----------------------------------------------------------------------------- // Statically constructed list of ConCommandBases, // used for registering them with the ICVar interface //----------------------------------------------------------------------------- ConCommandBase *ConCommandBase::s_pConCommandBases = NULL; IConCommandBaseAccessor *ConCommandBase::s_pAccessor = NULL; static int s_nCVarFlag = 0; static int s_nDLLIdentifier = -1; // A unique identifier indicating which DLL this convar came from static bool s_bRegistered = false; class CDefaultAccessor : public IConCommandBaseAccessor { public: virtual bool RegisterConCommandBase( ConCommandBase *pVar ) { // Link to engine's list instead g_pCVar->RegisterConCommand( pVar ); return true; } }; static CDefaultAccessor s_DefaultAccessor; //----------------------------------------------------------------------------- // Called by the framework to register ConCommandBases with the ICVar //----------------------------------------------------------------------------- void ConVar_Register( int nCVarFlag, IConCommandBaseAccessor *pAccessor ) { if ( !g_pCVar || s_bRegistered ) return; Assert( s_nDLLIdentifier < 0 ); s_bRegistered = true; s_nCVarFlag = nCVarFlag; s_nDLLIdentifier = g_pCVar->AllocateDLLIdentifier(); ConCommandBase *pCur, *pNext; ConCommandBase::s_pAccessor = pAccessor ? pAccessor : &s_DefaultAccessor; pCur = ConCommandBase::s_pConCommandBases; while ( pCur ) { pNext = pCur->m_pNext; pCur->AddFlags( s_nCVarFlag ); pCur->Init(); pCur = pNext; } g_pCVar->ProcessQueuedMaterialThreadConVarSets(); ConCommandBase::s_pConCommandBases = NULL; } void ConVar_Unregister( ) { if ( !g_pCVar || !s_bRegistered ) return; Assert( s_nDLLIdentifier >= 0 ); g_pCVar->UnregisterConCommands( s_nDLLIdentifier ); s_nDLLIdentifier = -1; s_bRegistered = false; } //----------------------------------------------------------------------------- // Purpose: Default constructor //----------------------------------------------------------------------------- ConCommandBase::ConCommandBase( void ) { m_bRegistered = false; m_pszName = NULL; m_pszHelpString = NULL; m_nFlags = 0; m_pNext = NULL; } //----------------------------------------------------------------------------- // Purpose: The base console invoked command/cvar interface // Input : *pName - name of variable/command // *pHelpString - help text // flags - flags //----------------------------------------------------------------------------- ConCommandBase::ConCommandBase( const char *pName, const char *pHelpString /*=0*/, int flags /*= 0*/ ) { CreateBase( pName, pHelpString, flags ); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- ConCommandBase::~ConCommandBase( void ) { } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool ConCommandBase::IsCommand( void ) const { // Assert( 0 ); This can't assert. . causes a recursive assert in Sys_Printf, etc. return true; } //----------------------------------------------------------------------------- // Returns the DLL identifier //----------------------------------------------------------------------------- CVarDLLIdentifier_t ConCommandBase::GetDLLIdentifier() const { return s_nDLLIdentifier; } //----------------------------------------------------------------------------- // Purpose: // Input : *pName - // callback - // *pHelpString - // flags - //----------------------------------------------------------------------------- void ConCommandBase::CreateBase( const char *pName, const char *pHelpString /*= 0*/, int flags /*= 0*/ ) { m_bRegistered = false; // Name should be static data Assert( pName ); m_pszName = pName; m_pszHelpString = pHelpString ? pHelpString : ""; m_nFlags = flags; #ifdef ALLOW_DEVELOPMENT_CVARS m_nFlags &= ~FCVAR_DEVELOPMENTONLY; #endif if ( !