/* -*- 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_SC_INC_FORMULACELL_HXX #define INCLUDED_SC_INC_FORMULACELL_HXX #include #include #include #include "types.hxx" #include "interpretercontext.hxx" #include "document.hxx" #include "formulalogger.hxx" #include "formularesult.hxx" namespace sc { class StartListeningContext; class EndListeningContext; struct RefUpdateContext; struct RefUpdateInsertTabContext; struct RefUpdateDeleteTabContext; struct RefUpdateMoveTabContext; class CompileFormulaContext; class FormulaGroupAreaListener; class UpdatedRangeNames; } class ScFormulaCell; class ScProgress; class ScTokenArray; enum class SvNumFormatType : sal_Int16; struct SC_DLLPUBLIC ScFormulaCellGroup { private: struct Impl; std::unique_ptr mpImpl; public: mutable size_t mnRefCount; std::unique_ptr mpCode; ScFormulaCell *mpTopCell; SCROW mnLength; // How many of these do we have ? sal_Int32 mnWeight; SvNumFormatType mnFormatType; bool mbInvariant:1; bool mbSubTotal:1; bool mbPartOfCycle:1; // To flag FG's part of a cycle sal_uInt8 meCalcState; ScFormulaCellGroup(); ScFormulaCellGroup(const ScFormulaCellGroup&) = delete; const ScFormulaCellGroup& operator=(const ScFormulaCellGroup&) = delete; ~ScFormulaCellGroup(); void setCode( const ScTokenArray& rCode ); void setCode( std::unique_ptr pCode ); void compileCode( ScDocument& rDoc, const ScAddress& rPos, formula::FormulaGrammar::Grammar eGram ); sc::FormulaGroupAreaListener* getAreaListener( ScFormulaCell** ppTopCell, const ScRange& rRange, bool bStartFixed, bool bEndFixed ); void endAllGroupListening( ScDocument& rDoc ); }; inline void intrusive_ptr_add_ref(const ScFormulaCellGroup *p) { p->mnRefCount++; } inline void intrusive_ptr_release(const ScFormulaCellGroup *p) { if( --p->mnRefCount == 0 ) delete p; } enum class ScMatrixMode : sal_uInt8 { NONE = 0, // No matrix formula Formula = 1, // Upper left matrix formula cell Reference = 2 // Remaining cells, via ocMatRef reference token }; class SC_DLLPUBLIC ScFormulaCell : public SvtListener { private: ScFormulaCellGroupRef mxGroup; // Group of formulae we're part of bool bDirty : 1; // Must be (re)calculated bool bTableOpDirty : 1; // Dirty flag for TableOp bool bChanged : 1; // Whether something changed regarding display/representation bool bRunning : 1; // Already interpreting right now bool bCompile : 1; // Must be (re)compiled bool bSubTotal : 1; // Cell is part of or contains a SubTotal bool bIsIterCell : 1; // Cell is part of a circular reference bool bInChangeTrack : 1; // Cell is in ChangeTrack bool bNeedListening : 1; // Listeners need to be re-established after UpdateReference bool mbNeedsNumberFormat : 1; // set the calculated number format as hard number format bool mbAllowNumberFormatChange : 1; /* allow setting further calculated number formats as hard number format */ bool mbPostponedDirty : 1; // if cell needs to be set dirty later bool mbIsExtRef : 1; // has references in ScExternalRefManager; never cleared after set bool mbSeenInPath : 1; // For detecting cycle involving formula groups and singleton formulacells ScMatrixMode cMatrixFlag : 8; sal_uInt16 nSeenInIteration : 16; // Iteration cycle in which the cell was last encountered SvNumFormatType nFormatType : 16; ScFormulaResult aResult; formula::FormulaGrammar::Grammar eTempGrammar; // used between string (creation) and (re)compilation // If this cell is in a cell group (mxGroup!