valentina_old/src/libs/qmuparser/qmuparserbase.h

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/***************************************************************************************************
**
** Copyright (C) 2013 Ingo Berg
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**
** 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 QMUQPARSERBASE_H
#define QMUQPARSERBASE_H
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#include "qmuparser_global.h"
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#include <QStack>
#include <QString>
#include <QStringList>
#include "qmuparserdef.h"
#include "qmuparsertokenreader.h"
#include "qmuparserbytecode.h"
namespace qmu
{
/**
* @file
* @brief This file contains the class definition of the qmuparser engine.
*/
/**
* @brief Mathematical expressions parser (base parser engine).
* @author (C) 2013 Ingo Berg
*
* This is the implementation of a bytecode based mathematical expressions parser.
* The formula will be parsed from string and converted into a bytecode.
* Future calculations will be done with the bytecode instead the formula string
* resulting in a significant performance increase.
* Complementary to a set of internally implemented functions the parser is able to handle
* user defined functions and variables.
*/
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class QMUPARSERSHARED_EXPORT QmuParserBase
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{
friend class QmuParserTokenReader;
public:
QmuParserBase();
QmuParserBase(const QmuParserBase &a_Parser);
QmuParserBase& operator=(const QmuParserBase &a_Parser);
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virtual ~QmuParserBase();
static void EnableDebugDump(bool bDumpCmd, bool bDumpStack);
qreal Eval() const;
qreal* Eval(int &nStackSize) const;
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void Eval(qreal *results, int nBulkSize) const;
int GetNumResults() const;
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void SetExpr(const QString &a_sExpr);
void SetVarFactory(facfun_type a_pFactory, void *pUserData = nullptr);
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void SetDecSep(char_type cDecSep);
void SetThousandsSep(char_type cThousandsSep = 0);
void ResetLocale();
void EnableOptimizer(bool a_bIsOn=true);
void EnableBuiltInOprt(bool a_bIsOn=true);
bool HasBuiltInOprt() const;
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void AddValIdent(identfun_type a_pCallback);
void DefineOprt(const QString &a_strName, fun_type2 a_pFun, unsigned a_iPri=0,
EOprtAssociativity a_eAssociativity = oaLEFT, bool a_bAllowOpt = false);
void DefineConst(const QString &a_sName, qreal a_fVal);
void DefineStrConst(const QString &a_sName, const QString &a_strVal);
void DefineVar(const QString &a_sName, qreal *a_fVar);
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void DefinePostfixOprt(const QString &a_strFun, fun_type1 a_pOprt, bool a_bAllowOpt=true);
void DefineInfixOprt(const QString &a_strName, fun_type1 a_pOprt, int a_iPrec=prINFIX,
bool a_bAllowOpt=true);
// Clear user defined variables, constants or functions
void ClearVar();
void ClearFun();
void ClearConst();
void ClearInfixOprt();
void ClearPostfixOprt();
void ClearOprt();
void RemoveVar(const QString &a_strVarName);
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const varmap_type& GetUsedVar() const;
const varmap_type& GetVar() const;
const valmap_type& GetConst() const;
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const QString& GetExpr() const;
const funmap_type& GetFunDef() const;
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static QString GetVersion(EParserVersionInfo eInfo = pviFULL);
static const QStringList& GetOprtDef();
QMap<int, QString> GetTokens() const;
QMap<int, QString> GetNumbers() const;
void DefineNameChars(const QString &a_szCharset);
void DefineOprtChars(const QString &a_szCharset);
void DefineInfixOprtChars(const QString &a_szCharset);
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const QString& ValidNameChars() const;
const QString& ValidOprtChars() const;
const QString& ValidInfixOprtChars() const;
void SetArgSep(char_type cArgSep);
QChar GetArgSep() const;
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void Q_NORETURN Error(EErrorCodes a_iErrc, int a_iPos = -1, const QString &a_strTok = QString() ) const;
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/**
* @fn void qmu::QmuParserBase::DefineFun(const string_type &a_strName, fun_type0 a_pFun,
* bool a_bAllowOpt = true)
* @brief Define a parser function without arguments.
* @param a_strName Name of the function
* @param a_pFun Pointer to the callback function
* @param a_bAllowOpt A flag indicating this function may be optimized
*/
template<typename T>
void DefineFun(const QString &a_strName, T a_pFun, bool a_bAllowOpt = true)
{
AddCallback( a_strName, QmuParserCallback(a_pFun, a_bAllowOpt), m_FunDef, ValidNameChars() );
}
void setAllowSubexpressions(bool value);
std::locale getLocale() const;
void setLocale(const std::locale &value);
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protected:
static const QStringList c_DefaultOprt;
std::locale s_locale; ///< The locale used by the parser
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static bool g_DbgDumpCmdCode;
static bool g_DbgDumpStack;
void Init();
virtual void InitCharSets() = 0;
virtual void InitFun() = 0;
virtual void InitConst() = 0;
virtual void InitOprt() = 0;
virtual void OnDetectVar(const QString &pExpr, int &nStart, int &nEnd);
/**
* @brief A facet class used to change decimal and thousands separator.
