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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-27 16:51:28 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-27 16:51:28 +0000 |
commit | 940b4d1848e8c70ab7642901a68594e8016caffc (patch) | |
tree | eb72f344ee6c3d9b80a7ecc079ea79e9fba8676d /include/formula/FormulaCompiler.hxx | |
parent | Initial commit. (diff) | |
download | libreoffice-upstream.tar.xz libreoffice-upstream.zip |
Adding upstream version 1:7.0.4.upstream/1%7.0.4upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to '')
-rw-r--r-- | include/formula/FormulaCompiler.hxx | 446 |
1 files changed, 446 insertions, 0 deletions
diff --git a/include/formula/FormulaCompiler.hxx b/include/formula/FormulaCompiler.hxx new file mode 100644 index 000000000..ecc9e5dd3 --- /dev/null +++ b/include/formula/FormulaCompiler.hxx @@ -0,0 +1,446 @@ +/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ +/* + * This file is part of the LibreOffice project. + * + * This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. + * + * This file incorporates work covered by the following license notice: + * + * Licensed to the Apache Software Foundation (ASF) under one or more + * contributor license agreements. See the NOTICE file distributed + * with this work for additional information regarding copyright + * ownership. The ASF licenses this file to you under the Apache + * License, Version 2.0 (the "License"); you may not use this file + * except in compliance with the License. You may obtain a copy of + * the License at http://www.apache.org/licenses/LICENSE-2.0 . + */ + +#ifndef INCLUDED_FORMULA_FORMULACOMPILER_HXX +#define INCLUDED_FORMULA_FORMULACOMPILER_HXX + +#include <memory> +#include <unordered_map> +#include <vector> + +#include <com/sun/star/uno/Sequence.hxx> +#include <formula/formuladllapi.h> +#include <formula/grammar.hxx> +#include <formula/opcode.hxx> +#include <formula/tokenarray.hxx> +#include <formula/types.hxx> +#include <formula/paramclass.hxx> +#include <rtl/ustrbuf.hxx> +#include <rtl/ustring.hxx> +#include <sal/types.h> +#include <tools/debug.hxx> + +#define FORMULA_MAXJUMPCOUNT 32 /* maximum number of jumps (ocChoose) */ +#define FORMULA_MAXTOKENS 8192 /* maximum number of tokens in formula */ +#define FORMULA_MAXPARAMS 255 /* maximum number of parameters per function (byte) */ +#define FORMULA_MAXPARAMSII 8 /* maximum number of parameters for functions that have implicit intersection ranges */ + + +namespace com::sun::star { + namespace sheet { + struct FormulaOpCodeMapEntry; + struct FormulaToken; + } +} + +class CharClass; +enum class FormulaError : sal_uInt16; +enum class SvNumFormatType : sal_Int16; + +namespace formula +{ + +struct FormulaArrayStack +{ + FormulaArrayStack* pNext; + FormulaTokenArray* pArr; + sal_uInt16 nIndex; + FormulaTokenRef mpLastToken; + bool bTemp; +}; + +typedef std::unordered_map< OUString, OpCode > OpCodeHashMap; +typedef std::unordered_map< OUString, OUString > ExternalHashMap; + +class FORMULA_DLLPUBLIC FormulaCompiler +{ +private: + FormulaCompiler(const FormulaCompiler&) = delete; + FormulaCompiler& operator=(const FormulaCompiler&) = delete; +public: + FormulaCompiler(bool bComputeII = false, bool bMatrixFlag = false); + FormulaCompiler(FormulaTokenArray& _rArr, bool bComputeII = false, bool bMatrixFlag = false); + virtual ~FormulaCompiler(); + + /** Mappings from strings to OpCodes and vice versa. */ + class FORMULA_DLLPUBLIC OpCodeMap final + { + OpCodeHashMap maHashMap; /// Hash map of symbols, OUString -> OpCode + std::unique_ptr<OUString[]> mpTable; /// Array of