/*************************************************************************************************** ** ** Original work Copyright (C) 2013 Ingo Berg ** Modified work Copyright 2014 Roman Telezhynskyi ** ** Permission is hereby granted, free of charge, to any person obtaining a copy of this ** software and associated documentation files (the "Software"), to deal in the Software ** without restriction, including without limitation the rights to use, copy, modify, ** merge, publish, distribute, sublicense, and/or sell copies of the Software, and to ** permit persons to whom the Software is furnished to do so, subject to the following conditions: ** ** The above copyright notice and this permission notice shall be included in all copies or ** substantial portions of the Software. ** ** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT ** NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND ** NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, ** DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, ** OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ** ******************************************************************************************************/ #include "qmuparsertokenreader.h" #include "qmuparserbase.h" #include /** * @file * @brief This file contains the parser token reader implementation. */ namespace qmu { // Forward declaration class QmuParserBase; //--------------------------------------------------------------------------------------------------------------------- /** * @brief Copy constructor. * * @sa Assign * @throw nothrow */ QmuParserTokenReader::QmuParserTokenReader ( const QmuParserTokenReader &a_Reader ) :m_pParser( a_Reader.m_pParser ), m_strFormula( a_Reader.m_strFormula ), m_iPos( a_Reader.m_iPos ), m_iSynFlags( a_Reader.m_iSynFlags ), m_bIgnoreUndefVar( a_Reader.m_bIgnoreUndefVar ), m_pFunDef( a_Reader.m_pFunDef ), m_pPostOprtDef( a_Reader.m_pPostOprtDef ), m_pInfixOprtDef( a_Reader.m_pInfixOprtDef ), m_pOprtDef( a_Reader.m_pOprtDef), m_pConstDef( a_Reader.m_pConstDef ), m_pStrVarDef( a_Reader.m_pStrVarDef ), m_pVarDef( a_Reader.m_pVarDef ), m_pFactory( a_Reader.m_pFactory ), m_pFactoryData( a_Reader.m_pFactoryData ), m_vIdentFun( a_Reader.m_vIdentFun ), m_UsedVar( a_Reader.m_UsedVar ), m_fZero(0), m_iBrackets( a_Reader.m_iBrackets ), m_lastTok(), m_cArgSep( a_Reader.m_cArgSep ) {} //--------------------------------------------------------------------------------------------------------------------- /** * @brief Assignement operator. * * Self assignement will be suppressed otherwise #Assign is called. * * @param a_Reader Object to copy to this token reader. * @throw nothrow */ QmuParserTokenReader& QmuParserTokenReader::operator= ( const QmuParserTokenReader &a_Reader ) { if ( &a_Reader != this ) { Assign ( a_Reader ); } return *this; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Assign state of a token reader to this token reader. * * @param a_Reader Object from which the state should be copied. * @throw nothrow */ void QmuParserTokenReader::Assign ( const QmuParserTokenReader &a_Reader ) { m_pParser = a_Reader.m_pParser; m_strFormula = a_Reader.m_strFormula; m_iPos = a_Reader.m_iPos; m_iSynFlags = a_Reader.m_iSynFlags; m_UsedVar = a_Reader.m_UsedVar; m_pFunDef = a_Reader.m_pFunDef; m_pConstDef = a_Reader.m_pConstDef; m_pVarDef = a_Reader.m_pVarDef; m_pStrVarDef = a_Reader.m_pStrVarDef; m_pPostOprtDef = a_Reader.m_pPostOprtDef; m_pInfixOprtDef = a_Reader.m_pInfixOprtDef; m_pOprtDef = a_Reader.m_pOprtDef; m_bIgnoreUndefVar = a_Reader.m_bIgnoreUndefVar; m_vIdentFun = a_Reader.m_vIdentFun; m_pFactory = a_Reader.m_pFactory; m_pFactoryData = a_Reader.m_pFactoryData; m_iBrackets = a_Reader.m_iBrackets; m_cArgSep = a_Reader.m_cArgSep; m_fZero = 0; m_lastTok = token_type(); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Constructor. * * Create a Token reader and bind it to a parser object. * * @pre [assert] a_pParser may not be NULL * @post #m_pParser==a_pParser * @param a_pParent Parent parser object of the token reader. */ QmuParserTokenReader::QmuParserTokenReader ( QmuParserBase *a_pParent ) : m_pParser ( a_pParent ), m_strFormula(), m_iPos ( 0 ), m_iSynFlags ( 0 ), m_bIgnoreUndefVar ( false ), m_pFunDef ( nullptr ), m_pPostOprtDef ( nullptr ), m_pInfixOprtDef ( nullptr ), m_pOprtDef ( nullptr ), m_pConstDef ( nullptr ), m_pStrVarDef ( nullptr ), m_pVarDef ( nullptr ), m_pFactory ( nullptr ), m_pFactoryData ( nullptr ), m_vIdentFun(), m_UsedVar(), m_fZero ( 0 ), m_iBrackets ( 0 ), m_lastTok(), m_cArgSep ( ',' ) { assert ( m_pParser ); SetParent ( m_pParser ); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Create instance of a QParserTokenReader identical with this and return its pointer. * * This is a factory method the calling function must take care of the object destruction. * * @return A new QParserTokenReader object. * @throw nothrow */ QmuParserTokenReader* QmuParserTokenReader::Clone ( QmuParserBase *a_pParent ) const { std::unique_ptr ptr ( new QmuParserTokenReader ( *this ) ); ptr->SetParent ( a_pParent ); return ptr.release(); } //--------------------------------------------------------------------------------------------------------------------- QmuParserTokenReader::token_type& QmuParserTokenReader::SaveBeforeReturn ( const token_type &tok ) { m_lastTok = tok; return m_lastTok; } //--------------------------------------------------------------------------------------------------------------------- void QmuParserTokenReader::AddValIdent ( identfun_type a_pCallback ) { // Use push_front is used to give user defined callbacks a higher priority than // the built in ones. Otherwise reading hex numbers would not work // since the "0" in "0xff" would always be read first making parsing of // the rest impossible. // reference: // http://sourceforge.net/projects/muparser/forums/forum/462843/topic/4824956 m_vIdentFun.push_front ( a_pCallback ); } //--------------------------------------------------------------------------------------------------------------------- void QmuParserTokenReader::SetVarCreator ( facfun_type a_pFactory, void *pUserData ) { m_pFactory = a_pFactory; m_pFactoryData = pUserData; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Initialize the token Reader. * * Sets the formula position index to zero and set Syntax flags to default for initial formula parsing. * @pre [assert] triggered if a_szFormula==0 */ void QmuParserTokenReader::SetFormula ( const QString &a_strFormula ) { m_strFormula = a_strFormula; ReInit(); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Reset the token reader to the start of the formula. * * The syntax flags will be reset to a value appropriate for the start of a formula. * @post #m_iPos==0, #m_iSynFlags = noOPT | noBC | noPOSTOP | noSTR * @throw nothrow * @sa ESynCodes */ void QmuParserTokenReader::ReInit() { m_iPos = 0; m_iSynFlags = sfSTART_OF_LINE; m_iBrackets = 0; m_UsedVar.clear(); m_lastTok = token_type(); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Read the next token from the string. */ QmuParserTokenReader::token_type QmuParserTokenReader::ReadNextToken() { assert ( m_pParser ); token_type tok; // Ignore all non printable characters when reading the expression while ( m_strFormula.data()[m_iPos] > 0 && m_strFormula.data()[m_iPos] <= 0x20 ) { ++m_iPos; } if ( IsEOF ( tok ) ) { return SaveBeforeReturn ( tok ); // Check for end of formula } if ( IsOprt ( tok ) ) { return SaveBeforeReturn ( tok ); // Check for user defined binary operator } if ( IsFunTok ( tok ) ) { return SaveBeforeReturn ( tok ); // Check for function token } if ( IsBuiltIn ( tok ) ) { return SaveBeforeReturn ( tok ); // Check built in operators / tokens } if ( IsArgSep ( tok ) ) { return SaveBeforeReturn ( tok ); // Check for function argument separators } if ( IsValTok ( tok ) ) { return SaveBeforeReturn ( tok ); // Check for values / constant tokens } if ( IsVarTok ( tok ) ) { return SaveBeforeReturn ( tok ); // Check for variable tokens } if ( IsStrVarTok ( tok ) ) { return SaveBeforeReturn ( tok ); // Check for string variables } if ( IsString ( tok ) ) { return SaveBeforeReturn ( tok ); // Check for String tokens } if ( IsInfixOpTok ( tok ) ) { return SaveBeforeReturn ( tok ); // Check for unary operators } if ( IsPostOpTok ( tok ) ) { return SaveBeforeReturn ( tok ); // Check for unary operators } // Check String for undefined variable token. Done only if a // flag is set indicating to ignore undefined variables. // This is a way to conditionally avoid an error if // undefined variables occur. // (The GetUsedVar function must suppress the error for // undefined variables in order to collect all variable // names including the undefined ones.) if ( ( m_bIgnoreUndefVar || m_pFactory ) && IsUndefVarTok ( tok ) ) { return SaveBeforeReturn ( tok ); } // Check for unknown token // // !!! From this point on there is no exit without an exception possible... // QString strTok; int iEnd = ExtractToken ( m_pParser->ValidNameChars(), strTok, m_iPos ); if ( iEnd != m_iPos ) { Error ( ecUNASSIGNABLE_TOKEN, m_iPos, strTok ); } Error ( ecUNASSIGNABLE_TOKEN, m_iPos, m_strFormula.mid ( m_iPos ) ); return token_type(); // never reached } //--------------------------------------------------------------------------------------------------------------------- void QmuParserTokenReader::SetParent ( QmuParserBase *a_pParent ) { m_pParser = a_pParent; m_pFunDef = &a_pParent->m_FunDef; m_pOprtDef = &a_pParent->m_OprtDef; m_pInfixOprtDef = &a_pParent->m_InfixOprtDef; m_pPostOprtDef = &a_pParent->m_PostOprtDef; m_pVarDef = &a_pParent->m_VarDef; m_pStrVarDef = &a_pParent->m_StrVarDef; m_pConstDef = &a_pParent->m_ConstDef; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Extract all characters that belong to a certain charset. * * @param a_szCharSet [in] Const char array of the characters allowed in the token. * @param a_strTok [out] The string that consists entirely of characters listed in a_szCharSet. * @param a_iPos [in] Position in the string from where to start reading. * @return The Position of the first character not listed in a_szCharSet. * @throw nothrow */ int QmuParserTokenReader::ExtractToken ( const QString &a_szCharSet, QString &a_sTok, int a_iPos ) const { const std::wstring m_strFormulaStd = m_strFormula.toStdWString(); const std::wstring a_szCharSetStd = a_szCharSet.toStdWString(); int iEnd = static_cast(m_strFormulaStd.find_first_not_of ( a_szCharSetStd, a_iPos )); if ( iEnd == static_cast(string_type::npos) ) { iEnd = static_cast(m_strFormulaStd.length()); } // Assign token string if there was something found if ( a_iPos != iEnd ) { a_sTok = QString().fromStdWString ( std::wstring ( m_strFormulaStd.begin() + a_iPos, m_strFormulaStd.begin() + iEnd ) ); } return iEnd; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Check Expression for the presence of a binary operator token. * * Userdefined binary operator "++" gives inconsistent parsing result for the equations "a++b" and "a ++ b" if * alphabetic characters are allowed in operator tokens. To avoid this this function checks specifically * for operator tokens. */ int QmuParserTokenReader::ExtractOperatorToken ( QString &a_sTok, int a_iPos ) const { const std::wstring m_strFormulaStd = m_strFormula.toStdWString(); const std::wstring oprtCharsStd = m_pParser->ValidInfixOprtChars().toStdWString(); int iEnd = static_cast( m_strFormulaStd.find_first_not_of ( oprtCharsStd, a_iPos ) ); if ( iEnd == static_cast( string_type::npos ) ) { iEnd = static_cast( m_strFormulaStd.length() ); } // Assign token string if there was something found if ( a_iPos != iEnd ) { a_sTok = QString().fromStdWString ( string_type ( m_strFormulaStd.begin() + a_iPos, m_strFormulaStd.begin() + iEnd ) ); return iEnd; } else { // There is still the chance of having to deal with an operator consisting exclusively // of alphabetic characters. return ExtractToken ( QMUP_CHARS, a_sTok, a_iPos ); } } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Check if a built in operator or other token can be found * @param a_Tok [out] Operator token if one is found. This can either be a binary operator or an infix operator token. * @return true if an operator token has been found. */ bool QmuParserTokenReader::IsBuiltIn ( token_type &a_Tok ) { const QStringList pOprtDef = m_pParser->GetOprtDef(); // Compare token with function and operator strings // check string for operator/function for ( int i = 0; i < pOprtDef.size(); ++i ) { int len = pOprtDef.at ( i ).length(); if ( pOprtDef.at ( i ) == m_strFormula.mid ( m_iPos, len ) ) { switch ( i ) { //case cmAND: //case cmOR: //case cmXOR: case cmLAND: case cmLOR: case cmLT: case cmGT: case cmLE: case cmGE: case cmNEQ: case cmEQ: case cmADD: case cmSUB: case cmMUL: case cmDIV: case cmPOW: case cmASSIGN: //if (len!=sTok.length()) // continue; // The assignement operator need special treatment if ( i == cmASSIGN && m_iSynFlags & noASSIGN ) { Error ( ecUNEXPECTED_OPERATOR, m_iPos, pOprtDef.at ( i ) ); } if ( m_pParser->HasBuiltInOprt() == false) { continue; } if ( m_iSynFlags & noOPT ) { // Maybe its an infix operator not an operator // Both operator types can share characters in // their identifiers if ( IsInfixOpTok ( a_Tok ) ) { return true; } Error ( ecUNEXPECTED_OPERATOR, m_iPos, pOprtDef.at ( i ) ); } m_iSynFlags = noBC | noOPT | noARG_SEP | noPOSTOP | noASSIGN | noIF | noELSE; m_iSynFlags |= ( ( i != cmEND ) && ( i != cmBC ) ) ? noEND : 0; break; case cmBO: if ( m_iSynFlags & noBO ) { Error ( ecUNEXPECTED_PARENS, m_iPos, pOprtDef.at ( i ) ); } if ( m_lastTok.GetCode() == cmFUNC ) { m_iSynFlags = noOPT | noEND | noARG_SEP | noPOSTOP | noASSIGN | noIF | noELSE; } else { m_iSynFlags = noBC | noOPT | noEND | noARG_SEP | noPOSTOP | noASSIGN | noIF | noELSE; } ++m_iBrackets; break; case cmBC: if ( m_iSynFlags & noBC ) { Error ( ecUNEXPECTED_PARENS, m_iPos, pOprtDef.at ( i ) ); } m_iSynFlags = noBO | noVAR | noVAL | noFUN | noINFIXOP | noSTR | noASSIGN; if ( --m_iBrackets < 0 ) { Error ( ecUNEXPECTED_PARENS, m_iPos, pOprtDef.at ( i ) ); } break; case cmELSE: if ( m_iSynFlags & noELSE ) { Error ( ecUNEXPECTED_CONDITIONAL, m_iPos, pOprtDef.at ( i ) ); } m_iSynFlags = noBC | noPOSTOP | noEND | noOPT | noIF | noELSE; break; case