libraries/muparser/src/muParserDLL.cpp

/*



	 _____  __ _____________ _______  ______ ___________

	/     \|  |  \____ \__  \\_  __ \/  ___// __ \_  __ \

   |  Y Y  \  |  /  |_> > __ \|  | \/\___ \\  ___/|  | \/

   |__|_|  /____/|   __(____  /__|  /____  >\___  >__|

		 \/      |__|       \/           \/     \/

   Copyright (C) 2004 - 2022 Ingo Berg



	Redistribution and use in source and binary forms, with or without modification, are permitted

	provided that the following conditions are met:



	  * Redistributions of source code must retain the above copyright notice, this list of

		conditions and the following disclaimer.

	  * Redistributions in binary form must reproduce the above copyright notice, this list of

		conditions and the following disclaimer in the documentation and/or other materials provided

		with the distribution.



	THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR

	IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND

	FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR

	CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL

	DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,

	DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER

	IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT

	OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

*/

#if defined(MUPARSER_DLL) 

#if defined(_WIN32)
	#define WIN32_LEAN_AND_MEAN
	#define _CRT_SECURE_NO_WARNINGS
	#define _CRT_SECURE_NO_DEPRECATE

	#include <windows.h>
#endif

#include <cassert>

#include "muParserDLL.h"
#include "muParser.h"
#include "muParserInt.h"
#include "muParserError.h"

#if _UNICODE
	#include <wchar.h>
#endif

#if defined(_MSC_VER)
	#pragma warning(push)
	#pragma warning(disable : 26812) 
#endif

#define MU_TRY  \
		try		\
        {

#define MU_CATCH							                       \
        }								                           \
        catch (muError_t &e)		                               \
        {						                                   \
	        ParserTag *pTag = static_cast<ParserTag*>(a_hParser);  \
			pTag->exc = e;                                         \
			pTag->bError = true;                                   \
			if (pTag->errHandler)                                  \
				(pTag->errHandler)(a_hParser);                     \
        }					                                       \
        catch (...)		                                           \
        {		                                                   \
	        ParserTag *pTag = static_cast<ParserTag*>(a_hParser);  \
	        pTag->exc = muError_t(mu::ecINTERNAL_ERROR);           \
	        pTag->bError = true;                                   \
			if (pTag->errHandler)                                  \
				(pTag->errHandler)(a_hParser);                     \
        }

/** \file

	\brief This file contains the implementation of the DLL interface of muparser.

*/

typedef mu::ParserBase::exception_type muError_t;
typedef mu::ParserBase muParser_t;
int g_nBulkSize;


class ParserTag
{
public:
	ParserTag(int nType)
		: pParser((nType == muBASETYPE_FLOAT)
			? (mu::ParserBase*)new mu::Parser()
			: (nType == muBASETYPE_INT) ? (mu::ParserBase*)new mu::ParserInt() : nullptr)
		, exc()
		, errHandler(nullptr)
		, bError(false)
		, m_nParserType(nType)
	{}

	~ParserTag()
	{
		delete pParser;
	}

	mu::ParserBase* pParser;
	mu::ParserBase::exception_type exc;
	muErrorHandler_t errHandler;
	bool bError;

private:
	ParserTag(const ParserTag& ref);
	ParserTag& operator=(const ParserTag& ref);

	int m_nParserType;
};

static muChar_t s_tmpOutBuf[2048];

template <typename T>
constexpr std::size_t count_of(const T& array) 

{
	return (sizeof(array) / sizeof(array[0]));
}

//---------------------------------------------------------------------------
//
//
//  unexported functions
//
//
//---------------------------------------------------------------------------


inline muParser_t* AsParser(muParserHandle_t a_hParser)

{
	return static_cast<ParserTag*>(a_hParser)->pParser;
}


inline ParserTag* AsParserTag(muParserHandle_t a_hParser)

{
	return static_cast<ParserTag*>(a_hParser);
}


#if defined(_WIN32)

BOOL APIENTRY DllMain(HANDLE /*hModule*/, DWORD ul_reason_for_call, LPVOID /*lpReserved*/)

{
	switch (ul_reason_for_call)
	{
	case  DLL_PROCESS_ATTACH:
		break;

	case  DLL_THREAD_ATTACH:
	case  DLL_THREAD_DETACH:
	case  DLL_PROCESS_DETACH:
		break;
	}

	return TRUE;
}

#endif

//---------------------------------------------------------------------------
//
//
//  exported functions
//
//
//---------------------------------------------------------------------------

