/*

	 _____  __ _____________ _______  ______ ___________
	/     \|  |  \____ \__  \\_  __ \/  ___// __ \_  __ \
   |  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.
*/

#include "muParserError.h"
#include <exception>

#if defined(_MSC_VER)
	#pragma warning(push)
	#pragma warning(disable : 26812) // MSVC wants to force me te use enum classes or bother me with pointless warnings
#endif

namespace mu
{
	//------------------------------------------------------------------------------
	const ParserErrorMsg& ParserErrorMsg::Instance()
	{
		static const ParserErrorMsg instance;
		return instance;
	}

	//------------------------------------------------------------------------------
	string_type ParserErrorMsg::operator[](unsigned a_iIdx) const
	{
		return (a_iIdx < m_vErrMsg.size()) ? m_vErrMsg[a_iIdx] : string_type();
	}

	//---------------------------------------------------------------------------
	ParserErrorMsg::ParserErrorMsg()
		:m_vErrMsg(0)
	{
		m_vErrMsg.resize(ecCOUNT);

		m_vErrMsg[ecUNASSIGNABLE_TOKEN] = _T("Unexpected token \"$TOK$\" found at position $POS$.");
		m_vErrMsg[ecINTERNAL_ERROR] = _T("Internal error");
		m_vErrMsg[ecINVALID_NAME] = _T("Invalid function-, variable- or constant name: \"$TOK$\".");
		m_vErrMsg[ecINVALID_BINOP_IDENT] = _T("Invalid binary operator identifier: \"$TOK$\".");
		m_vErrMsg[ecINVALID_INFIX_IDENT] = _T("Invalid infix operator identifier: \"$TOK$\".");
		m_vErrMsg[ecINVALID_POSTFIX_IDENT] = _T("Invalid postfix operator identifier: \"$TOK$\".");
		m_vErrMsg[ecINVALID_FUN_PTR] = _T("Invalid pointer to callback function.");
		m_vErrMsg[ecEMPTY_EXPRESSION] = _T("Expression is empty.");
		m_vErrMsg[ecINVALID_VAR_PTR] = _T("Invalid pointer to variable.");
		m_vErrMsg[ecUNEXPECTED_OPERATOR] = _T("Unexpected operator \"$TOK$\" found at position $POS$");
		m_vErrMsg[ecUNEXPECTED_EOF] = _T("Unexpected end of expression at position $POS$");
		m_vErrMsg[ecUNEXPECTED_ARG_SEP] = _T("Unexpected argument separator at position $POS$");
		m_vErrMsg[ecUNEXPECTED_PARENS] = _T("Unexpected parenthesis \"$TOK$\" at position $POS$");
		m_vErrMsg[ecUNEXPECTED_FUN] = _T("Unexpected function \"$TOK$\" at position $POS$");
		m_vErrMsg[ecUNEXPECTED_VAL] = _T("Unexpected value \"$TOK$\" found at position $POS$");
		m_vErrMsg[ecUNEXPECTED_VAR] = _T("Unexpected variable \"$TOK$\" found at position $POS$");
		m_vErrMsg[ecUNEXPECTED_ARG] = _T("Function arguments used without a function (position: $POS$)");
		m_vErrMsg[ecMISSING_PARENS] = _T("Missing parenthesis");
		m_vErrMsg[ecTOO_MANY_PARAMS] = _T("Too many parameters for function \"$TOK$\" at expression position $POS$");
		m_vErrMsg[ecTOO_FEW_PARAMS] = _T("Too few parameters for function \"$TOK$\" at expression position $POS$");
		m_vErrMsg[ecDIV_BY_ZERO] = _T("Divide by zero");
		m_vErrMsg[ecDOMAIN_ERROR] = _T("Domain error");
		m_vErrMsg[ecNAME_CONFLICT] = _T("Name conflict");
		m_vErrMsg[ecOPT_PRI] = _T("Invalid value for operator priority (must be greater or equal to zero).");
		m_vErrMsg[ecBUILTIN_OVERLOAD] = _T("user defined binary operator \"$TOK$\" conflicts with a built in operator.");
		m_vErrMsg[ecUNEXPECTED_STR] = _T("Unexpected string token found at position $POS$.");
		m_vErrMsg[ecUNTERMINATED_STRING] = _T("Unterminated string starting at position $POS$.");
		m_vErrMsg[ecSTRING_EXPECTED] = _T("String function called with a non string type of argument.");
		m_vErrMsg[ecVAL_EXPECTED] = _T("String value used where a numerical argument is expected.");
		m_vErrMsg[ecOPRT_TYPE_CONFLICT] = _T("No suitable overload for operator \"$TOK$\" at position $POS$.");
		m_vErrMsg[ecSTR_RESULT] = _T("Strings must only be used as function arguments!");
		m_vErrMsg[ecGENERIC] = _T("Parser error.");
		m_vErrMsg[ecLOCALE] = _T("Decimal separator is identic to function argument separator.");
		m_vErrMsg[ecUNEXPECTED_CONDITIONAL] = _T("The \"$TOK$\" operator must be preceded by a closing bracket.");
		m_vErrMsg[ecMISSING_ELSE_CLAUSE] = _T("If-then-else operator is missing an else clause");
		m_vErrMsg[ecMISPLACED_COLON] = _T("Misplaced colon at position $POS$");
		m_vErrMsg[ecUNREASONABLE_NUMBER_OF_COMPUTATIONS] = _T("Number of computations to small for bulk mode. (Vectorisation overhead too costly)");
		m_vErrMsg[ecIDENTIFIER_TOO_LONG] = _T("Identifier too long.");
		m_vErrMsg[ecEXPRESSION_TOO_LONG] = _T("Expression too long.");
		m_vErrMsg[ecINVALID_CHARACTERS_FOUND] = _T("Invalid non printable characters found in expression/identifer!");
		m_vErrMsg[ecBYTECODE_IMPORT_EXPORT_DISABLED] = _T("Bytecode cannot be imported or exported when parser is using a variable factory!");