cmIF: if ( m_iSynFlags & noIF ) { Error ( ecUNEXPECTED_CONDITIONAL, m_iPos, pOprtDef.at ( i ) ); } m_iSynFlags = noBC | noPOSTOP | noEND | noOPT | noIF | noELSE; break; default: // The operator is listed in c_DefaultOprt, but not here. This is a bad thing... Error ( ecINTERNAL_ERROR ); } // switch operator id m_iPos += len; a_Tok.Set ( static_cast(i), pOprtDef.at ( i ) ); return true; } // if operator string found } // end of for all operator strings return false; } //--------------------------------------------------------------------------------------------------------------------- bool QmuParserTokenReader::IsArgSep ( token_type &a_Tok ) { if ( m_strFormula.at ( m_iPos ) == m_cArgSep ) { // copy the separator into null terminated string QString szSep; szSep[0] = m_cArgSep; szSep[1] = 0; if ( m_iSynFlags & noARG_SEP ) { Error ( ecUNEXPECTED_ARG_SEP, m_iPos, szSep ); } m_iSynFlags = noBC | noOPT | noEND | noARG_SEP | noPOSTOP | noASSIGN; m_iPos++; a_Tok.Set ( cmARG_SEP, szSep ); return true; } return false; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Check for End of Formula. * * @return true if an end of formula is found false otherwise. * @param a_Tok [out] If an eof is found the corresponding token will be stored there. * @sa IsOprt, IsFunTok, IsStrFunTok, IsValTok, IsVarTok, IsString, IsInfixOpTok, IsPostOpTok */ bool QmuParserTokenReader::IsEOF ( token_type &a_Tok ) { // check for EOF if ( m_strFormula.data()[m_iPos] == false /*|| szFormula[m_iPos] == '\n'*/ ) { if ( m_iSynFlags & noEND ) { try { Error ( ecUNEXPECTED_EOF, m_iPos ); } catch (qmu::QmuParserError &e) { qDebug() << " Code:" << e.GetCode() << "(" << e.GetMsg() << ")"; throw; } } if ( m_iBrackets > 0 ) { Error ( ecMISSING_PARENS, m_iPos, ")" ); } m_iSynFlags = 0; a_Tok.Set ( cmEND ); return true; } return false; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Check if a string position contains a unary infix operator. * @return true if a function token has been found false otherwise. */ bool QmuParserTokenReader::IsInfixOpTok ( token_type &a_Tok ) { QString sTok; int iEnd = ExtractToken ( m_pParser->ValidInfixOprtChars(), sTok, m_iPos ); if ( iEnd == m_iPos ) { return false; } // iteraterate over all postfix operator strings auto it = m_pInfixOprtDef->rbegin(); for ( ; it != m_pInfixOprtDef->rend(); ++it ) { if ( sTok.indexOf ( it->first ) != 0 ) { continue; } a_Tok.Set ( it->second, it->first ); m_iPos += static_cast(it->first.length()); if ( m_iSynFlags & noINFIXOP ) { Error ( ecUNEXPECTED_OPERATOR, m_iPos, a_Tok.GetAsString() ); } m_iSynFlags = noPOSTOP | noINFIXOP | noOPT | noBC | noSTR | noASSIGN; return true; } return false; /* a_Tok.Set(item->second, sTok); m_iPos = (int)iEnd; if (m_iSynFlags & noINFIXOP) Error(ecUNEXPECTED_OPERATOR, m_iPos, a_Tok.GetAsString()); m_iSynFlags = noPOSTOP | noINFIXOP | noOPT | noBC | noSTR | noASSIGN; return true; */ } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Check whether the token at a given position is a function token. * @param a_Tok [out] If a value token is found it will be placed here. * @throw ParserException if Syntaxflags do not allow a function at a_iPos * @return true if a function token has been found false otherwise. * @pre [assert] m_pParser!