API_EXPORT(void) mupSetVarFactory(muParserHandle_t a_hParser, muFacFun_t a_pFactory, void* pUserData)
{
	MU_TRY

		muParser_t* p(AsParser(a_hParser));
		p->SetVarFactory(a_pFactory, pUserData);
	MU_CATCH
}


/** \brief Create a new Parser instance and return its handle. */
API_EXPORT(muParserHandle_t) mupCreate(int nBaseType)
{
	switch (nBaseType)
	{
	case  muBASETYPE_FLOAT:   return (void*)(new ParserTag(muBASETYPE_FLOAT));
	case  muBASETYPE_INT:     return (void*)(new ParserTag(muBASETYPE_INT));
	default:                  return nullptr;
	}
}


/** \brief Release the parser instance related with a parser handle. */
API_EXPORT(void) mupRelease(muParserHandle_t a_hParser)
{
	MU_TRY
		ParserTag* p = static_cast<ParserTag*>(a_hParser);
		delete p;
	MU_CATCH
}


API_EXPORT(const muChar_t*) mupGetVersion(muParserHandle_t a_hParser)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));

#ifndef _UNICODE
		snprintf(s_tmpOutBuf, count_of(s_tmpOutBuf), "%s", p->GetVersion().c_str());
#else
		swprintf(s_tmpOutBuf, count_of(s_tmpOutBuf), _T("%s"), p->GetVersion().c_str());
#endif

		return s_tmpOutBuf;
	MU_CATCH
	return _T("");
}


/** \brief Evaluate the expression. */
API_EXPORT(muFloat_t) mupEval(muParserHandle_t a_hParser)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		return p->Eval();
	MU_CATCH
	return 0;
}


API_EXPORT(muFloat_t*) mupEvalMulti(muParserHandle_t a_hParser, int* nNum)
{
	MU_TRY

		if (nNum == nullptr)

			throw std::runtime_error("Argument is null!"); 

		muParser_t* const p(AsParser(a_hParser));
		return p->Eval(*nNum);
	MU_CATCH
	return 0;
}


API_EXPORT(void) mupEvalBulk(muParserHandle_t a_hParser, muFloat_t* a_res, int nSize)
{
	MU_TRY

		muParser_t* p(AsParser(a_hParser));
		p->Eval(a_res, nSize);
	MU_CATCH
}


API_EXPORT(void) mupSetExpr(muParserHandle_t a_hParser, const muChar_t* a_szExpr)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->SetExpr(a_szExpr);
	MU_CATCH
}


API_EXPORT(void) mupRemoveVar(muParserHandle_t a_hParser, const muChar_t* a_szName)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->RemoveVar(a_szName);
	MU_CATCH
}


/** \brief Release all parser variables.

	\param a_hParser Handle to the parser instance.

*/
API_EXPORT(void) mupClearVar(muParserHandle_t a_hParser)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->ClearVar();
	MU_CATCH
}


/** \brief Release all parser variables.

	\param a_hParser Handle to the parser instance.

*/
API_EXPORT(void) mupClearConst(muParserHandle_t a_hParser)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->ClearConst();
	MU_CATCH
}


/** \brief Clear all user defined operators.

	\param a_hParser Handle to the parser instance.

*/
API_EXPORT(void) mupClearOprt(muParserHandle_t a_hParser)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->ClearOprt();
	MU_CATCH
}


API_EXPORT(void) mupClearFun(muParserHandle_t a_hParser)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->ClearFun();
	MU_CATCH
}


