/*************************************************************************************************** ** ** Copyright (C) 2013 Ingo Berg ** ** 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. ** ******************************************************************************************************/ #ifndef QMUPARSERCALLBACK_H #define QMUPARSERCALLBACK_H #include #include #include #include "qmuparserdef.h" /** * @file * @brief Definition of the parser callback class. */ namespace qmu { /** * @brief Encapsulation of prototypes for a numerical parser function. * * Encapsulates the prototyp for numerical parser functions. The class stores the number of arguments for parser * functions as well as additional flags indication the function is non optimizeable. The pointer to the callback * function pointer is stored as void* and needs to be casted according to the argument count. Negative argument counts * indicate a parser function with a variable number of arguments. * * @author (C) 2004-2011 Ingo Berg */ class QmuParserCallback { public: QmuParserCallback(fun_type0 a_pFun, bool a_bAllowOpti); QmuParserCallback(fun_type1 a_pFun, bool a_bAllowOpti, int a_iPrec = -1, ECmdCode a_iCode=cmFUNC); QmuParserCallback(fun_type2 a_pFun, bool a_bAllowOpti, int a_iPrec, EOprtAssociativity a_eOprtAsct); QmuParserCallback(fun_type2 a_pFun, bool a_bAllowOpti); QmuParserCallback(fun_type3 a_pFun, bool a_bAllowOpti); QmuParserCallback(fun_type4 a_pFun, bool a_bAllowOpti); QmuParserCallback(fun_type5 a_pFun, bool a_bAllowOpti); QmuParserCallback(fun_type6 a_pFun, bool a_bAllowOpti); QmuParserCallback(fun_type7 a_pFun, bool a_bAllowOpti); QmuParserCallback(fun_type8 a_pFun, bool a_bAllowOpti); QmuParserCallback(fun_type9 a_pFun, bool a_bAllowOpti); QmuParserCallback(fun_type10 a_pFun, bool a_bAllowOpti); QmuParserCallback(bulkfun_type0 a_pFun, bool a_bAllowOpti); QmuParserCallback(bulkfun_type1 a_pFun, bool a_bAllowOpti); QmuParserCallback(bulkfun_type2 a_pFun, bool a_bAllowOpti); QmuParserCallback(bulkfun_type3 a_pFun, bool a_bAllowOpti); QmuParserCallback(bulkfun_type4 a_pFun, bool a_bAllowOpti); QmuParserCallback(bulkfun_type5 a_pFun, bool a_bAllowOpti); QmuParserCallback(bulkfun_type6 a_pFun, bool a_bAllowOpti); QmuParserCallback(bulkfun_type7 a_pFun, bool a_bAllowOpti); QmuParserCallback(bulkfun_type8 a_pFun, bool a_bAllowOpti); QmuParserCallback(bulkfun_type9 a_pFun, bool a_bAllowOpti); QmuParserCallback(bulkfun_type10 a_pFun, bool a_bAllowOpti); QmuParserCallback(multfun_type a_pFun, bool a_bAllowOpti); QmuParserCallback(strfun_type1 a_pFun, bool a_bAllowOpti); QmuParserCallback(strfun_type2 a_pFun, bool a_bAllowOpti); QmuParserCallback(strfun_type3 a_pFun, bool a_bAllowOpti); QmuParserCallback(); QmuParserCallback(const QmuParserCallback &a_Fun); QmuParserCallback &operator=(const QmuParserCallback &a_Fun); Q_REQUIRED_RESULT QmuParserCallback* Clone() const; bool IsOptimizable() const; void* GetAddr() const; ECmdCode GetCode() const; ETypeCode GetType() const; int GetPri() const; EOprtAssociativity GetAssociativity() const; int GetArgc() const; private: void *m_pFun; ///< Pointer to the callback function, casted to void /** * @brief Number of numeric function arguments * * This number is negative for functions with variable number of arguments. in this cases * they represent the actual number of arguments found. */ int m_iArgc; int m_iPri; ///< Valid only for binary and infix operators; Operator precedence. EOprtAssociativity m_eOprtAsct; ///< Operator associativity; Valid only for binary operators ECmdCode m_iCode; ETypeCode m_iType; bool m_bAllowOpti; ///< Flag indication optimizeability }; //--------------------------------------------------------------------------------------------------------------------- /** * @brief Container for Callback objects. */ typedef std::map funmap_type; //--------------------------------------------------------------------------------------------------------------------- /** * @brief Clone this instance and return a pointer to the new instance. */ inline QmuParserCallback* QmuParserCallback::Clone() const { return new QmuParserCallback ( *this ); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Return true if the function is conservative. * * Conservative functions return always the same result for the same argument. * @throw nothrow */ // cppcheck-suppress unusedFunction inline bool QmuParserCallback::IsOptimizable() const { return m_bAllowOpti; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Get the callback address for the parser function. * * The type of the address is void. It needs to be recasted according to the argument number to the right type. * * @throw nothrow * @return #pFun */ inline void* QmuParserCallback::GetAddr() const { return m_pFun; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Return the callback code. */ inline ECmdCode QmuParserCallback::GetCode() const { return m_iCode; } //--------------------------------------------------------------------------------------------------------------------- inline ETypeCode QmuParserCallback::GetType() const { return m_iType; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Return the operator precedence. * @throw nothrown * * Only valid if the callback token is an operator token (binary or infix). */ inline int QmuParserCallback::GetPri() const { return m_iPri; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Return the operators associativity. * @throw nothrown * * Only valid if the callback token is a binary operator token. */ inline EOprtAssociativity QmuParserCallback::GetAssociativity() const { return m_eOprtAsct; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Returns the number of function Arguments. */ inline int QmuParserCallback::GetArgc() const { return m_iArgc; } } // namespace qmu #endif