=0 */ bool QmuParserTokenReader::IsFunTok ( token_type &a_Tok ) { QString strTok; int iEnd = ExtractToken ( m_pParser->ValidNameChars(), strTok, m_iPos ); if ( iEnd == m_iPos ) { return false; } funmap_type::const_iterator item = m_pFunDef->find ( strTok ); if ( item == m_pFunDef->end() ) { return false; } // Check if the next sign is an opening bracket if ( m_strFormula.at ( iEnd ) != '(' ) { return false; } a_Tok.Set ( item->second, strTok ); m_iPos = iEnd; if ( m_iSynFlags & noFUN ) { Error ( ecUNEXPECTED_FUN, m_iPos - static_cast(a_Tok.GetAsString().length()), a_Tok.GetAsString() ); } m_iSynFlags = noANY ^ noBO; return true; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Check if a string position contains a binary operator. * @param a_Tok [out] Operator token if one is found. This can either be a binary operator or an infix operator token. * @return true if an operator token has been found. */ bool QmuParserTokenReader::IsOprt ( token_type &a_Tok ) { QString strTok; int iEnd = ExtractOperatorToken ( strTok, m_iPos ); if ( iEnd == m_iPos ) { return false; } // Check if the operator is a built in operator, if so ignore it here const QStringList pOprtDef = m_pParser->GetOprtDef(); QStringList::const_iterator constIterator; for ( constIterator = pOprtDef.constBegin(); m_pParser->HasBuiltInOprt() && constIterator != pOprtDef.constEnd(); ++constIterator ) { if ( ( *constIterator ) == strTok ) { return false; } } // Note: // All tokens in oprt_bin_maptype are have been sorted by their length // Long operators must come first! Otherwise short names (like: "add") that // are part of long token names (like: "add123") will be found instead // of the long ones. // Length sorting is done with ascending length so we use a reverse iterator here. auto it = m_pOprtDef->rbegin(); for ( ; it != m_pOprtDef->rend(); ++it ) { const QString &sID = it->first; if ( sID == m_strFormula.mid ( m_iPos, sID.length() ) ) { a_Tok.Set ( it->second, strTok ); // operator was found if ( m_iSynFlags & noOPT ) { // An operator was found but is not expected to occur at // this position of the formula, maybe it is an infix // operator, not a binary operator. Both operator types // can share characters in their identifiers. if ( IsInfixOpTok ( a_Tok ) ) { return true; } else { // nope, no infix operator return false; //Error(ecUNEXPECTED_OPERATOR, m_iPos, a_Tok.GetAsString()); } } m_iPos += sID.length(); m_iSynFlags = noBC | noOPT | noARG_SEP | noPOSTOP | noEND | noASSIGN; return true; } } return false; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Check if a string position contains a unary post value operator. */ bool QmuParserTokenReader::IsPostOpTok ( token_type &a_Tok ) { // Do not check for postfix operators if they are not allowed at // the current expression index. // // This will fix the bug reported here: // // http://sourceforge.net/tracker/index.php?func=detail&aid=3343891&group_id=137191&atid=737979 // if ( m_iSynFlags & noPOSTOP ) { return false; } // // Tricky problem with equations like "3m+5": // m is a postfix operator, + is a valid sign for postfix operators and // for binary operators parser detects "m+" as operator string and // finds no matching postfix operator. // // This is a special case so this routine slightly differs from the other // token readers. // Test if there could be a postfix operator QString sTok; int iEnd = ExtractToken ( m_pParser->ValidOprtChars(), sTok, m_iPos ); if ( iEnd == m_iPos ) { return false; } // iteraterate over all postfix operator strings auto it = m_pPostOprtDef->rbegin(); for ( ; it != m_pPostOprtDef->rend(); ++it ) { if ( sTok.indexOf ( it->first ) != 0 ) { continue; } a_Tok.Set ( it->second, sTok ); m_iPos += it->first.length(); m_iSynFlags = noVAL | noVAR | noFUN | noBO | noPOSTOP | noSTR | noASSIGN; return true; } return false; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Check