API_EXPORT(void) mupDefineFun0(muParserHandle_t a_hParser,
	const muChar_t* a_szName,
	muFun0_t a_pFun,
	muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFun1(muParserHandle_t a_hParser,	const muChar_t* a_szName, muFun1_t a_pFun, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFun2(muParserHandle_t a_hParser, const muChar_t* a_szName, muFun2_t a_pFun, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFun3(muParserHandle_t a_hParser, const muChar_t* a_szName, muFun3_t a_pFun, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFun4(muParserHandle_t a_hParser, const muChar_t* a_szName, muFun4_t a_pFun, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFun5(muParserHandle_t a_hParser, const muChar_t* a_szName, muFun5_t a_pFun, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFun6(muParserHandle_t a_hParser, const muChar_t* a_szName, muFun6_t a_pFun, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFun7(muParserHandle_t a_hParser, const muChar_t* a_szName, muFun7_t a_pFun, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFun8(muParserHandle_t a_hParser, const muChar_t* a_szName, muFun8_t a_pFun, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFun9(muParserHandle_t a_hParser, const muChar_t* a_szName, muFun9_t a_pFun, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFun10(muParserHandle_t a_hParser, const muChar_t* a_szName, muFun10_t a_pFun, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFunUserData0(muParserHandle_t a_hParser, const muChar_t* a_szName, muFunUserData0_t a_pFun, void* a_pUserData, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFunUserData1(muParserHandle_t a_hParser,	const muChar_t* a_szName, muFunUserData1_t a_pFun, void* a_pUserData, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFunUserData2(muParserHandle_t a_hParser, const muChar_t* a_szName, muFunUserData2_t a_pFun, void* a_pUserData, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFunUserData3(muParserHandle_t a_hParser, const muChar_t* a_szName, muFunUserData3_t a_pFun, void* a_pUserData, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFunUserData4(muParserHandle_t a_hParser, const muChar_t* a_szName, muFunUserData4_t a_pFun, void* a_pUserData, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFunUserData5(muParserHandle_t a_hParser, const muChar_t* a_szName, muFunUserData5_t a_pFun, void* a_pUserData, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFunUserData6(muParserHandle_t a_hParser, const muChar_t* a_szName, muFunUserData6_t a_pFun, void* a_pUserData, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFunUserData7(muParserHandle_t a_hParser, const muChar_t* a_szName, muFunUserData7_t a_pFun, void* a_pUserData, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFunUserData8(muParserHandle_t a_hParser, const muChar_t* a_szName, muFunUserData8_t a_pFun, void* a_pUserData, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFunUserData9(muParserHandle_t a_hParser, const muChar_t* a_szName, muFunUserData9_t a_pFun, void* a_pUserData, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineFunUserData10(muParserHandle_t a_hParser, const muChar_t* a_szName, muFunUserData10_t a_pFun, void* a_pUserData, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFun0(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFun0_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFun1(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFun1_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFun2(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFun2_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFun3(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFun3_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFun4(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFun4_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFun5(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFun5_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFun6(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFun6_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFun7(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFun7_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFun8(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFun8_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFun9(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFun9_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFun10(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFun10_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFunUserData0(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFunUserData0_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFunUserData1(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFunUserData1_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFunUserData2(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFunUserData2_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFunUserData3(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFunUserData3_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFunUserData4(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFunUserData4_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFunUserData5(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFunUserData5_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFunUserData6(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFunUserData6_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFunUserData7(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFunUserData7_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFunUserData8(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFunUserData8_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFunUserData9(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFunUserData9_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkFunUserData10(muParserHandle_t a_hParser, const muChar_t* a_szName, muBulkFunUserData10_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineStrFun1(muParserHandle_t a_hParser, const muChar_t* a_szName, muStrFun1_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineStrFun2(muParserHandle_t a_hParser, const muChar_t* a_szName, muStrFun2_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineStrFun3(muParserHandle_t a_hParser, const muChar_t* a_szName, muStrFun3_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineStrFun4(muParserHandle_t a_hParser, const muChar_t* a_szName, muStrFun4_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineStrFun5(muParserHandle_t a_hParser, const muChar_t* a_szName, muStrFun5_t a_pFun)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineStrFunUserData1(muParserHandle_t a_hParser, const muChar_t* a_szName, muStrFunUserData1_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineStrFunUserData2(muParserHandle_t a_hParser, const muChar_t* a_szName, muStrFunUserData2_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineStrFunUserData3(muParserHandle_t a_hParser, const muChar_t* a_szName, muStrFunUserData3_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineStrFunUserData4(muParserHandle_t a_hParser, const muChar_t* a_szName, muStrFunUserData4_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineStrFunUserData5(muParserHandle_t a_hParser, const muChar_t* a_szName, muStrFunUserData5_t a_pFun, void* a_pUserData)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, false);
	MU_CATCH
}