( m_nFlags & FCVAR_UNREGISTERED ) ) { m_pNext = s_pConCommandBases; s_pConCommandBases = this; } else { // It's unregistered m_pNext = NULL; } // If s_pAccessor is already set (this ConVar is not a global variable), // register it. if ( s_pAccessor ) { Init(); } } //----------------------------------------------------------------------------- // Purpose: Used internally by OneTimeInit to initialize. //----------------------------------------------------------------------------- void ConCommandBase::Init() { if ( s_pAccessor ) { s_pAccessor->RegisterConCommandBase( this ); } } void ConCommandBase::Shutdown() { if ( g_pCVar ) { g_pCVar->UnregisterConCommand( this ); } } //----------------------------------------------------------------------------- // Purpose: Return name of the command/var // Output : const char //----------------------------------------------------------------------------- const char *ConCommandBase::GetName( void ) const { return m_pszName; } //----------------------------------------------------------------------------- // Purpose: // Input : flag - // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool ConCommandBase::IsFlagSet( int flag ) const { return ( flag & m_nFlags ) ? true : false; } //----------------------------------------------------------------------------- // Purpose: // Input : flags - //----------------------------------------------------------------------------- void ConCommandBase::AddFlags( int flags ) { m_nFlags |= flags; #ifdef ALLOW_DEVELOPMENT_CVARS m_nFlags &= ~FCVAR_DEVELOPMENTONLY; #endif } //----------------------------------------------------------------------------- // Purpose: // Output : const ConCommandBase //----------------------------------------------------------------------------- const ConCommandBase *ConCommandBase::GetNext( void ) const { return m_pNext; } ConCommandBase *ConCommandBase::GetNext( void ) { return m_pNext; } //----------------------------------------------------------------------------- // Purpose: Copies string using local new/delete operators // Input : *from - // Output : char //----------------------------------------------------------------------------- char *ConCommandBase::CopyString( const char *from ) { int len; char *to; len = V_strlen( from ); if ( len <= 0 ) { to = new char[1]; to[0] = 0; } else { to = new char[len+1]; Q_strncpy( to, from, len+1 ); } return to; } //----------------------------------------------------------------------------- // Purpose: // Output : const char //----------------------------------------------------------------------------- const char *ConCommandBase::GetHelpText( void ) const { return m_pszHelpString; } //----------------------------------------------------------------------------- // Purpose: Has this cvar been registered // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool ConCommandBase::IsRegistered( void ) const { return m_bRegistered; } //----------------------------------------------------------------------------- // // Con Commands start here // //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- // Global methods //----------------------------------------------------------------------------- static characterset_t s_BreakSet; static bool s_bBuiltBreakSet = false; //----------------------------------------------------------------------------- // Tokenizer class //----------------------------------------------------------------------------- CCommand::CCommand() { if ( !s_bBuiltBreakSet ) { s_bBuiltBreakSet = true; CharacterSetBuild( &s_BreakSet, "{}()':" ); } Reset(); } CCommand::CCommand( int nArgC, const char **ppArgV ) { Assert( nArgC > 0 ); if ( !s_bBuiltBreakSet ) { s_bBuiltBreakSet = true; CharacterSetBuild( &s_BreakSet, "{}()':" ); } Reset(); char *pBuf = m_pArgvBuffer; char *pSBuf = m_pArgSBuffer; m_nArgc = nArgC; for ( int i = 0; i < nArgC; ++i ) { m_ppArgv[i] = pBuf; int nLen = Q_strlen( ppArgV[i] ); memcpy( pBuf, ppArgV[i], nLen+1 ); if ( i == 0 ) { m_nArgv0Size = nLen; } pBuf += nLen+1; bool bContainsSpace = strchr( ppArgV[i], ' ' ) != NULL; if ( bContainsSpace ) { *pSBuf++ = '\"'; } memcpy( pSBuf, ppArgV[i], nLen ); pSBuf += nLen; if ( bContainsSpace ) { *pSBuf++ = '\"'; } if ( i != nArgC - 1 ) { *pSBuf++ = ' '; } } } void CCommand::Reset() { m_nArgc = 0; m_nArgv0Size = 0; m_pArgSBuffer[0] = 0; } characterset_t* CCommand::DefaultBreakSet() { return &s_BreakSet; } bool CCommand::Tokenize( const char *pCommand, characterset_t *pBreakSet ) { Reset(); if ( !pCommand ) return false; // Use default break set if ( !pBreakSet ) { pBreakSet = &s_BreakSet; } // Copy the current command into a temp buffer // NOTE: This is here to avoid the pointers returned by DequeueNextCommand // to become invalid by calling AddText. Is there a way we can avoid the memcpy? int nLen = Q_strlen( pCommand ); if ( nLen >= COMMAND_MAX_LENGTH - 1 ) { Warning( "CCommand::Tokenize: Encountered command which overflows the tokenizer buffer.. Skipping!\n" ); return false; } memcpy( m_pArgSBuffer, pCommand, nLen + 1 ); // Parse the current command into the current command buffer CUtlBuffer bufParse( m_pArgSBuffer, nLen, CUtlBuffer::TEXT_BUFFER | CUtlBuffer::READ_ONLY ); int nArgvBufferSize = 0; while ( bufParse.IsValid() && ( m_nArgc < COMMAND_MAX_ARGC ) ) { char *pArgvBuf = &m_pArgvBuffer[nArgvBufferSize]; int nMaxLen = COMMAND_MAX_LENGTH - nArgvBufferSize; int nStartGet = bufParse.TellGet(); int nSize = bufParse.ParseToken( pBreakSet, pArgvBuf, nMaxLen ); if ( nSize < 0 ) break; // Check for overflow condition if ( nMaxLen == nSize ) { Reset(); return false; } if ( m_nArgc == 1 ) { // Deal with the case where the arguments were quoted m_nArgv0Size = bufParse.TellGet(); bool bFoundEndQuote = m_pArgSBuffer[m_nArgv0Size-1] == '\"'; if ( bFoundEndQuote ) { --m_nArgv0Size; } m_nArgv0Size -= nSize; Assert( m_nArgv0Size != 0 ); // The StartGet check is to handle this case: "foo"bar // which will parse into 2 different args. ArgS should point to bar. bool bFoundStartQuote = ( m_nArgv0Size > nStartGet ) && ( m_pArgSBuffer[m_nArgv0Size-1] == '\"' ); Assert( bFoundEndQuote == bFoundStartQuote ); if ( bFoundStartQuote ) { --m_nArgv0Size; } } m_ppArgv[ m_nArgc++ ] = pArgvBuf; if( m_nArgc >= COMMAND_MAX_ARGC ) { Warning( "CCommand::Tokenize: Encountered command which overflows the argument buffer.. Clamped!\n" ); } nArgvBufferSize += nSize + 1; Assert( nArgvBufferSize <= COMMAND_MAX_LENGTH ); } return true; } //----------------------------------------------------------------------------- // Helper function to parse arguments to commands. //----------------------------------------------------------------------------- const char* CCommand::FindArg( const char *pName ) const { int nArgC = ArgC(); for ( int i = 1; i < nArgC; i++ ) { if ( !Q_stricmp( Arg(i), pName ) ) return (i+1) < nArgC ? Arg( i+1 ) : ""; } return 0; } int CCommand::FindArgInt( const char *pName, int nDefaultVal ) const { const char *pVal = FindArg( pName ); if ( pVal ) return atoi( pVal ); else return nDefaultVal; } //----------------------------------------------------------------------------- // Default console command autocompletion function //----------------------------------------------------------------------------- int DefaultCompletionFunc( const char *partial, char commands[ COMMAND_COMPLETION_MAXITEMS ][ COMMAND_COMPLETION_ITEM_LENGTH ] ) { return 0; } //----------------------------------------------------------------------------- // Purpose: Constructs a console command //----------------------------------------------------------------------------- //ConCommand::ConCommand() //{ // m_bIsNewConCommand = true; //} ConCommand::ConCommand( const char *pName, FnCommandCallbackVoid_t callback, const char *pHelpString /*= 0*/, int flags /*= 0*/, FnCommandCompletionCallback completionFunc /*= 0*/ ) { // Set the callback m_fnCommandCallbackV1 = callback; m_bUsingNewCommandCallback = false; m_bUsingCommandCallbackInterface = false; m_fnCompletionCallback = completionFunc ? completionFunc : DefaultCompletionFunc; m_bHasCompletionCallback = completionFunc != 0 ? true : false; // Setup the rest BaseClass::CreateBase( pName, pHelpString, flags ); } ConCommand::ConCommand( const char *pName, FnCommandCallback_t callback, const char *pHelpString /*= 0*/, int flags /*= 0*/, FnCommandCompletionCallback completionFunc /*= 0*/ ) { // Set the callback m_fnCommandCallback = callback; m_bUsingNewCommandCallback = true; m_fnCompletionCallback = completionFunc ? completionFunc : DefaultCompletionFunc; m_bHasCompletionCallback = completionFunc != 0 ? true : false; m_bUsingCommandCallbackInterface = false; // Setup the rest BaseClass::CreateBase( pName, pHelpString, flags ); } ConCommand::ConCommand( const char *pName, ICommandCallback *pCallback, const char *pHelpString /*= 0*/, int flags /*= 0*/, ICommandCompletionCallback *pCompletionCallback /*= 0*/ ) { // Set the callback m_pCommandCallback = pCallback; m_bUsingNewCommandCallback = false; m_pCommandCompletionCallback = pCompletionCallback; m_bHasCompletionCallback = ( pCompletionCallback != 0 ); m_bUsingCommandCallbackInterface = true; // Setup the rest BaseClass::CreateBase( pName, pHelpString, flags ); } //----------------------------------------------------------------------------- // Destructor //----------------------------------------------------------------------------- ConCommand::~ConCommand( void ) { } //----------------------------------------------------------------------------- // Purpose: Returns true if this is a command //----------------------------------------------------------------------------- bool ConCommand::IsCommand( void ) const { return true; } //----------------------------------------------------------------------------- // Purpose: Invoke the function if there is one //----------------------------------------------------------------------------- void ConCommand::Dispatch( const CCommand &command ) { if ( m_bUsingNewCommandCallback ) { if ( m_fnCommandCallback ) { ( *m_fnCommandCallback )( command ); return; } } else if ( m_bUsingCommandCallbackInterface ) { if ( m_pCommandCallback ) { m_pCommandCallback->CommandCallback( command ); return; } } else { if ( m_fnCommandCallbackV1 ) { ( *m_fnCommandCallbackV1 )(); return; } } // Command without callback!!! AssertMsg( 0, "Encountered ConCommand '%s' without a callback!\n", GetName() ); } //----------------------------------------------------------------------------- // Purpose: Calls the autocompletion method to get autocompletion suggestions //----------------------------------------------------------------------------- int ConCommand::AutoCompleteSuggest( const char *partial, CUtlVector< CUtlString > &commands ) { if ( m_bUsingCommandCallbackInterface ) { if ( !m_pCommandCompletionCallback ) return 0; return m_pCommandCompletionCallback->CommandCompletionCallback( partial, commands ); } Assert( m_fnCompletionCallback ); if ( !m_fnCompletionCallback ) return 0; char rgpchCommands[ COMMAND_COMPLETION_MAXITEMS ][ COMMAND_COMPLETION_ITEM_LENGTH ]; int iret = ( m_fnCompletionCallback )( partial, rgpchCommands ); for ( int i = 0 ; i < iret; ++i ) { CUtlString str = rgpchCommands[ i ]; commands.AddToTail( str ); } return iret; } //----------------------------------------------------------------------------- // Returns true if the console command can autocomplete //----------------------------------------------------------------------------- bool ConCommand::CanAutoComplete( void ) { return m_bHasCompletionCallback; } //----------------------------------------------------------------------------- // // Console Variables // //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- // Various constructors //----------------------------------------------------------------------------- ConVar::ConVar( const char *pName, const char *pDefaultValue, int flags /* = 0 */ ) { Create( pName, pDefaultValue, flags ); } ConVar::ConVar( const char *pName, const char *pDefaultValue, int flags, const char *pHelpString ) { Create( pName, pDefaultValue, flags, pHelpString ); } ConVar::ConVar( const char *pName, const char *pDefaultValue, int flags, const char *pHelpString, bool bMin, float fMin, bool bMax, float fMax ) { Create( pName, pDefaultValue, flags, pHelpString, bMin, fMin, bMax, fMax ); } ConVar::ConVar( const char *pName, const char *pDefaultValue, int flags, const char *pHelpString, FnChangeCallback_t callback ) { Create( pName, pDefaultValue, flags, pHelpString, false, 0.0, false, 0.0, callback ); } ConVar::ConVar( const char *pName, const char *pDefaultValue, int flags, const char *pHelpString, bool bMin, float fMin, bool bMax, float fMax, FnChangeCallback_t callback ) { Create( pName, pDefaultValue, flags, pHelpString, bMin, fMin, bMax, fMax, callback ); } //----------------------------------------------------------------------------- // Destructor //----------------------------------------------------------------------------- ConVar::~ConVar( void ) { if ( m_pszString ) { delete[] m_pszString; m_pszString = NULL; } } //----------------------------------------------------------------------------- // Install a change callback (there shouldn't already be one....) //----------------------------------------------------------------------------- void ConVar::InstallChangeCallback( FnChangeCallback_t callback ) { Assert( !m_pParent->m_fnChangeCallback || !callback ); m_pParent->m_fnChangeCallback = callback; if ( m_pParent->m_fnChangeCallback ) { // Call it immediately to set the initial value... m_pParent->m_fnChangeCallback( this, m_pszString, m_fValue ); } } bool ConVar::IsFlagSet( int flag ) const { return ( flag & m_pParent->m_nFlags ) ? true : false; } const char *ConVar::GetHelpText( void ) const { return m_pParent->m_pszHelpString; } void ConVar::AddFlags( int flags ) { m_pParent->m_nFlags |= flags; #ifdef ALLOW_DEVELOPMENT_CVARS m_pParent->m_nFlags &= ~FCVAR_DEVELOPMENTONLY; #endif } bool ConVar::IsRegistered( void ) const { return m_pParent->m_bRegistered; } const char *ConVar::GetName( void ) const { return m_pParent->m_pszName; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool ConVar::IsCommand( void ) const { return false; } //----------------------------------------------------------------------------- // Purpose: // Input : //----------------------------------------------------------------------------- void ConVar::Init() { BaseClass::Init(); } //----------------------------------------------------------------------------- // Purpose: // Input : *value - //----------------------------------------------------------------------------- void ConVar::InternalSetValue( const char *value ) { if ( IsFlagSet( FCVAR_MATERIAL_THREAD_MASK ) ) { if ( g_pCVar && !g_pCVar->IsMaterialThreadSetAllowed() ) { g_pCVar->QueueMaterialThreadSetValue( this, value ); return; } } float fNewValue; char tempVal[ 32 ]; char *val; Assert(m_pParent == this); // Only valid for root convars. float flOldValue = m_fValue; val = (char *)value; if ( !value ) fNewValue = 0.0f; else fNewValue = ( float )atof( value ); if ( ClampValue( fNewValue ) ) { Q_snprintf( tempVal,sizeof(tempVal), "%f", fNewValue ); val = tempVal; } // Redetermine value m_fValue = fNewValue; m_nValue = ( int )( fNewValue ); if ( !