whether the token at a given position is a value token. * * Value tokens are either values or constants. * * @param a_Tok [out] If a value token is found it will be placed here. * @return true if a value token has been found. */ bool QmuParserTokenReader::IsValTok ( token_type &a_Tok ) { assert ( m_pConstDef ); assert ( m_pParser ); QString strTok; qreal fVal ( 0 ); int iEnd ( 0 ); // 2.) Check for user defined constant // Read everything that could be a constant name iEnd = ExtractToken ( m_pParser->ValidNameChars(), strTok, m_iPos ); if ( iEnd != m_iPos ) { valmap_type::const_iterator item = m_pConstDef->find ( strTok ); if ( item != m_pConstDef->end() ) { m_iPos = iEnd; a_Tok.SetVal ( item->second, strTok ); if ( m_iSynFlags & noVAL ) { Error ( ecUNEXPECTED_VAL, m_iPos - strTok.length(), strTok ); } m_iSynFlags = noVAL | noVAR | noFUN | noBO | noINFIXOP | noSTR | noASSIGN; return true; } } // 3.call the value recognition functions provided by the user // Call user defined value recognition functions std::list::const_iterator item = m_vIdentFun.begin(); for ( item = m_vIdentFun.begin(); item != m_vIdentFun.end(); ++item ) { int iStart = m_iPos; if ( ( *item ) ( m_strFormula.mid ( m_iPos ), &m_iPos, &fVal ) == 1 ) { // 2013-11-27 Issue 2: https://code.google.com/p/muparser/issues/detail?id=2 strTok = m_strFormula.mid ( iStart, m_iPos-iStart ); if ( m_iSynFlags & noVAL ) { Error ( ecUNEXPECTED_VAL, m_iPos - strTok.length(), strTok ); } a_Tok.SetVal ( fVal, strTok ); m_iSynFlags = noVAL | noVAR | noFUN | noBO | noINFIXOP | noSTR | noASSIGN; return true; } } return false; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Check wheter a token at a given position is a variable token. * @param a_Tok [out] If a variable token has been found it will be placed here. * @return true if a variable token has been found. */ bool QmuParserTokenReader::IsVarTok ( token_type &a_Tok ) { if ( m_pVarDef->empty()) { return false; } QString strTok; int iEnd = ExtractToken ( m_pParser->ValidNameChars(), strTok, m_iPos ); if ( iEnd == m_iPos ) { return false; } varmap_type::const_iterator item = m_pVarDef->find ( strTok ); if ( item == m_pVarDef->end() ) { return false; } if ( m_iSynFlags & noVAR ) { Error ( ecUNEXPECTED_VAR, m_iPos, strTok ); } m_pParser->OnDetectVar ( m_strFormula, m_iPos, iEnd ); m_iPos = iEnd; a_Tok.SetVar ( item->second, strTok ); m_UsedVar[item->first] = item->second; // Add variable to used-var-list m_iSynFlags = noVAL | noVAR | noFUN | noBO | noINFIXOP | noSTR; // Zur Info hier die SynFlags von IsVal(): // m_iSynFlags = noVAL | noVAR | noFUN | noBO | noINFIXOP | noSTR | noASSIGN; return true; } //--------------------------------------------------------------------------------------------------------------------- bool QmuParserTokenReader::IsStrVarTok ( token_type &a_Tok ) { if ( m_pStrVarDef == false || m_pStrVarDef->empty() ) { return false; } QString strTok; int iEnd = ExtractToken ( m_pParser->ValidNameChars(), strTok, m_iPos ); if ( iEnd == m_iPos ) { return false; } strmap_type::const_iterator item = m_pStrVarDef->find ( strTok ); if ( item == m_pStrVarDef->end() ) { return false; } if ( m_iSynFlags & noSTR ) { Error ( ecUNEXPECTED_VAR, m_iPos, strTok ); } m_iPos = iEnd; if ( m_pParser->m_vStringVarBuf.size() == false) { Error ( ecINTERNAL_ERROR ); } a_Tok.SetString ( m_pParser->m_vStringVarBuf[item->second], m_pParser->m_vStringVarBuf.size() ); m_iSynFlags = noANY ^ ( noBC | noOPT | noEND | noARG_SEP ); return true; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Check