=nullptr), then this pCode is a not-owning pointer // to the mxGroup's mpCode, which owns the array. If the cell is not in a group, this is an owning pointer. ScTokenArray* pCode; // The token array ScDocument* pDocument; ScFormulaCell* pPrevious; ScFormulaCell* pNext; ScFormulaCell* pPreviousTrack; ScFormulaCell* pNextTrack; /** * Update reference in response to cell copy-n-paste. */ bool UpdateReferenceOnCopy( const sc::RefUpdateContext& rCxt, ScDocument* pUndoDoc, const ScAddress* pUndoCellPos ); ScFormulaCell( const ScFormulaCell& ) = delete; bool CheckComputeDependencies(sc::FormulaLogger::GroupScope& rScope, bool fromFirstRow, SCROW nStartOffset, SCROW nEndOffset, bool bCalcDependencyOnly = false); bool InterpretFormulaGroupThreading(sc::FormulaLogger::GroupScope& aScope, bool& bDependencyComputed, bool& bDependencyCheckFailed, SCROW nStartOffset, SCROW nEndOffset); bool InterpretFormulaGroupOpenCL(sc::FormulaLogger::GroupScope& aScope, bool& bDependencyComputed, bool& bDependencyCheckFailed); bool InterpretInvariantFormulaGroup(); public: enum ScInterpretTailParameter { SCITP_NORMAL, SCITP_FROM_ITERATION, SCITP_CLOSE_ITERATION_CIRCLE }; void InterpretTail( ScInterpreterContext&, ScInterpretTailParameter ); void HandleStuffAfterParallelCalculation(ScInterpreter* pInterpreter); enum CompareState { NotEqual = 0, EqualInvariant, EqualRelativeRef }; ScAddress aPos; virtual ~ScFormulaCell() override; ScFormulaCell* Clone() const; ScFormulaCell* Clone( const ScAddress& rPos ) const; ScFormulaCell( ScDocument* pDoc, const ScAddress& rPos ); /** * Transfer the ownership of the passed token array instance to the * formula cell being constructed. The caller must not pass a NULL * token array pointer. */ ScFormulaCell( ScDocument* pDoc, const ScAddress& rPos, std::unique_ptr pArray, const formula::FormulaGrammar::Grammar eGrammar = formula::FormulaGrammar::GRAM_DEFAULT, ScMatrixMode cMatInd = ScMatrixMode::NONE ); ScFormulaCell( ScDocument* pDoc, const ScAddress& rPos, const ScTokenArray& rArray, const formula::FormulaGrammar::Grammar eGrammar = formula::FormulaGrammar::GRAM_DEFAULT, ScMatrixMode cMatInd = ScMatrixMode::NONE ); ScFormulaCell( ScDocument* pDoc, const ScAddress& rPos, const ScFormulaCellGroupRef& xGroup, const formula::FormulaGrammar::Grammar = formula::FormulaGrammar::GRAM_DEFAULT, ScMatrixMode = ScMatrixMode::NONE ); /** With formula string and grammar to compile with. formula::FormulaGrammar::GRAM_DEFAULT effectively isformula::FormulaGrammar::GRAM_NATIVE_UI that also includes formula::FormulaGrammar::CONV_UNSPECIFIED, therefore uses the address convention associated with rPos::nTab by default. */ ScFormulaCell( ScDocument* pDoc, const ScAddress& rPos, const OUString& rFormula, const formula::FormulaGrammar::Grammar = formula::FormulaGrammar::GRAM_DEFAULT, ScMatrixMode cMatInd = ScMatrixMode::NONE ); ScFormulaCell(const ScFormulaCell& rCell, ScDocument& rDoc, const ScAddress& rPos, ScCloneFlags nCloneFlags = ScCloneFlags::Default); size_t GetHash() const; ScFormulaVectorState GetVectorState() const; void GetFormula( OUString& rFormula, const formula::FormulaGrammar::Grammar = formula::FormulaGrammar::GRAM_DEFAULT, const ScInterpreterContext* pContext = nullptr ) const; void GetFormula( OUStringBuffer& rBuffer, const formula::FormulaGrammar::Grammar = formula::FormulaGrammar::GRAM_DEFAULT, const ScInterpreterContext* pContext = nullptr ) const; OUString GetFormula( sc::CompileFormulaContext& rCxt, const ScInterpreterContext* pContext = nullptr ) const; void SetDirty( bool bDirtyFlag=true ); void SetDirtyVar(); // If setting entire document dirty after load, no broadcasts but still append to FormulaTree. void SetDirtyAfterLoad(); void ResetTableOpDirtyVar(); void SetTableOpDirty(); bool IsDirtyOrInTableOpDirty() const { return bDirty || (bTableOpDirty && pDocument->IsInInterpreterTableOp()); } bool GetDirty() const { return bDirty; } void ResetDirty(); bool NeedsListening() const { return bNeedListening; } void SetNeedsListening( bool bVar ); void SetNeedsDirty( bool bVar ); void SetNeedNumberFormat( bool bVal ); bool NeedsNumberFormat() const { return mbNeedsNumberFormat;} SvNumFormatType GetFormatType() const { return nFormatType; } void Compile(const OUString& rFormula, bool bNoListening, const formula::FormulaGrammar::Grammar ); void