valentina_old/src/libs/qmuparser/qmuparsertoken.h
Roman Telezhynskyi 1726b55339 GCC warnings.
--HG--
branch : develop
2017-07-05 19:35:34 +03:00

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/***************************************************************************************************
**
** 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 QMUPARSERTOKEN_H
#define QMUPARSERTOKEN_H
#include <cassert>
#include <string>
#include <stack>
#include <memory>
#include <QtGlobal>
#include "qmuparsererror.h"
#include "qmuparsercallback.h"
/** @file
@brief This file contains the parser token definition.
*/
namespace qmu
{
/**
* @brief Encapsulation of the data for a single formula token.
*
* Formula token implementation. Part of the Math Parser Package.
* Formula tokens can be either one of the following:
* <ul>
* <li>value</li>
* <li>variable</li>
* <li>function with numerical arguments</li>
* <li>functions with a string as argument</li>
* <li>prefix operators</li>
* <li>infix operators</li>
* <li>binary operator</li>
* </ul>
*
* @author (C) 2004-2013 Ingo Berg
*/
template<typename TBase, typename TString>
class QmuParserToken
{
public:
//---------------------------------------------------------------------------
/**
* @brief Constructor (default).
*
* Sets token to an neutral state of type cmUNKNOWN.
* @throw nothrow
* @sa ECmdCode
*/
QmuParserToken()
: m_iCode ( cmUNKNOWN ), m_iType ( tpVOID ), m_pTok ( nullptr ), m_iIdx ( -1 ), m_strTok(), m_strVal(),
m_fVal(), m_pCallback()
{}
//------------------------------------------------------------------------------
/**
* @brief Create token from another one.
*
* Implemented by calling Assign(...)
* @throw nothrow
* @post m_iType==cmUNKNOWN
* @sa #Assign
*/
QmuParserToken ( const QmuParserToken &a_Tok )
: m_iCode ( a_Tok.m_iCode ), m_iType ( a_Tok.m_iType ), m_pTok ( a_Tok.m_pTok ), m_iIdx ( a_Tok.m_iIdx ),
m_strTok( a_Tok.m_strTok ), m_strVal(a_Tok.m_strVal), m_fVal(a_Tok.m_fVal), m_pCallback()
{
Assign ( a_Tok );
}
//------------------------------------------------------------------------------
/**
* @brief Assignement operator.
*
* Copy token state from another token and return this.
* Implemented by calling Assign(...).
* @throw nothrow
*/
QmuParserToken& operator= ( const QmuParserToken &a_Tok )
{
if ( &a_Tok == this )
{
return *this;
}
Assign ( a_Tok );
return *this;
}
//------------------------------------------------------------------------------
/**
* @brief Copy token information from argument.
*
* @throw nothrow
*/
void Assign ( const QmuParserToken &a_Tok )
{
m_iCode = a_Tok.m_iCode;
m_pTok = a_Tok.m_pTok;
m_strTok = a_Tok.m_strTok;
m_iIdx = a_Tok.m_iIdx;
m_strVal = a_Tok.m_strVal;
m_iType = a_Tok.m_iType;
m_fVal = a_Tok.m_fVal;
// create new callback object if a_Tok has one
m_pCallback.reset ( a_Tok.m_pCallback.get() ? a_Tok.m_pCallback->Clone() : nullptr );
}
//------------------------------------------------------------------------------
/**
* @brief Assign a token type.
*
* Token may not be of type value, variable or function. Those have seperate set functions.
*
* @pre [assert] a_iType!=cmVAR
* @pre [assert] a_iType!=cmVAL
* @pre [assert] a_iType!=cmFUNC
* @post m_fVal = 0
* @post m_pTok = 0
*/
QmuParserToken& Set ( ECmdCode a_iType, const TString &a_strTok = TString() )
{
// The following types cant be set this way, they have special Set functions
assert ( a_iType != cmVAR );
assert ( a_iType != cmVAL );
assert ( a_iType != cmFUNC );
m_iCode = a_iType;
m_iType = tpVOID;
m_pTok = nullptr;
m_strTok = a_strTok;
m_iIdx = -1;
return *this;
}
//------------------------------------------------------------------------------
/**
* @brief Set Callback type.