symbols, OpCode -> OUString, offset==OpCode + ExternalHashMap maExternalHashMap; /// Hash map of ocExternal, Filter String -> AddIn String + ExternalHashMap maReverseExternalHashMap; /// Hash map of ocExternal, AddIn String -> Filter String + FormulaGrammar::Grammar meGrammar; /// Grammar, language and reference convention + sal_uInt16 mnSymbols; /// Count of OpCode symbols + bool mbCore : 1; /// If mapping was setup by core, not filters + bool mbEnglish : 1; /// If English symbols and external names + + OpCodeMap( const OpCodeMap& ) = delete; + OpCodeMap& operator=( const OpCodeMap& ) = delete; + + public: + + OpCodeMap(sal_uInt16 nSymbols, bool bCore, FormulaGrammar::Grammar eGrammar ) : + maHashMap(nSymbols), + mpTable( new OUString[ nSymbols ]), + meGrammar( eGrammar), + mnSymbols( nSymbols), + mbCore( bCore), + mbEnglish ( FormulaGrammar::isEnglish(eGrammar) ) + { + } + + /** Copy mappings from r into this map, effectively replacing this map. + + Override known legacy bad function names with + correct ones if the conditions can be derived from the + current maps. + */ + void copyFrom( const OpCodeMap& r ); + + /// Get the symbol String -> OpCode hash map for finds. + const OpCodeHashMap& getHashMap() const { return maHashMap; } + + /// Get the symbol String -> AddIn String hash map for finds. + const ExternalHashMap& getExternalHashMap() const { return maExternalHashMap; } + + /// Get the AddIn String -> symbol String hash map for finds. + const ExternalHashMap& getReverseExternalHashMap() const { return maReverseExternalHashMap; } + + /// Get the symbol string matching an OpCode. + const OUString& getSymbol( const OpCode eOp ) const + { + DBG_ASSERT( sal_uInt16(eOp) < mnSymbols, "OpCodeMap::getSymbol: OpCode out of range"); + if (sal_uInt16(eOp) < mnSymbols) + return mpTable[ eOp ]; + static OUString s_sEmpty; + return s_sEmpty; + } + + /// Get the first character of the symbol string matching an OpCode. + sal_Unicode getSymbolChar( const OpCode eOp ) const { return getSymbol(eOp)[0]; }; + + /// Get the grammar. + FormulaGrammar::Grammar getGrammar() const { return meGrammar; } + + /// Get the symbol count. + sal_uInt16 getSymbolCount() const { return mnSymbols; } + + /** Are these English symbols, as opposed to native language (which may + be English as well)? */ + bool isEnglish() const { return mbEnglish; } + + /// Is it an ODF 1.1 compatibility mapping? + bool isPODF() const { return FormulaGrammar::isPODF( meGrammar); } + + /* TODO: add isAPI() once a FormulaLanguage was added. */ + + /// Is it an ODFF / ODF 1.2 mapping? + bool isODFF() const { return FormulaGrammar::isODFF( meGrammar); } + + /// Is it an OOXML mapping? + bool isOOXML() const { return FormulaGrammar::isOOXML( meGrammar); } + + /// Does it have external symbol/name mappings? + bool hasExternals() const { return !maExternalHashMap.empty(); } + + /// Put entry of symbol String and OpCode pair. + void putOpCode( const OUString & rStr, const OpCode eOp, const CharClass* pCharClass ); + + /// Put entry of symbol String and AddIn international String pair. + void putExternal( const OUString & rSymbol, const OUString & rAddIn ); + + /** Put entry of symbol String and AddIn international String pair, + failing silently if rAddIn name already exists. */ + void putExternalSoftly( const OUString & rSymbol, const OUString & rAddIn ); + + /// Core implementation of XFormulaOpCodeMapper::getMappings() + css::uno::Sequence< css::sheet::FormulaToken > + createSequenceOfFormulaTokens(const FormulaCompiler& _rCompiler, + const css::uno::Sequence< OUString >& rNames ) const; + + /// Core