*/
template<class TChar>
class change_dec_sep : public std::numpunct<TChar>
{
public:
explicit change_dec_sep(char_type cDecSep, char_type cThousandsSep = 0, int nGroup = 3)
:std::numpunct<TChar>(), m_nGroup(nGroup), m_cDecPoint(cDecSep), m_cThousandsSep(cThousandsSep)
{}
protected:
virtual char_type do_decimal_point() const
{
return m_cDecPoint;
}
virtual char_type do_thousands_sep() const
{
return m_cThousandsSep;
}
virtual std::string do_grouping() const
{
// fix for issue 4: https://code.google.com/p/muparser/issues/detail?id=4
// courtesy of Jens Bartsch
// original code:
// return std::string(1, (char)m_nGroup);
// new code:
return std::string(1, static_cast<char>(m_cThousandsSep > 0 ? m_nGroup : CHAR_MAX));
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}
private:
int m_nGroup;
char_type m_cDecPoint;
char_type m_cThousandsSep;
};
private:
/**
* @brief Typedef for the parse functions.
*
* The parse function do the actual work. The parser exchanges
* the function pointer to the parser function depending on
* which state it is in. (i.e. bytecode parser vs. string parser)
*/
typedef qreal (QmuParserBase::*ParseFunction)() const;
/**
* @brief Type used for storing an array of values.
*/
typedef QVector<qreal> valbuf_type;
/**
* @brief Type for a vector of strings.
*/
typedef QVector<QString> stringbuf_type;
/**
* @brief Typedef for the token reader.
*/
typedef QmuParserTokenReader token_reader_type;
/**
* @brief Type used for parser tokens.
*/
typedef QmuParserToken<qreal, QString> token_type;
/**
* @brief Maximum number of threads spawned by OpenMP when using the bulk mode.
*/
static const int s_MaxNumOpenMPThreads = 4;
/**
* @brief Pointer to the parser function.
*
* Eval() calls the function whose address is stored there.
*/
mutable ParseFunction m_pParseFormula;
mutable QmuParserByteCode m_vRPN; ///< The Bytecode class.
mutable stringbuf_type m_vStringBuf; ///< String buffer, used for storing string function arguments
stringbuf_type m_vStringVarBuf;
std::unique_ptr<token_reader_type> m_pTokenReader; ///< Managed pointer to the token reader object.
funmap_type m_FunDef; ///< Map of function names and pointers.
funmap_type m_PostOprtDef; ///< Postfix operator callbacks
funmap_type m_InfixOprtDef; ///< unary infix operator.
funmap_type m_OprtDef; ///< Binary operator callbacks
valmap_type m_ConstDef; ///< user constants.
strmap_type m_StrVarDef; ///< user defined string constants
varmap_type m_VarDef; ///< user defind variables.
bool m_bBuiltInOp; ///< Flag that can be used for switching built in operators on and off
QString m_sNameChars; ///< Charset for names
QString m_sOprtChars; ///< Charset for postfix/ binary operator tokens
QString m_sInfixOprtChars; ///< Charset for infix operator tokens
mutable int m_nIfElseCounter; ///< Internal counter for keeping track of nested if-then-else clauses
// items merely used for caching state information
mutable valbuf_type m_vStackBuffer; ///< This is merely a buffer used for the stack in the cmd parsing routine
mutable int m_nFinalResultIdx;
mutable QMap<int, QString> m_Tokens;///< Keep all tokens that we can translate
mutable QMap<int, QString> m_Numbers;///< Keep all numbers what exist in formula
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bool allowSubexpressions;
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void Assign(const QmuParserBase &a_Parser);
void InitTokenReader();
void ReInit() const;
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void AddCallback(const QString &a_strName, const QmuParserCallback &a_Callback,
funmap_type &a_Storage, const QString &a_szCharSet );
void ApplyRemainingOprt(QStack<token_type> &a_stOpt, QStack<token_type> &a_stVal) const;
void ApplyBinOprt(QStack<token_type> &a_stOpt, QStack<token_type> &a_stVal) const;
void ApplyIfElse(QStack<token_type> &a_stOpt, QStack<token_type> &a_stVal) const;
void ApplyFunc(QStack<token_type> &a_stOpt, QStack<token_type> &a_stVal, int iArgCount) const;
token_type ApplyStrFunc(const token_type &a_FunTok, const QVector<token_type> &a_vArg) const;
int GetOprtPrecedence(const token_type &a_Tok) const;
EOprtAssociativity GetOprtAssociativity(const token_type &a_Tok) const;
void CreateRPN() const;
qreal ParseString() const;
qreal ParseCmdCode() const;
qreal ParseCmdCodeBulk(int nOffset, int nThreadID) const;
void CheckName(const QString &a_strName, const QString &a_CharSet) const;
void CheckOprt(const QString &a_sName, const QmuParserCallback &a_Callback,
const QString &a_szCharSet) const;
void StackDump(const QStack<token_type > &a_stVal, const QStack<token_type > &a_stOprt) const;
};
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Initialize the token reader.