*/
QmuParserToken& Set ( const QmuParserCallback &a_pCallback, const TString &a_sTok )
{
assert ( a_pCallback.GetAddr() );
m_iCode = a_pCallback.GetCode();
m_iType = tpVOID;
m_strTok = a_sTok;
m_pCallback.reset ( new QmuParserCallback ( a_pCallback ) );
m_pTok = nullptr;
m_iIdx = -1;
return *this;
}
//------------------------------------------------------------------------------
/**
* @brief Make this token a value token.
*
* Member variables not necessary for value tokens will be invalidated.
* @throw nothrow
*/
QmuParserToken& SetVal ( TBase a_fVal, const TString &a_strTok = TString() )
{
m_iCode = cmVAL;
m_iType = tpDBL;
m_fVal = a_fVal;
m_strTok = a_strTok;
m_iIdx = -1;
m_pTok = nullptr;
m_pCallback.reset ( nullptr );
return *this;
}
//------------------------------------------------------------------------------
/**
* @brief make this token a variable token.
*
* Member variables not necessary for variable tokens will be invalidated.
* @throw nothrow
*/
QmuParserToken& SetVar ( TBase *a_pVar, const TString &a_strTok )
{
m_iCode = cmVAR;
m_iType = tpDBL;
m_strTok = a_strTok;
m_iIdx = -1;
m_pTok = reinterpret_cast<void*> ( a_pVar );
m_pCallback.reset ( nullptr );
return *this;
}
//------------------------------------------------------------------------------
/**
* @brief Make this token a variable token.
*
* Member variables not necessary for variable tokens will be invalidated.
* @throw nothrow
*/
QmuParserToken& SetString ( const TString &a_strTok, int a_iSize )
{
m_iCode = cmSTRING;
m_iType = tpSTR;
m_strTok = a_strTok;
m_iIdx = a_iSize;
m_pTok = nullptr;
m_pCallback.reset ( nullptr );
return *this;
}
//------------------------------------------------------------------------------
/**
* @brief Set an index associated with the token related data.
*
* In cmSTRFUNC - This is the index to a string table in the main parser.
* @param a_iIdx The index the string function result will take in the bytecode parser.
* @throw QmuParserError if #a_iIdx<0 or #m_iType!=cmSTRING
*/
void SetIdx ( int a_iIdx )
{
if ( m_iCode != cmSTRING || a_iIdx < 0 )
{
throw QmuParserError ( ecINTERNAL_ERROR );
}
m_iIdx = a_iIdx;
}
//------------------------------------------------------------------------------
/**
* @brief Return Index associated with the token related data.
*
* In cmSTRFUNC - This is the index to a string table in the main parser.
*
* @throw QmuParserError if #m_iIdx<0 or #m_iType!=cmSTRING
* @return The index the result will take in the Bytecode calculatin array (#m_iIdx).
*/
int GetIdx() const
{
if ( m_iIdx < 0 || m_iCode != cmSTRING )
{
throw QmuParserError ( ecINTERNAL_ERROR );
}
return m_iIdx;
}
//------------------------------------------------------------------------------
/**
* @brief Return the token type.
*
* @return #m_iType
* @throw nothrow
*/
ECmdCode GetCode() const
{
if ( m_pCallback.get() )
{
return m_pCallback->GetCode();
}
else
{
return m_iCode;
}
}
//------------------------------------------------------------------------------
ETypeCode GetType() const
{
if ( m_pCallback.get() )
{
return m_pCallback->GetType();
}
else
{
return m_iType;
}
}
//------------------------------------------------------------------------------
int GetPri() const
{
if ( m_pCallback.get() == nullptr)
{
throw QmuParserError ( ecINTERNAL_ERROR );
}
if ( m_pCallback->GetCode() != cmOPRT_BIN && m_pCallback->GetCode() != cmOPRT_INFIX )
{
throw QmuParserError ( ecINTERNAL_ERROR );
}
return m_pCallback->GetPri();
}
//------------------------------------------------------------------------------
EOprtAssociativity GetAssociativity() const
{
if ( m_pCallback.get() == nullptr || m_pCallback->GetCode() != cmOPRT_BIN )
{
throw QmuParserError ( ecINTERNAL_ERROR );
}
return m_pCallback->GetAssociativity();
}
//------------------------------------------------------------------------------
template < class FunctionPtr >
static FunctionPtr union_cast( void* objectPtr )
{
union
{
void* obj;
FunctionPtr func;
} var;
// cppcheck-suppress duplicateExpression
Q_STATIC_ASSERT_X(sizeof(void *) == sizeof(void (*)(void)),
"object pointer and function pointer sizes must equal");
var.obj = objectPtr;
return var.func;
}
//------------------------------------------------------------------------------
/**
* @brief Return the address of the callback function assoziated with function and operator tokens.