implementation of XFormulaOpCodeMapper::getAvailableMappings() + css::uno::Sequence< css::sheet::FormulaOpCodeMapEntry > + createSequenceOfAvailableMappings( const FormulaCompiler& _rCompiler,const sal_Int32 nGroup ) const; + + /** The value used in createSequenceOfAvailableMappings() and thus in + XFormulaOpCodeMapper::getMappings() for an unknown symbol. */ + static sal_Int32 getOpCodeUnknown() { return -1; } + + private: + + /** Conditionally put a mapping in copyFrom() context. + + Does NOT check eOp range! + */ + void putCopyOpCode( const OUString& rSymbol, OpCode eOp ); + }; + +public: + typedef std::shared_ptr< const OpCodeMap > OpCodeMapPtr; + typedef std::shared_ptr< OpCodeMap > NonConstOpCodeMapPtr; + + /** Get OpCodeMap for formula language. + @param nLanguage + One of css::sheet::FormulaLanguage constants. + @return Map for nLanguage. If nLanguage is unknown, a NULL map is returned. + */ + OpCodeMapPtr GetOpCodeMap( const sal_Int32 nLanguage ) const; + + /** Create an internal symbol map from API mapping. + @param bEnglish + Use English number parser / formatter instead of native. + */ + static OpCodeMapPtr CreateOpCodeMap( + const css::uno::Sequence< const css::sheet::FormulaOpCodeMapEntry > & rMapping, + bool bEnglish ); + + /** Get current OpCodeMap in effect. */ + const OpCodeMapPtr& GetCurrentOpCodeMap() const { return mxSymbols; } + + /** Get OpCode for English symbol. + Used in XFunctionAccess to create token array. + @param rName + Symbol to lookup. MUST be upper case. + */ + OpCode GetEnglishOpCode( const OUString& rName ) const; + + FormulaError GetErrorConstant( const OUString& rName ) const; + void AppendErrorConstant( OUStringBuffer& rBuffer, FormulaError nError ) const; + + void EnableJumpCommandReorder( bool bEnable ); + void EnableStopOnError( bool bEnable ); + + static bool IsOpCodeVolatile( OpCode eOp ); + static bool IsOpCodeJumpCommand( OpCode eOp ); + + static bool DeQuote( OUString& rStr ); + + + static const OUString& GetNativeSymbol( OpCode eOp ); + static sal_Unicode GetNativeSymbolChar( OpCode eOp ); + static bool IsMatrixFunction(OpCode _eOpCode); // if a function _always_ returns a Matrix + + SvNumFormatType GetNumFormatType() const { return nNumFmt; } + bool CompileTokenArray(); + + void CreateStringFromTokenArray( OUString& rFormula ); + void CreateStringFromTokenArray( OUStringBuffer& rBuffer ); + const FormulaToken* CreateStringFromToken( OUString& rFormula, const FormulaToken* pToken ); + const FormulaToken* CreateStringFromToken( OUStringBuffer& rBuffer, const FormulaToken* pToken, + bool bAllowArrAdvance = false ); + + void AppendBoolean( OUStringBuffer& rBuffer, bool bVal ) const; + void AppendDouble( OUStringBuffer& rBuffer, double fVal ) const; + static void AppendString( OUStringBuffer& rBuffer, const OUString & rStr ); + + /** Set symbol map corresponding to one of predefined formula::FormulaGrammar::Grammar, + including an address reference convention. */ + FormulaGrammar::Grammar GetGrammar() const { return meGrammar; } + + /** Whether current symbol set and grammar need transformation of Table + structured references to A1 style references when writing / exporting + (creating strings). + */ + bool NeedsTableRefTransformation() const; + + /** If a parameter nParam (0-based) is to be forced to array for OpCode + eOp, i.e. classified as ParamClass::ForceArray or + ParamClass::ReferenceOrForceArray type. */ + virtual formula::ParamClass GetForceArrayParameter( const FormulaToken* pToken, sal_uInt16 nParam ) const; + + static void UpdateSeparatorsNative( const OUString& rSep, const