wheter a token at a given position is an undefined variable. * * @param a_Tok [out] If a variable tom_pParser->m_vStringBufken has been found it will be placed here. * @return true if a variable token has been found. * @throw nothrow */ bool QmuParserTokenReader::IsUndefVarTok ( token_type &a_Tok ) { QString strTok; int iEnd ( ExtractToken ( m_pParser->ValidNameChars(), strTok, m_iPos ) ); if ( iEnd == m_iPos ) { return false; } if ( m_iSynFlags & noVAR ) { // 20061021 added token string strTok instead of a_Tok.GetAsString() as the // token identifier. // related bug report: // http://sourceforge.net/tracker/index.php?func=detail&aid=1578779&group_id=137191&atid=737979 Error ( ecUNEXPECTED_VAR, m_iPos - a_Tok.GetAsString().length(), strTok ); } // If a factory is available implicitely create new variables if ( m_pFactory ) { qreal *fVar = m_pFactory ( strTok, m_pFactoryData ); a_Tok.SetVar ( fVar, strTok ); // Do not use m_pParser->DefineVar( strTok, fVar ); // in order to define the new variable, it will clear the // m_UsedVar array which will kill previousely defined variables // from the list // This is safe because the new variable can never override an existing one // because they are checked first! ( *m_pVarDef ) [strTok] = fVar; m_UsedVar[strTok] = fVar; // Add variable to used-var-list } else { a_Tok.SetVar ( &m_fZero, strTok ); m_UsedVar[strTok] = 0; // Add variable to used-var-list } m_iPos = iEnd; // Call the variable factory in order to let it define a new parser variable m_iSynFlags = noVAL | noVAR | noFUN | noBO | noPOSTOP | noINFIXOP | noSTR; return true; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Check wheter a token at a given position is a string. * @param a_Tok [out] If a variable token has been found it will be placed here. * @return true if a string token has been found. * @sa IsOprt, IsFunTok, IsStrFunTok, IsValTok, IsVarTok, IsEOF, IsInfixOpTok, IsPostOpTok */ bool QmuParserTokenReader::IsString ( token_type &a_Tok ) { if ( m_strFormula[m_iPos] != '"' ) { return false; } QString strBuf (m_strFormula.mid(m_iPos + 1)); int iEnd ( 0 ), iSkip ( 0 ); // parser over escaped '\"' end replace them with '"' for ( iEnd = strBuf.indexOf ( "\"" ); iEnd != 0 && iEnd != -1; iEnd = strBuf.indexOf ( "\"", iEnd ) ) { if ( strBuf[iEnd - 1] != '\\' ) { break; } strBuf.replace ( iEnd - 1, 2, "\"" ); iSkip++; } if ( iEnd == -1 ) { Error ( ecUNTERMINATED_STRING, m_iPos, "\"" ); } QString strTok = strBuf.mid ( 0, iEnd ); if ( m_iSynFlags & noSTR ) { Error ( ecUNEXPECTED_STR, m_iPos, strTok ); } m_pParser->m_vStringBuf.push_back ( strTok ); // Store string in internal buffer a_Tok.SetString ( strTok, m_pParser->m_vStringBuf.size() ); m_iPos += strTok.length() + 2 + iSkip; // +2 wg Anfhrungszeichen; +iSkip fr entfernte escape zeichen m_iSynFlags = noANY ^ ( noARG_SEP | noBC | noOPT | noEND ); return true; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Create an error containing the parse error position. * * This function will create an Parser Exception object containing the error text and its position. * * @param a_iErrc [in] The error code of type #EErrorCodes. * @param a_iPos [in] The position where the error was detected. * @param a_strTok [in] The token string representation associated with the error. * @throw ParserException always throws thats the only purpose of this function. */ void Q_NORETURN QmuParserTokenReader::Error ( EErrorCodes a_iErrc, int a_iPos, const QString &a_sTok ) const { m_pParser->Error ( a_iErrc, a_iPos, a_sTok ); } } // namespace qmu