( m_nFlags & FCVAR_NEVER_AS_STRING ) ) { ChangeStringValue( val, flOldValue ); } } //----------------------------------------------------------------------------- // Purpose: // Input : *tempVal - //----------------------------------------------------------------------------- void ConVar::ChangeStringValue( const char *tempVal, float flOldValue ) { Assert( !( m_nFlags & FCVAR_NEVER_AS_STRING ) ); char* pszOldValue = (char*)stackalloc( m_StringLength ); memcpy( pszOldValue, m_pszString, m_StringLength ); if ( tempVal ) { int len = Q_strlen(tempVal) + 1; if ( len > m_StringLength) { if (m_pszString) { delete[] m_pszString; } m_pszString = new char[len]; m_StringLength = len; } memcpy( m_pszString, tempVal, len ); } else { *m_pszString = 0; } // If nothing has changed, don't do the callbacks. if (V_strcmp(pszOldValue, m_pszString) != 0) { // Invoke any necessary callback function if ( m_fnChangeCallback ) { m_fnChangeCallback( this, pszOldValue, flOldValue ); } g_pCVar->CallGlobalChangeCallbacks( this, pszOldValue, flOldValue ); } stackfree( pszOldValue ); } //----------------------------------------------------------------------------- // Purpose: Check whether to clamp and then perform clamp // Input : value - // Output : Returns true if value changed //----------------------------------------------------------------------------- bool ConVar::ClampValue( float& value ) { if ( m_bHasMin && ( value < m_fMinVal ) ) { value = m_fMinVal; return true; } if ( m_bHasMax && ( value > m_fMaxVal ) ) { value = m_fMaxVal; return true; } return false; } //----------------------------------------------------------------------------- // Purpose: // Input : *value - //----------------------------------------------------------------------------- void ConVar::InternalSetFloatValue( float fNewValue ) { if ( fNewValue == m_fValue ) return; if ( IsFlagSet( FCVAR_MATERIAL_THREAD_MASK ) ) { if ( g_pCVar && !g_pCVar->IsMaterialThreadSetAllowed() ) { g_pCVar->QueueMaterialThreadSetValue( this, fNewValue ); return; } } Assert( m_pParent == this ); // Only valid for root convars. // Check bounds ClampValue( fNewValue ); // Redetermine value float flOldValue = m_fValue; m_fValue = fNewValue; m_nValue = ( int )m_fValue; if ( !( m_nFlags & FCVAR_NEVER_AS_STRING ) ) { char tempVal[ 32 ]; Q_snprintf( tempVal, sizeof( tempVal), "%f", m_fValue ); ChangeStringValue( tempVal, flOldValue ); } else { Assert( !m_fnChangeCallback ); } } //----------------------------------------------------------------------------- // Purpose: // Input : *value - //----------------------------------------------------------------------------- void ConVar::InternalSetIntValue( int nValue ) { if ( nValue == m_nValue ) return; if ( IsFlagSet( FCVAR_MATERIAL_THREAD_MASK ) ) { if ( g_pCVar && !g_pCVar->IsMaterialThreadSetAllowed() ) { g_pCVar->QueueMaterialThreadSetValue( this, nValue ); return; } } Assert( m_pParent == this ); // Only valid for root convars. float fValue = (float)nValue; if ( ClampValue( fValue ) ) { nValue = ( int )( fValue ); } // Redetermine value float flOldValue = m_fValue; m_fValue = fValue; m_nValue = nValue; if ( !