		for (int i = 0; i < ecCOUNT; ++i)
		{
			if (!m_vErrMsg[i].length())
				throw std::runtime_error("Error definitions are incomplete!");
		}
	}

	//---------------------------------------------------------------------------
	//
	//  ParserError class
	//
	//---------------------------------------------------------------------------

	/** \brief Default constructor. */
	ParserError::ParserError()
		:m_strMsg()
		, m_strFormula()
		, m_strTok()
		, m_iPos(-1)
		, m_iErrc(ecUNDEFINED)
		, m_ErrMsg(ParserErrorMsg::Instance())
	{
	}

	//------------------------------------------------------------------------------
	/** \brief This Constructor is used for internal exceptions only.

	  It does not contain any information but the error code.
	*/
	ParserError::ParserError(EErrorCodes a_iErrc)
		:m_strMsg()
		, m_strFormula()
		, m_strTok()
		, m_iPos(-1)
		, m_iErrc(a_iErrc)
		, m_ErrMsg(ParserErrorMsg::Instance())
	{
		m_strMsg = m_ErrMsg[m_iErrc];
		stringstream_type stream;
		stream << (int)m_iPos;
		ReplaceSubString(m_strMsg, _T("$POS$"), stream.str());
		ReplaceSubString(m_strMsg, _T("$TOK$"), m_strTok);
	}

	//------------------------------------------------------------------------------
	/** \brief Construct an error from a message text. */
	ParserError::ParserError(const string_type& sMsg)
		:m_ErrMsg(ParserErrorMsg::Instance())
	{
		Reset();
		m_strMsg = sMsg;
	}

	//------------------------------------------------------------------------------
	/** \brief Construct an error object.
		\param [in] a_iErrc the error code.
		\param [in] sTok The token string related to this error.
		\param [in] sExpr The expression related to the error.
		\param [in] a_iPos the position in the expression where the error occurred.
	*/
	ParserError::ParserError(EErrorCodes iErrc,
		const string_type& sTok,
		const string_type& sExpr,
		int iPos)
		:m_strMsg()
		, m_strFormula(sExpr)
		, m_strTok(sTok)
		, m_iPos(iPos)
		, m_iErrc(iErrc)
		, m_ErrMsg(ParserErrorMsg::Instance())
	{
		m_strMsg = m_ErrMsg[m_iErrc];
		stringstream_type stream;
		stream << (int)m_iPos;
		ReplaceSubString(m_strMsg, _T("$POS$"), stream.str());
		ReplaceSubString(m_strMsg, _T("$TOK$"), m_strTok);
	}

	//------------------------------------------------------------------------------
	/** \brief Construct an error object.
		\param [in] iErrc the error code.
		\param [in] iPos the position in the expression where the error occurred.
		\param [in] sTok The token string related to this error.
	*/
	ParserError::ParserError(EErrorCodes iErrc, int iPos, const string_type& sTok)
		:m_strMsg()
		, m_strFormula()
		, m_strTok(sTok)
		, m_iPos(iPos)
		, m_iErrc(iErrc)
		, m_ErrMsg(ParserErrorMsg::Instance())
	{
		m_strMsg = m_ErrMsg[m_iErrc];
		stringstream_type stream;
		stream << (int)m_iPos;
		ReplaceSubString(m_strMsg, _T("$POS$"), stream.str());
		ReplaceSubString(m_strMsg, _T("$TOK$"), m_strTok);
	}

	//------------------------------------------------------------------------------
	/** \brief Construct an error object.
		\param [in] szMsg The error message text.
		\param [in] iPos the position related to the error.
		\param [in] sTok The token string related to this error.
	*/
	ParserError::ParserError(const char_type* szMsg, int iPos, const string_type& sTok)
		:m_strMsg(szMsg)
		, m_strFormula()
		, m_strTok(sTok)
		, m_iPos(iPos)
		, m_iErrc(ecGENERIC)
		, m_ErrMsg(ParserErrorMsg::Instance())
	{
		stringstream_type stream;
		stream << (int)m_iPos;
		ReplaceSubString(m_strMsg, _T("$POS$"), stream.str());
		ReplaceSubString(m_strMsg, _T("$TOK$"), m_strTok);
	}

	//------------------------------------------------------------------------------
	/** \brief Copy constructor. */
	ParserError::ParserError(const ParserError& a_Obj)
		:m_strMsg(a_Obj.m_strMsg)
		, m_strFormula(a_Obj.m_strFormula)
		, m_strTok(a_Obj.m_strTok)
		, m_iPos(a_Obj.m_iPos)
		, m_iErrc(a_Obj.m_iErrc)
		, m_ErrMsg(ParserErrorMsg::Instance())
	{
	}

	//------------------------------------------------------------------------------
	/** \brief Assignment operator. */
	ParserError& ParserError::operator=(const ParserError& a_Obj)
	{
		if (this == &a_Obj)
			return *this;

		m_strMsg = a_Obj.m_strMsg;
		m_strFormula = a_Obj.m_strFormula;
		m_strTok = a_Obj.m_strTok;
		m_iPos = a_Obj.m_iPos;
		m_iErrc = a_Obj.m_iErrc;
		return *this;
	}

	//------------------------------------------------------------------------------
	ParserError::~ParserError()
	{}

	//------------------------------------------------------------------------------
	/** \brief Replace all occurrences of a substring with another string.
		\param strFind The string that shall be replaced.
		\param strReplaceWith The string that should be inserted instead of strFind
	*/
	void ParserError::ReplaceSubString(string_type& strSource,
		const string_type& strFind,
		const string_type& strReplaceWith)
	{
		string_type strResult;
		string_type::size_type iPos(0), iNext(0);

		for (;;)
		{
			iNext = strSource.find(strFind, iPos);
			strResult.append(strSource, iPos, iNext - iPos);

			if (iNext == string_type::npos)
				break;

			strResult.append(strReplaceWith);
			iPos = iNext + strFind.length();
		}

		strSource.swap(strResult);
	}

	//------------------------------------------------------------------------------
	/** \brief Reset the error object. */
	void ParserError::Reset()
	{
		m_strMsg = _T("");
		m_strFormula = _T("");
		m_strTok = _T("");
		m_iPos = -1;
		m_iErrc = ecUNDEFINED;
	}

	//------------------------------------------------------------------------------
	/** \brief Set the expression related to this error. */
	void ParserError::SetFormula(const string_type& a_strFormula)
	{
		m_strFormula = a_strFormula;
	}

	//------------------------------------------------------------------------------
	/** \brief gets the expression related tp this error.*/
	const string_type& ParserError::GetExpr() const
	{
		return m_strFormula;
	}

	//------------------------------------------------------------------------------
	/** \brief Returns the message string for this error. */
	const string_type& ParserError::GetMsg() const
	{
		return m_strMsg;
	}

	//------------------------------------------------------------------------------
	/** \brief Return the formula position related to the error.

	  If the error is not related to a distinct position this will return -1
	*/
	int ParserError::GetPos() const
	{
		return m_iPos;
	}

	//------------------------------------------------------------------------------
	/** \brief Return string related with this token (if available). */
	const string_type& ParserError::GetToken() const
	{
		return m_strTok;
	}

	//------------------------------------------------------------------------------
	/** \brief Return the error code. */
	EErrorCodes ParserError::GetCode() const
	{
		return m_iErrc;
	}
} // namespace mu

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