API_EXPORT(void) mupDefineMultFun(muParserHandle_t a_hParser, const muChar_t* a_szName, muMultFun_t a_pFun,	muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFun(a_szName, a_pFun, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineMultFunUserData(muParserHandle_t a_hParser, const muChar_t* a_szName, muMultFunUserData_t a_pFun, void* a_pUserData, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineFunUserData(a_szName, a_pFun, a_pUserData, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineOprt(muParserHandle_t a_hParser, const muChar_t* a_szName, muFun2_t a_pFun, muInt_t a_nPrec, muInt_t a_nOprtAsct, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineOprt(a_szName, a_pFun,	a_nPrec, (mu::EOprtAssociativity)a_nOprtAsct, a_bAllowOpt != 0);
	MU_CATCH
}


API_EXPORT(void) mupDefineVar(muParserHandle_t a_hParser, const muChar_t* a_szName,	muFloat_t* a_pVar)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineVar(a_szName, a_pVar);
	MU_CATCH
}


API_EXPORT(void) mupDefineBulkVar(muParserHandle_t a_hParser, const muChar_t* a_szName,	muFloat_t* a_pVar)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineVar(a_szName, a_pVar);
	MU_CATCH
}


API_EXPORT(void) mupDefineConst(muParserHandle_t a_hParser,	const muChar_t* a_szName, muFloat_t a_fVal)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineConst(a_szName, a_fVal);
	MU_CATCH
}


API_EXPORT(void) mupDefineStrConst(muParserHandle_t a_hParser, const muChar_t* a_szName, const muChar_t* a_szVal)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineStrConst(a_szName, a_szVal);
	MU_CATCH
}


API_EXPORT(const muChar_t*) mupGetExpr(muParserHandle_t a_hParser)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));

		// C# explodes when pMsg is returned directly. For some reason it can't access
		// the memory where the message lies directly.
#ifndef _UNICODE
		snprintf(s_tmpOutBuf, count_of(s_tmpOutBuf), "%s", p->GetExpr().c_str());
#else
		swprintf(s_tmpOutBuf, count_of(s_tmpOutBuf), _T("%s"), p->GetExpr().c_str());
#endif

		return s_tmpOutBuf;
	MU_CATCH

	return _T("");
}


API_EXPORT(void) mupDefinePostfixOprt(muParserHandle_t a_hParser, const muChar_t* a_szName, muFun1_t a_pOprt, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefinePostfixOprt(a_szName, a_pOprt, a_bAllowOpt != 0);
	MU_CATCH
}

// Signature changed to fix #125 (https://github.com/beltoforion/muparser/issues/125)
API_EXPORT(void) mupDefineInfixOprt(muParserHandle_t a_hParser, const muChar_t* a_szName, muFun1_t a_pOprt, int a_iPrec, muBool_t a_bAllowOpt)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->DefineInfixOprt(a_szName, a_pOprt, a_iPrec, a_bAllowOpt != 0);
	MU_CATCH
}

// Define character sets for identifiers
API_EXPORT(void) mupDefineNameChars(muParserHandle_t a_hParser, const muChar_t* a_szCharset)
{
	muParser_t* const p(AsParser(a_hParser));
	p->DefineNameChars(a_szCharset);
}


API_EXPORT(void) mupDefineOprtChars(muParserHandle_t a_hParser,	const muChar_t* a_szCharset)
{
	muParser_t* const p(AsParser(a_hParser));
	p->DefineOprtChars(a_szCharset);
}


API_EXPORT(void) mupDefineInfixOprtChars(muParserHandle_t a_hParser, const muChar_t* a_szCharset)
{
	muParser_t* const p(AsParser(a_hParser));
	p->DefineInfixOprtChars(a_szCharset);
}


/** \brief Get the number of variables defined in the parser.

	\param a_hParser [in] Must be a valid parser handle.

	\return The number of used variables.

	\sa mupGetExprVar

*/
API_EXPORT(int) mupGetVarNum(muParserHandle_t a_hParser)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		const mu::varmap_type VarMap = p->GetVar();
		return (int)VarMap.size();
	MU_CATCH

	return 0; // never reached
}


/** \brief Return a variable that is used in an expression.

	\param a_hParser [in] A valid parser handle.

	\param a_iVar [in] The index of the variable to return.

	\param a_szName [out] Pointer to the variable name.

	\param a_pVar [out] Pointer to the variable.

	\throw nothrow



	Prior to calling this function call mupGetExprVarNum in order to get the

	number of variables in the expression. If the parameter a_iVar is greater

	than the number of variables both a_szName and a_pVar will be set to zero.

	As a side effect this function will trigger an internal calculation of the

	expression undefined variables will be set to zero during this calculation.