OUString& rArrayColSep, const OUString& rArrayRowSep ); + static void ResetNativeSymbols(); + static void SetNativeSymbols( const OpCodeMapPtr& xMap ); + + /** Sets the implicit intersection compute flag */ + void SetComputeIIFlag(bool bSet) { mbComputeII = bSet; } + + /** Sets the matrix flag for the formula*/ + void SetMatrixFlag(bool bSet) { mbMatrixFlag = bSet; } + + /** Separators mapped when loading opcodes from the resource, values other + than RESOURCE_BASE may override the resource strings. Used by OpCodeList + implementation via loadSymbols(). + */ + enum class SeparatorType + { + RESOURCE_BASE, + SEMICOLON_BASE + }; + +protected: + virtual OUString FindAddInFunction( const OUString& rUpperName, bool bLocalFirst ) const; + virtual void fillFromAddInCollectionUpperName( const NonConstOpCodeMapPtr& xMap ) const; + virtual void fillFromAddInMap( const NonConstOpCodeMapPtr& xMap, FormulaGrammar::Grammar _eGrammar ) const; + virtual void fillFromAddInCollectionEnglishName( const NonConstOpCodeMapPtr& xMap ) const; + virtual void fillAddInToken(::std::vector< css::sheet::FormulaOpCodeMapEntry >& _rVec, bool _bIsEnglish) const; + + virtual void SetError(FormulaError nError); + virtual FormulaTokenRef ExtendRangeReference( FormulaToken & rTok1, FormulaToken & rTok2 ); + virtual bool HandleExternalReference(const FormulaToken& _aToken); + virtual bool HandleRange(); + virtual bool HandleColRowName(); + virtual bool HandleDbData(); + virtual bool HandleTableRef(); + + virtual void CreateStringFromExternal( OUStringBuffer& rBuffer, const FormulaToken* pToken ) const; + virtual void CreateStringFromSingleRef( OUStringBuffer& rBuffer, const FormulaToken* pToken ) const; + virtual void CreateStringFromDoubleRef( OUStringBuffer& rBuffer, const FormulaToken* pToken ) const; + virtual void CreateStringFromMatrix( OUStringBuffer& rBuffer, const FormulaToken* pToken ) const; + virtual void CreateStringFromIndex( OUStringBuffer& rBuffer, const FormulaToken* pToken ) const; + virtual void LocalizeString( OUString& rName ) const; // modify rName - input: exact name + + bool GetToken(); + OpCode NextToken(); + void PutCode( FormulaTokenRef& ); + void Factor(); + void RangeLine(); + void UnionLine(); + void IntersectionLine(); + void UnaryLine(); + void PostOpLine(); + void PowLine(); + void MulDivLine(); + void AddSubLine(); + void ConcatLine(); + void CompareLine(); + OpCode Expression(); + void PopTokenArray(); + void PushTokenArray( FormulaTokenArray*, bool ); + + bool MergeRangeReference( FormulaToken * * const pCode1, FormulaToken * const * const pCode2 ); + + // Returns whether the opcode has implicit intersection ranges as parameters. + // Called for (most) opcodes to possibly handle implicit intersection for the parameters. + virtual void HandleIIOpCode(FormulaToken* /*token*/, + FormulaToken*** /*pppToken*/, sal_uInt8 /*nNumParams*/) {} + + // Called from CompileTokenArray() after RPN code generation is done. + virtual void PostProcessCode() {} + + OUString aCorrectedFormula; // autocorrected Formula + OUString aCorrectedSymbol; // autocorrected Symbol + + OpCodeMapPtr mxSymbols; // which symbols are used + + FormulaTokenRef mpToken; // current token + FormulaTokenRef pCurrentFactorToken; // current factor token (of Factor() method) + sal_uInt16 nCurrentFactorParam; // current factor token's parameter, 1-based + FormulaTokenArray* pArr; + FormulaTokenArrayPlainIterator maArrIterator; + FormulaTokenRef mpLastToken; // last token + + FormulaToken** pCode; + FormulaArrayStack* pStack; + + OpCode eLastOp; + short nRecursion; // GetToken() recursions + SvNumFormatType nNumFmt; // set during CompileTokenArray() + sal_uInt16 pc; // program counter + + FormulaGrammar::Grammar meGrammar; // The grammar used, language plus convention. + + bool bAutoCorrect; // whether to apply AutoCorrection + bool bCorrected; // AutoCorrection was applied + bool glSubTotal; // if code contains one or more subtotal functions + bool needsRPNTokenCheck; // whether to make FormulaTokenArray check all tokens at the end + + bool mbJumpCommandReorder; /// Whether or not to reorder RPN for jump commands. + bool mbStopOnError; /// Whether to stop compilation on first encountered error. + + bool mbComputeII; // whether to attempt computing implicit intersection ranges while building the RPN array. + bool mbMatrixFlag; // whether the formula is a matrix formula (needed for II computation) + +private: + void InitSymbolsNative() const; /// only SymbolsNative, on first document creation + void InitSymbolsEnglish() const; /// only SymbolsEnglish, maybe later + void InitSymbolsPODF() const; /// only SymbolsPODF, on demand + void InitSymbolsAPI() const; /// only SymbolsAPI, on demand + void InitSymbolsODFF() const; /// only SymbolsODFF, on demand + void InitSymbolsEnglishXL() const; /// only SymbolsEnglishXL, on demand + void InitSymbolsOOXML() const; /// only SymbolsOOXML, on demand + + void loadSymbols(const std::pair<const char*, int>* pSymbols, FormulaGrammar::Grammar eGrammar, NonConstOpCodeMapPtr& rxMap, + SeparatorType eSepType = SeparatorType::SEMICOLON_BASE) const; + + /** Check pCurrentFactorToken for nParam's (0-based) ForceArray types and + set ForceArray at rCurr if so. Set nParam+1 as 1-based + nCurrentFactorParam for subsequent ForceArrayOperator() calls. + */ + void CheckSetForceArrayParameter( FormulaTokenRef const & rCurr, sal_uInt8 nParam ); + + void ForceArrayOperator( FormulaTokenRef const & rCurr ); + + class CurrentFactor + { + FormulaTokenRef pPrevFac; + sal_uInt16 nPrevParam; + FormulaCompiler* pCompiler; + CurrentFactor( const CurrentFactor& ) = delete; + CurrentFactor& operator=( const CurrentFactor& ) = delete; + public: + explicit CurrentFactor( FormulaCompiler* pComp ) + : pPrevFac( pComp->pCurrentFactorToken ) + , nPrevParam( pComp->nCurrentFactorParam ) + , pCompiler( pComp ) + {} + ~CurrentFactor() + { + pCompiler->pCurrentFactorToken = pPrevFac; + pCompiler->nCurrentFactorParam = nPrevParam; + } + // yes, this operator= may modify the RValue + void operator=( FormulaTokenRef const & r ) + { + pCompiler->ForceArrayOperator( r ); + pCompiler->pCurrentFactorToken = r; + pCompiler->nCurrentFactorParam = 0; + } + void operator=( FormulaToken* p ) + { + FormulaTokenRef xTemp( p ); + *this = xTemp; + } + operator FormulaTokenRef&() + { return pCompiler->pCurrentFactorToken; } + FormulaToken* operator->() + { return pCompiler->pCurrentFactorToken.operator->(); } + operator FormulaToken*() + { return operator->(); } + }; + + + mutable NonConstOpCodeMapPtr mxSymbolsODFF; // ODFF symbols + mutable NonConstOpCodeMapPtr mxSymbolsPODF; // ODF 1.1 symbols + mutable NonConstOpCodeMapPtr mxSymbolsAPI; // XFunctionAccess API symbols + mutable NonConstOpCodeMapPtr mxSymbolsNative; // native symbols + mutable NonConstOpCodeMapPtr mxSymbolsEnglish; // English symbols + mutable NonConstOpCodeMapPtr mxSymbolsEnglishXL; // English Excel symbols (for VBA formula parsing) + mutable NonConstOpCodeMapPtr mxSymbolsOOXML; // Excel OOXML symbols + + static FormulaTokenArray smDummyTokenArray; +}; + +} // formula + + +#endif // INCLUDED_FORMULA_FORMULACOMPILER_HXX + + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |