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If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_rsc.hxx" #include #include #include #include #include #ifdef _RSCERROR_H #include #endif #include #include #include #include #include #include #include "rsclex.hxx" #include #include #include using namespace rtl; const char* StringContainer::putString( const char* pString ) { OString aString( static_cast(pString) ); std::pair< std::hash_set< OString, OStringHash >::iterator, bool > aInsert = m_aStrings.insert( aString ); return aInsert.first->getStr(); } /*************************************************************************/ int c; sal_Bool bLastInclude;// War letztes Symbol INCLUDE RscFileInst* pFI; RscTypCont* pTC; RscExpression * pExp; struct KeyVal { int nKeyWord; YYSTYPE aYYSType; } aKeyVal[ 1 ]; sal_Bool bTargetDefined; StringContainer* pStringContainer = NULL; /****************** C O D E **********************************************/ sal_uInt32 GetNumber(){ sal_uInt32 l = 0; sal_uInt32 nLog = 10; if( '0' == c ){ c = pFI->GetFastChar(); if( 'x' == c ){ nLog = 16; c = pFI->GetFastChar(); } }; if( nLog == 16 ){ while( isxdigit( c ) ){ if( isdigit( c ) ) l = l * nLog + (c - '0'); else l = l * nLog + (toupper( c ) - 'A' + 10 ); c = pFI->GetFastChar(); } } else{ while( isdigit( c ) || 'x' == c ){ l = l * nLog + (c - '0'); c = pFI->GetFastChar(); } } while( c=='U' || c=='u' || c=='l' || c=='L' ) //Wg. Unsigned Longs c = pFI->GetFastChar(); if( l > 0x7fffffff ) //Oberstes bit gegebenenfalls abschneiden; l &= 0x7fffffff; return( l ); } int MakeToken( YYSTYPE * pTokenVal ){ int c1; char * pStr; while( sal_True ){ // Kommentare und Leerzeichen ueberlesen while( isspace( c ) ) c = pFI->GetFastChar(); if( '/' == c ){ c1 = c; c = pFI->GetFastChar(); if( '/' == c ){ while( '\n' != c && !pFI->IsEof() ) c = pFI->GetFastChar(); c = pFI->GetFastChar(); } else if( '*' == c ){ c = pFI->GetFastChar(); do { while( '*' != c && !pFI->IsEof() ) c = pFI->GetFastChar(); c = pFI->GetFastChar(); } while( '/' != c && !pFI->IsEof() ); c = pFI->GetFastChar(); } else return( c1 ); } else break; }; if( c == pFI->IsEof() ){ return( 0 ); } if( bLastInclude ){ bLastInclude = sal_False; //Zuruecksetzten if( '<' == c ){ OStringBuffer aBuf( 256 ); c = pFI->GetFastChar(); while( '>' != c && !pFI->IsEof() ) { aBuf.append( sal_Char(c) ); c = pFI->GetFastChar(); }; c = pFI->GetFastChar(); pTokenVal->string = const_cast(pStringContainer->putString( aBuf.getStr() )); return( INCLUDE_STRING ); }; } if( c == '"' ) { OStringBuffer aBuf( 256 ); sal_Bool bDone = sal_False; while( !bDone && !pFI->IsEof() && c ) { c = pFI->GetFastChar(); if( c == '"' ) { do { c = pFI->GetFastChar(); } while( c == ' ' || c == '\t' ); if( c == '"' ) { // this is a continued string // note: multiline string continuations are handled by the parser // see rscyacc.y } else bDone = sal_True; } else if( c == '\\' ) { aBuf.append( '\\' ); c = pFI->GetFastChar(); if( c ) aBuf.append( sal_Char(c) ); } else aBuf.append( sal_Char(c) ); } pStr = pTokenVal->string = const_cast(pStringContainer->putString( aBuf.getStr() )); return( STRING ); } if (isdigit (c)){ pTokenVal->value = GetNumber(); return( NUMBER ); } if( isalpha (c) || (c == '_') ){ Atom nHashId; OStringBuffer aBuf( 256 ); while( isalnum (c) || (c == '_') || (c == '-') ) { aBuf.append( sal_Char(c) ); c = pFI->GetFastChar(); } nHashId = pHS->getID( aBuf.getStr(), true ); if( InvalidAtom != nHashId ) { KEY_STRUCT aKey; // Suche nach dem Schluesselwort if( pTC->aNmTb.Get( nHashId, &aKey ) ) { // Schluesselwort gefunden switch( aKey.nTyp ) { case CLASSNAME: pTokenVal->pClass = (RscTop *)aKey.yylval; break; case VARNAME: pTokenVal->varid = aKey.nName; break; case CONSTNAME: pTokenVal->constname.hashid = aKey.nName; pTokenVal->constname.nValue = aKey.yylval; break; case