	During the calculation user defined callback functions present in the expression

	will be called, this is unavoidable.

*/
API_EXPORT(void) mupGetVar(muParserHandle_t a_hParser, unsigned a_iVar, const muChar_t** a_szName, muFloat_t** a_pVar)
{
	// A static buffer is needed for the name since i can't return the
	// pointer from the map.
	static muChar_t  szName[1024];

	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		const mu::varmap_type VarMap = p->GetVar();

		if (a_iVar >= VarMap.size())
		{
			*a_szName = 0;
			*a_pVar = 0;
			return;
		}
		mu::varmap_type::const_iterator item;

		item = VarMap.begin();
		for (unsigned i = 0; i < a_iVar; ++i)
			++item;

#ifndef _UNICODE
		strncpy(szName, item->first.c_str(), count_of(szName));
#else
		wcsncpy(szName, item->first.c_str(), count_of(szName));
#endif

		szName[count_of(szName) - 1] = 0;

		*a_szName = &szName[0];
		*a_pVar = item->second;
		return;
	MU_CATCH

	* a_szName = 0;
	*a_pVar = 0;
}


/** \brief Get the number of variables used in the expression currently set in the parser.

	\param a_hParser [in] Must be a valid parser handle.

	\return The number of used variables.

	\sa mupGetExprVar

	*/
API_EXPORT(int) mupGetExprVarNum(muParserHandle_t a_hParser)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		const mu::varmap_type VarMap = p->GetUsedVar();
		return (int)VarMap.size();
	MU_CATCH

	return 0; // never reached
}


/** \brief Return a variable that is used in an expression.



	Prior to calling this function call mupGetExprVarNum in order to get the

	number of variables in the expression. If the parameter a_iVar is greater

	than the number of variables both a_szName and a_pVar will be set to zero.

	As a side effect this function will trigger an internal calculation of the

	expression undefined variables will be set to zero during this calculation.

	During the calculation user defined callback functions present in the expression

	will be called, this is unavoidable.



	\param a_hParser [in] A valid parser handle.

	\param a_iVar [in] The index of the variable to return.

	\param a_szName [out] Pointer to the variable name.

	\param a_pVar [out] Pointer to the variable.

	\throw nothrow

*/
API_EXPORT(void) mupGetExprVar(muParserHandle_t a_hParser, unsigned a_iVar, const muChar_t** a_szName, muFloat_t** a_pVar)
{
	// A static buffer is needed for the name since i can't return the
	// pointer from the map.
	static muChar_t  szName[1024];

	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		const mu::varmap_type VarMap = p->GetUsedVar();

		if (a_iVar >= VarMap.size())
		{
			*a_szName = 0;
			*a_pVar = 0;
			return;
		}
		mu::varmap_type::const_iterator item;

		item = VarMap.begin();
		for (unsigned i = 0; i < a_iVar; ++i)
			++item;

#ifndef _UNICODE
		strncpy(szName, item->first.c_str(), count_of(szName));
#else
		wcsncpy(szName, item->first.c_str(), count_of(szName));
#endif

		szName[count_of(szName) - 1] = 0;

		*a_szName = &szName[0];
		*a_pVar = item->second;
		return;
	MU_CATCH

	* a_szName = 0;
	*a_pVar = 0;
}


/** \brief Return the number of constants defined in a parser. */
API_EXPORT(int) mupGetConstNum(muParserHandle_t a_hParser)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		const mu::valmap_type ValMap = p->GetConst();
		return (int)ValMap.size();
	MU_CATCH

	return 0; // never reached
}


API_EXPORT(void) mupSetArgSep(muParserHandle_t a_hParser, const muChar_t cArgSep)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->SetArgSep(cArgSep);
	MU_CATCH
}


API_EXPORT(void) mupResetLocale(muParserHandle_t a_hParser)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->ResetLocale();
	MU_CATCH
}


API_EXPORT(void) mupSetDecSep(muParserHandle_t a_hParser, const muChar_t cDecSep)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
	p->SetDecSep(cDecSep);
	MU_CATCH
}


API_EXPORT(void) mupSetThousandsSep(muParserHandle_t a_hParser, const muChar_t cThousandsSep)
{
	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		p->SetThousandsSep(cThousandsSep);
	MU_CATCH
}

//---------------------------------------------------------------------------
/** \brief Retrieve name and value of a single parser constant.

	\param a_hParser [in] a valid parser handle

	\param a_iVar [in] Index of the constant to query

	\param a_pszName [out] pointer to a null terminated string with the constant name

	\param [out] The constant value

	*/
API_EXPORT(void) mupGetConst(muParserHandle_t a_hParser, unsigned a_iVar, const muChar_t** a_pszName, muFloat_t* a_fVal)
{
	// A static buffer is needed for the name since i can't return the
	// pointer from the map.
	static muChar_t szName[1024];

	MU_TRY

		muParser_t* const p(AsParser(a_hParser));
		const mu::valmap_type ValMap = p->GetConst();

		if (a_iVar >= ValMap.size())
		{
			*a_pszName = 0;
			*a_fVal = 0;
			return;
		}

		mu::valmap_type::const_iterator item;
		item = ValMap.begin();
		for (unsigned i = 0; i < a_iVar; ++i)
			++item;

#ifndef _UNICODE
		strncpy(szName, item->first.c_str(), count_of(szName));
#else
		wcsncpy(szName, item->first.c_str(), count_of(szName));
#endif

		szName[count_of(szName) - 1] = 0;

		*a_pszName = &szName[0];
		*a_fVal = item->second;
		return;

	MU_CATCH

	* a_pszName = 0;
	*a_fVal = 0;
}


/** \brief Add a custom value recognition function. */
API_EXPORT(void) mupAddValIdent(muParserHandle_t a_hParser,	muIdentFun_t a_pFun)
{
	MU_TRY

		muParser_t* p(AsParser(a_hParser));
		p->AddValIdent(a_pFun);
	MU_CATCH
}


/** \brief Query if an error occurred.



	After querying the internal error bit will be reset. So a consecutive call

	will return false.

*/
API_EXPORT(muBool_t) mupError(muParserHandle_t a_hParser)
{
	bool bError(AsParserTag(a_hParser)->bError);
	AsParserTag(a_hParser)->bError = false;
	return bError;
}


/** \brief Reset the internal error flag. */
API_EXPORT(void) mupErrorReset(muParserHandle_t a_hParser)
{
	AsParserTag(a_hParser)->bError = false;
}


API_EXPORT(void) mupSetErrorHandler(muParserHandle_t a_hParser, muErrorHandler_t a_pHandler)
{
	AsParserTag(a_hParser)->errHandler = a_pHandler;
}


/** \brief Return the message associated with the last error. */
API_EXPORT(const muChar_t*) mupGetErrorMsg(muParserHandle_t a_hParser)
{
	ParserTag* const p(AsParserTag(a_hParser));
	const muChar_t* pMsg = p->exc.GetMsg().c_str();

	// C# explodes when pMsg is returned directly. For some reason it can't access
	// the memory where the message lies directly.
#ifndef _UNICODE
	snprintf(s_tmpOutBuf, count_of(s_tmpOutBuf), "%s", pMsg);
#else
	swprintf(s_tmpOutBuf, count_of(s_tmpOutBuf), _T("%s"), pMsg);
#endif

	return s_tmpOutBuf;
}


/** \brief Return the message associated with the last error. */
API_EXPORT(const muChar_t*) mupGetErrorToken(muParserHandle_t a_hParser)
{
	ParserTag* const p(AsParserTag(a_hParser));
	const muChar_t* pToken = p->exc.GetToken().c_str();

	// C# explodes when pMsg is returned directly. For some reason it can't access
	// the memory where the message lies directly.
#ifndef _UNICODE
	snprintf(s_tmpOutBuf, count_of(s_tmpOutBuf), "%s", pToken);
#else
	swprintf(s_tmpOutBuf, count_of(s_tmpOutBuf), _T("%s"), pToken);
#endif

	return s_tmpOutBuf;
}


/** \brief Return the code associated with the last error.

*/
API_EXPORT(int) mupGetErrorCode(muParserHandle_t a_hParser)
{
	return AsParserTag(a_hParser)->exc.GetCode();
}


/** \brief Return the position associated with the last error. */
API_EXPORT(int) mupGetErrorPos(muParserHandle_t a_hParser)
{
	return (int)AsParserTag(a_hParser)->exc.GetPos();
}


API_EXPORT(muFloat_t*) mupCreateVar()
{
	return new muFloat_t(0);
}


API_EXPORT(void) mupReleaseVar(muFloat_t* ptr)
{
	delete ptr;
}

#if defined(_MSC_VER)
	#pragma warning(pop)
#endif

#endif      // MUPARSER_DLL