*
* Create new token reader object and submit pointers to function, operator, constant and variable definitions.
*
* @post m_pTokenReader.get()!=0
*/
inline void QmuParserBase::InitTokenReader()
{
m_pTokenReader.reset(new token_reader_type(this));
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Add a value parsing function.
*
* When parsing an expression muParser tries to detect values in the expression string using different valident
* callbacks. Thuis it's possible to parse for hex values, binary values and floating point values.
*/
inline void QmuParserBase::AddValIdent(identfun_type a_pCallback)
{
m_pTokenReader->AddValIdent(a_pCallback);
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Get the default symbols used for the built in operators.
* @sa c_DefaultOprt
*/
inline const QStringList &QmuParserBase::GetOprtDef()
{
return c_DefaultOprt;
}
//---------------------------------------------------------------------------------------------------------------------
inline QMap<int, QString> QmuParserBase::GetTokens() const
{
return m_Tokens;
}
//---------------------------------------------------------------------------------------------------------------------
inline QMap<int, QString> QmuParserBase::GetNumbers() const
{
return m_Numbers;
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Define the set of valid characters to be used in names of functions, variables, constants.
*/
inline void QmuParserBase::DefineNameChars(const QString &a_szCharset)
{
m_sNameChars = a_szCharset;
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Define the set of valid characters to be used in names of binary operators and postfix operators.
*/
inline void QmuParserBase::DefineOprtChars(const QString &a_szCharset)
{
m_sOprtChars = a_szCharset;
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Define the set of valid characters to be used in names of infix operators.
*/
inline void QmuParserBase::DefineInfixOprtChars(const QString &a_szCharset)
{
m_sInfixOprtChars = a_szCharset;
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Return a map containing the used variables only.
*/
inline const varmap_type &QmuParserBase::GetVar() const
{
return m_VarDef;
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Return a map containing all parser constants.
*/
inline const valmap_type &QmuParserBase::GetConst() const
{
return m_ConstDef;
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Return prototypes of all parser functions.
* @return #m_FunDef
* @sa FunProt
* @throw nothrow
*
* The return type is a map of the public type #funmap_type containing the prototype definitions for all numerical
* parser functions. String functions are not part of this map. The Prototype definition is encapsulated in objects
* of the class FunProt one per parser function each associated with function names via a map construct.
*/
inline const funmap_type &QmuParserBase::GetFunDef() const
{
return m_FunDef;
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Retrieve the formula.
*/
inline const QString& QmuParserBase::GetExpr() const
{
return m_pTokenReader->GetExpr();
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Query status of built in variables.
* @return #m_bBuiltInOp; true if built in operators are enabled.
* @throw nothrow
*/
inline bool QmuParserBase::HasBuiltInOprt() const
{
return m_bBuiltInOp;
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Return the number of results on the calculation stack.
*
* If the expression contains comma seperated subexpressions (i.e. "sin(y), x+y"). There mey be more than one return
* value. This function returns the number of available results.
*/
// cppcheck-suppress unusedFunction
inline int QmuParserBase::GetNumResults() const
{
return m_nFinalResultIdx;
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Calculate the result.
*
* A note on const correctness:
* I consider it important that Calc is a const function.
* Due to caching operations Calc changes only the state of internal variables with one exception
* m_UsedVar this is reset during string parsing and accessible from the outside. Instead of making
* Calc non const GetUsedVar is non const because it explicitely calls Eval() forcing this update.
*
* @pre A formula must be set.
* @pre Variables must have been set (if needed)
*
* @sa #m_pParseFormula
* @return The evaluation result
* @throw ParseException if no Formula is set or in case of any other error related to the formula.
*/
inline qreal QmuParserBase::Eval() const
{
return (this->*m_pParseFormula)();
}
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} // namespace qmu
#endif