BOOLEAN: pTokenVal->svbool = (sal_Bool)aKey.yylval; break; case INCLUDE: bLastInclude = sal_True; default: pTokenVal->value = aKey.yylval; }; return( aKey.nTyp ); } else { pTokenVal->string = const_cast(pStringContainer->putString( aBuf.getStr() )); return( SYMBOL ); } } else{ // Symbol RscDefine * pDef; pDef = pTC->aFileTab.FindDef( aBuf.getStr() ); if( pDef ){ pTokenVal->defineele = pDef; return( RSCDEFINE ); } pTokenVal->string = const_cast(pStringContainer->putString( aBuf.getStr() )); return( SYMBOL ); } } if( c=='<' ) { c = pFI->GetFastChar(); if( c=='<' ) { c = pFI->GetFastChar(); return LEFTSHIFT; } else return '<'; } if( c=='>' ) { c = pFI->GetFastChar(); if( c=='>' ) { c = pFI->GetFastChar(); return RIGHTSHIFT; } else return '>'; } c1 = c; c = pFI->GetFastChar(); return( c1 ); } #if defined( RS6000 ) || defined( HP9000 ) || defined( SCO ) extern "C" int yylex() #else int yylex() #endif { if( bTargetDefined ) bTargetDefined = sal_False; else aKeyVal[ 0 ].nKeyWord = MakeToken( &aKeyVal[ 0 ].aYYSType ); yylval = aKeyVal[ 0 ].aYYSType; return( aKeyVal[ 0 ].nKeyWord ); } /****************** yyerror **********************************************/ #ifdef RS6000 extern "C" void yyerror( char* pMessage ) #elif defined HP9000 || defined SCO || defined SOLARIS extern "C" void yyerror( const char* pMessage ) #else void yyerror( char* pMessage ) #endif { pTC->pEH->Error( ERR_YACC, NULL, RscId(), pMessage ); } /****************** parser start function ********************************/ void InitParser( RscFileInst * pFileInst ) { pTC = pFileInst->pTypCont; // Datenkontainer setzten pFI = pFileInst; pStringContainer = new StringContainer(); pExp = NULL; //fuer MacroParser bTargetDefined = sal_False; // Anfangszeichen initialisieren bLastInclude = sal_False; c = pFI->GetFastChar(); } void EndParser(){ // Stack abraeumen while( ! S.IsEmpty() ) S.Pop(); // free string container delete pStringContainer; pStringContainer = NULL; if( pExp ) delete pExp; pTC = NULL; pFI = NULL; pExp = NULL; } void IncludeParser( RscFileInst * pFileInst ) { int nToken; // Wert des Tokens YYSTYPE aYYSType; // Daten des Tokens RscFile * pFName; // Filestruktur sal_uLong lKey; // Fileschluessel RscTypCont * pTypCon = pFileInst->pTypCont; pFName = pTypCon->aFileTab.Get( pFileInst->GetFileIndex() ); InitParser( pFileInst ); nToken = MakeToken( &aYYSType ); while( 0 != nToken && CLASSNAME != nToken ){ if( '#' == nToken ){ if( INCLUDE == (nToken = MakeToken( &aYYSType )) ){ if( STRING == (nToken = MakeToken( &aYYSType )) ){ lKey = pTypCon->aFileTab.NewIncFile( aYYSType.string, aYYSType.string ); pFName->InsertDependFile( lKey, LIST_APPEND ); } else if( INCLUDE_STRING == nToken ){ lKey = pTypCon->aFileTab.NewIncFile( aYYSType.string, ByteString() ); pFName->InsertDependFile( lKey, LIST_APPEND ); }; }; }; nToken = MakeToken( &aYYSType ); }; EndParser(); } ERRTYPE parser( RscFileInst * pFileInst ) { ERRTYPE aError; InitParser( pFileInst ); aError = yyparse(); EndParser(); // yyparser gibt 0 zurueck, wenn erfolgreich if( 0 == aError ) aError.Clear(); if( pFileInst->pTypCont->pEH->nErrors ) aError = ERR_ERROR; pFileInst->SetError( aError ); return( aError ); } RscExpression * MacroParser( RscFileInst & rFileInst ) { ERRTYPE aError; RscExpression * pExpression; InitParser( &rFileInst ); //Ziel auf macro_expression setzen aKeyVal[ 0 ].nKeyWord = MACROTARGET; bTargetDefined = sal_True; aError = yyparse(); pExpression = pExp; //EndParser() wuerde pExp loeschen if( pExp ) pExp = NULL; EndParser(); // yyparser gibt 0 zurueck, wenn erfolgreich if( 0 == aError ) aError.Clear(); if( rFileInst.pTypCont->pEH->nErrors ) aError = ERR_ERROR; rFileInst.SetError( aError ); //im Fehlerfall pExpression loeschen if( aError.IsError() && pExpression ){ delete pExpression; pExpression = NULL; }; return( pExpression ); }