*
* @return The pointer stored in #m_pTok.
* @throw QmuParserError if token type is non of:
* <ul>
* <li>cmFUNC</li>
* <li>cmSTRFUNC</li>
* <li>cmPOSTOP</li>
* <li>cmINFIXOP</li>
* <li>cmOPRT_BIN</li>
* </ul>
* @sa ECmdCode
*/
generic_fun_type GetFuncAddr() const
{
return ( union_cast<generic_fun_type>( m_pCallback.get() ) ) ?
union_cast<generic_fun_type>( m_pCallback->GetAddr() ) : union_cast<generic_fun_type>(nullptr);
}
//------------------------------------------------------------------------------
/**
* @brief Get value of the token.
*
* Only applicable to variable and value tokens.
* @throw QmuParserError if token is no value/variable token.
*/
TBase GetVal() const
{
switch ( m_iCode )
{
case cmVAL:
return m_fVal;
case cmVAR:
return * ( reinterpret_cast<TBase*>(m_pTok) );
case cmLE:
case cmGE:
case cmNEQ:
case cmEQ:
case cmLT:
case cmGT:
case cmADD:
case cmSUB:
case cmMUL:
case cmDIV:
case cmPOW:
case cmLAND:
case cmLOR:
case cmASSIGN:
case cmBO:
case cmBC:
case cmIF:
case cmELSE:
case cmENDIF:
case cmARG_SEP:
case cmVARPOW2:
case cmVARPOW3:
case cmVARPOW4:
case cmVARMUL:
case cmPOW2:
case cmFUNC:
case cmFUNC_STR:
case cmFUNC_BULK:
case cmOPRT_BIN:
case cmOPRT_POSTFIX:
case cmOPRT_INFIX:
case cmEND:
case cmUNKNOWN:
case cmSTRING:
default:
throw QmuParserError ( ecVAL_EXPECTED );
}
}
//------------------------------------------------------------------------------
/**
* @brief Get address of a variable token.
*
* Valid only if m_iType==CmdVar.
* @throw QmuParserError if token is no variable token.
*/
TBase* GetVar() const
{
if ( m_iCode != cmVAR )
{
throw QmuParserError ( ecINTERNAL_ERROR );
}
return reinterpret_cast<TBase*>( m_pTok );
}
//------------------------------------------------------------------------------
/**
* @brief Return the number of function arguments.
*
* Valid only if m_iType==CmdFUNC.
*/
int GetArgCount() const
{
assert ( m_pCallback.get() );
if ( m_pCallback->GetAddr() == nullptr)
{
throw QmuParserError ( ecINTERNAL_ERROR );
}
return m_pCallback->GetArgc();
}
//------------------------------------------------------------------------------
/**
* @brief Return the token identifier.
*
* If #m_iType is cmSTRING the token identifier is the value of the string argument
* for a string function.
* @return #m_strTok
* @throw nothrow
* @sa m_strTok
*/
const TString& GetAsString() const
{
return m_strTok;
}
private:
ECmdCode m_iCode; ///< Type of the token; The token type is a constant of type #ECmdCode.
ETypeCode m_iType;
void *m_pTok; ///< Stores Token pointer; not applicable for all tokens
int m_iIdx; ///< An otional index to an external buffer storing the token data
TString m_strTok; ///< Token string
TString m_strVal; ///< Value for string variables
qreal m_fVal; ///< the value
std::unique_ptr<QmuParserCallback> m_pCallback;
};
} // namespace qmu
#endif