( m_nFlags & FCVAR_NEVER_AS_STRING ) ) { char tempVal[ 32 ]; Q_snprintf( tempVal, sizeof( tempVal ), "%d", m_nValue ); ChangeStringValue( tempVal, flOldValue ); } else { Assert( !m_fnChangeCallback ); } } //----------------------------------------------------------------------------- // Purpose: Private creation //----------------------------------------------------------------------------- void ConVar::Create( const char *pName, const char *pDefaultValue, int flags /*= 0*/, const char *pHelpString /*= NULL*/, bool bMin /*= false*/, float fMin /*= 0.0*/, bool bMax /*= false*/, float fMax /*= false*/, FnChangeCallback_t callback /*= NULL*/ ) { m_pParent = this; // Name should be static data SetDefault( pDefaultValue ); m_StringLength = V_strlen( m_pszDefaultValue ) + 1; m_pszString = new char[m_StringLength]; memcpy( m_pszString, m_pszDefaultValue, m_StringLength ); m_bHasMin = bMin; m_fMinVal = fMin; m_bHasMax = bMax; m_fMaxVal = fMax; m_fnChangeCallback = callback; m_fValue = ( float )atof( m_pszString ); m_nValue = atoi( m_pszString ); // dont convert from float to int and lose bits // Bounds Check, should never happen, if it does, no big deal if ( m_bHasMin && ( m_fValue < m_fMinVal ) ) { Assert( 0 ); } if ( m_bHasMax && ( m_fValue > m_fMaxVal ) ) { Assert( 0 ); } BaseClass::CreateBase( pName, pHelpString, flags ); } //----------------------------------------------------------------------------- // Purpose: // Input : *value - //----------------------------------------------------------------------------- void ConVar::SetValue(const char *value) { ConVar *var = ( ConVar * )m_pParent; var->InternalSetValue( value ); } //----------------------------------------------------------------------------- // Purpose: // Input : value - //----------------------------------------------------------------------------- void ConVar::SetValue( float value ) { ConVar *var = ( ConVar * )m_pParent; var->InternalSetFloatValue( value ); } //----------------------------------------------------------------------------- // Purpose: // Input : value - //----------------------------------------------------------------------------- void ConVar::SetValue( int value ) { ConVar *var = ( ConVar * )m_pParent; var->InternalSetIntValue( value ); } //----------------------------------------------------------------------------- // Purpose: Reset to default value //----------------------------------------------------------------------------- void ConVar::Revert( void ) { // Force default value again ConVar *var = ( ConVar * )m_pParent; var->SetValue( var->m_pszDefaultValue ); } //----------------------------------------------------------------------------- // Purpose: // Input : minVal - // Output : true if there is a min set //----------------------------------------------------------------------------- bool ConVar::GetMin( float& minVal ) const { minVal = m_pParent->m_fMinVal; return m_pParent->m_bHasMin; } //----------------------------------------------------------------------------- // Purpose: // Input : maxVal - //----------------------------------------------------------------------------- bool ConVar::GetMax( float& maxVal ) const { maxVal = m_pParent->m_fMaxVal; return m_pParent->m_bHasMax; } //----------------------------------------------------------------------------- // Purpose: // Output : const char //----------------------------------------------------------------------------- const char *ConVar::GetDefault( void ) const { return m_pParent->m_pszDefaultValue; } void ConVar::SetDefault( const char *pszDefault ) { m_pszDefaultValue = pszDefault ? pszDefault : ""; Assert( m_pszDefaultValue ); } //----------------------------------------------------------------------------- // This version is simply used to make reading convars simpler. // Writing convars isn't allowed in this mode //----------------------------------------------------------------------------- class CEmptyConVar : public ConVar { public: CEmptyConVar() : ConVar( "", "0" ) {} // Used for optimal read access virtual void SetValue( const char *pValue ) {} virtual void SetValue( float flValue ) {} virtual void SetValue( int nValue ) {} virtual const char *GetName( void ) const { return ""; } virtual bool IsFlagSet( int nFlags ) const { return false; } }; static CEmptyConVar s_EmptyConVar; ConVarRef::ConVarRef( const char *pName ) { Init( pName, false ); } ConVarRef::ConVarRef( const char *pName, bool bIgnoreMissing ) { Init( pName, bIgnoreMissing ); } void ConVarRef::Init( const char *pName, bool bIgnoreMissing ) { m_pConVar = g_pCVar ? g_pCVar->FindVar( pName ) : &s_EmptyConVar; if ( !m_pConVar ) { m_pConVar = &s_EmptyConVar; } m_pConVarState = static_cast< ConVar * >( m_pConVar ); if( !IsValid() ) { static bool bFirst = true; if ( g_pCVar || bFirst ) { if ( !bIgnoreMissing ) { Warning( "ConVarRef %s doesn't point to an existing ConVar\n", pName ); } bFirst = false; } } } ConVarRef::ConVarRef( IConVar *pConVar ) { m_pConVar = pConVar ? pConVar : &s_EmptyConVar; m_pConVarState = static_cast< ConVar * >( m_pConVar ); } bool ConVarRef::IsValid() const { return m_pConVar != &s_EmptyConVar; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void ConVar_PrintFlags( const ConCommandBase *var ) { bool any = false; if ( var->IsFlagSet( FCVAR_GAMEDLL ) ) { ConMsg( " game" ); any = true; } if ( var->IsFlagSet( FCVAR_CLIENTDLL ) ) { ConMsg( " client" ); any = true; } if ( var->IsFlagSet( FCVAR_ARCHIVE ) ) { ConMsg( " archive" ); any = true; } if ( var->IsFlagSet( FCVAR_NOTIFY ) ) { ConMsg( " notify" ); any = true; } if ( var->IsFlagSet( FCVAR_SPONLY ) ) { ConMsg( " singleplayer" ); any = true; } if ( var->IsFlagSet( FCVAR_NOT_CONNECTED ) ) { ConMsg( " notconnected" ); any = true; } if ( var->IsFlagSet( FCVAR_CHEAT ) ) { ConMsg( " cheat" ); any = true; } if ( var->IsFlagSet( FCVAR_REPLICATED ) ) { ConMsg( " replicated" ); any = true; } if ( var->IsFlagSet( FCVAR_SERVER_CAN_EXECUTE ) ) { ConMsg( " server_can_execute" ); any = true; } if ( var->IsFlagSet( FCVAR_CLIENTCMD_CAN_EXECUTE ) ) { ConMsg( " clientcmd_can_execute" ); any = true; } if ( any ) { ConMsg( "\n" ); } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void ConVar_PrintDescription( const ConCommandBase *pVar ) { bool bMin, bMax; float fMin, fMax; const char *pStr; assert( pVar ); Color clr; clr.SetColor( 255, 100, 100, 255 ); if ( !pVar->IsCommand() ) { ConVar *var = ( ConVar * )pVar; const ConVar_ServerBounded *pBounded = dynamic_cast( var ); bMin = var->GetMin( fMin ); bMax = var->GetMax( fMax ); const char *value = NULL; char tempVal[ 32 ]; if ( pBounded || var->IsFlagSet( FCVAR_NEVER_AS_STRING ) ) { value = tempVal; int intVal = pBounded ? pBounded->GetInt() : var->GetInt(); float floatVal = pBounded ? pBounded->GetFloat() : var->GetFloat(); if ( fabs( (float)intVal - floatVal ) < 0.000001 ) { Q_snprintf( tempVal, sizeof( tempVal ), "%d", intVal ); } else { Q_snprintf( tempVal, sizeof( tempVal ), "%f", floatVal ); } } else { value = var->GetString(); } if ( value ) { ConColorMsg( clr, "\"%s\" = \"%s\"", var->GetName(), value ); if ( stricmp( value, var->GetDefault() ) ) { ConMsg( " ( def. \"%s\" )", var->GetDefault() ); } } if ( bMin ) { ConMsg( " min. %f", fMin ); } if ( bMax ) { ConMsg( " max. %f", fMax ); } ConMsg( "\n" ); // Handled virtualized cvars. if ( pBounded && fabs( pBounded->GetFloat() - var->GetFloat() ) > 0.0001f ) { ConColorMsg( clr, "** NOTE: The real value is %.3f but the server has temporarily restricted it to %.3f **\n", var->GetFloat(), pBounded->GetFloat() ); } } else { ConCommand *var = ( ConCommand * )pVar; ConColorMsg( clr, "\"%s\"\n", var->GetName() ); } ConVar_PrintFlags( pVar ); pStr = pVar->GetHelpText(); if ( pStr && pStr[0] ) { ConMsg( " - %s\n", pStr ); } }