Compile( sc::CompileFormulaContext& rCxt, const OUString& rFormula, bool bNoListening = false ); void CompileTokenArray( bool bNoListening = false ); void CompileTokenArray( sc::CompileFormulaContext& rCxt, bool bNoListening = false ); void CompileXML( sc::CompileFormulaContext& rCxt, ScProgress& rProgress ); // compile temporary string tokens void CalcAfterLoad( sc::CompileFormulaContext& rCxt, bool bStartListening ); bool MarkUsedExternalReferences(); bool Interpret(SCROW nStartOffset = -1, SCROW nEndOffset = -1); bool IsIterCell() const { return bIsIterCell; } sal_uInt16 GetSeenInIteration() const { return nSeenInIteration; } bool HasOneReference( ScRange& r ) const; /* Checks if the formula contains reference list that can be expressed by one reference (like A1;A2;A3:A5 -> A1:A5). The reference list is not required to be sorted (i.e. A3;A1;A2 is still recognized as A1:A3), but no overlapping is allowed. If one reference is recognized, the rRange is filled. It is similar to HasOneReference(), but more general. */ bool HasRefListExpressibleAsOneReference(ScRange& rRange) const; enum class RelNameRef { NONE, ///< no relative reference from named expression SINGLE, ///< only single cell relative reference DOUBLE ///< at least one range relative reference from named expression }; RelNameRef HasRelNameReference() const; bool UpdateReference( const sc::RefUpdateContext& rCxt, ScDocument* pUndoDoc = nullptr, const ScAddress* pUndoCellPos = nullptr ); /** * Shift the position of formula cell as part of reference update. * * @return true if the position has shifted, false otherwise. */ bool UpdatePosOnShift( const sc::RefUpdateContext& rCxt ); /** * Update reference in response to cell insertion or deletion. */ bool UpdateReferenceOnShift( const sc::RefUpdateContext& rCxt, ScDocument* pUndoDoc, const ScAddress* pUndoCellPos ); /** * Update reference in response to cell move. */ bool UpdateReferenceOnMove( const sc::RefUpdateContext& rCxt, ScDocument* pUndoDoc, const ScAddress* pUndoCellPos ); void TransposeReference(); void UpdateTranspose( const ScRange& rSource, const ScAddress& rDest, ScDocument* pUndoDoc ); void UpdateGrow( const ScRange& rArea, SCCOL nGrowX, SCROW nGrowY ); void UpdateInsertTab( const sc::RefUpdateInsertTabContext& rCxt ); void UpdateInsertTabAbs(SCTAB nTable); void UpdateDeleteTab( const sc::RefUpdateDeleteTabContext& rCxt ); void UpdateMoveTab( const sc::RefUpdateMoveTabContext& rCxt, SCTAB nTabNo ); bool TestTabRefAbs(SCTAB nTable); void UpdateCompile( bool bForceIfNameInUse ); void FindRangeNamesInUse(sc::UpdatedRangeNames& rIndexes) const; bool IsSubTotal() const { return bSubTotal;} bool IsChanged() const { return bChanged;} void SetChanged(bool b); bool IsEmpty(); // formula::svEmptyCell result // display as empty string if formula::svEmptyCell result bool IsEmptyDisplayedAsString(); bool IsValue(); // also true if formula::svEmptyCell bool IsValueNoError(); bool IsValueNoError() const; double GetValue(); svl::SharedString GetString(); /** * Get a numeric value without potentially triggering re-calculation. */ double GetRawValue() const; /** * Get a string value without potentially triggering re-calculation. */ svl::SharedString GetRawString() const; const ScMatrix* GetMatrix(); bool GetMatrixOrigin( const ScDocument* pDoc, ScAddress& rPos ) const; void GetResultDimensions( SCSIZE& rCols, SCSIZE& rRows ); sc::MatrixEdge GetMatrixEdge( const ScDocument* pDoc, ScAddress& rOrgPos ) const; FormulaError GetErrCode(); // interpret first if necessary FormulaError GetRawError() const; // don't interpret, just return code or result error bool GetErrorOrValue( FormulaError& rErr, double& rVal ); sc::FormulaResultValue GetResult(); sc::FormulaResultValue GetResult() const; ScMatrixMode GetMatrixFlag() const { return cMatrixFlag;} ScTokenArray* GetCode() { return pCode;} const ScTokenArray* GetCode() const { return pCode;} void SetCode( std::unique_ptr pNew ); bool IsRunning() const { return bRunning;} void SetRunning( bool bVal ); void CompileDBFormula( sc::CompileFormulaContext& rCxt ); void CompileColRowNameFormula( sc::CompileFormulaContext& rCxt ); ScFormulaCell* GetPrevious() const { return pPrevious; } ScFormulaCell* GetNext() const { return pNext; } void SetPrevious( ScFormulaCell* pF ); void SetNext( ScFormulaCell* pF ); ScFormulaCell* GetPreviousTrack() const { return pPreviousTrack; } ScFormulaCell* GetNextTrack() const { return pNextTrack; } void SetPreviousTrack( ScFormulaCell* pF ); void SetNextTrack( ScFormulaCell* pF ); virtual void Notify( const SfxHint& rHint ) override; virtual void Query( SvtListener::QueryBase& rQuery ) const override; void SetCompile( bool bVal ); ScDocument* GetDocument() const { return pDocument;} void SetMatColsRows( SCCOL nCols, SCROW nRows ); void GetMatColsRows( SCCOL& nCols, SCROW& nRows ) const; // cell belongs to ChangeTrack and not to the real document void SetInChangeTrack( bool bVal ); bool IsInChangeTrack() const { return bInChangeTrack;} // For import filters! void AddRecalcMode( ScRecalcMode ); /** For import only: set a double result. */ void SetHybridDouble( double n ); /** For import only: set a string result. If for whatever reason you have to use both, SetHybridDouble() and SetHybridString() or SetHybridFormula(), use SetHybridDouble() first for performance reasons.*/ void SetHybridString( const svl::SharedString& r ); /** For import only: set an empty cell result to be displayed as empty string. If for whatever reason you have to use both, SetHybridDouble() and SetHybridEmptyDisplayedAsString() or SetHybridFormula(), use SetHybridDouble() first for performance reasons and use SetHybridEmptyDisplayedAsString() last because SetHybridDouble() and SetHybridString() will override it.*/ void SetHybridEmptyDisplayedAsString(); /** For import only: set a temporary formula string to be compiled later. If for whatever reason you have to use both, SetHybridDouble() and SetHybridString() or SetHybridFormula(), use SetHybridDouble() first for performance reasons.*/ void SetHybridFormula( const OUString& r, const formula::FormulaGrammar::Grammar eGrammar ); const OUString& GetHybridFormula() const; void SetResultMatrix( SCCOL nCols, SCROW nRows, const ScConstMatrixRef& pMat, const formula::FormulaToken* pUL ); /** For import only: set a double result. Use this instead of SetHybridDouble() if there is no (temporary) formula string because the formula is present as a token array, as it is the case for binary Excel import. */ void SetResultDouble( double n ); void SetResultToken( const formula::FormulaToken* pToken ); svl::SharedString GetResultString() const; bool HasHybridStringResult() const; /* Sets the shared code array to error state in addition to the cell result */ void SetErrCode( FormulaError n ); /* Sets just the result to error */ void SetResultError( FormulaError n ); bool IsHyperLinkCell() const; std::unique_ptr CreateURLObject(); void GetURLResult( OUString& rURL, OUString& rCellText ); /** Determines whether or not the result string contains more than one paragraph */ bool IsMultilineResult(); bool NeedsInterpret() const { if (bIsIterCell) // Shortcut to force return of current value and not enter Interpret() // as we're looping over all iteration cells. return false; if (!IsDirtyOrInTableOpDirty()) return false; return (pDocument->GetAutoCalc() || (cMatrixFlag != ScMatrixMode::NONE)); } bool MaybeInterpret() { if (NeedsInterpret()) { assert(!pDocument->IsThreadedGroupCalcInProgress()); Interpret(); return true; } return false; } /** * Turn a non-grouped cell into the top of a grouped cell. */ ScFormulaCellGroupRef CreateCellGroup( SCROW nLen, bool bInvariant ); const ScFormulaCellGroupRef& GetCellGroup() const { return mxGroup;} void SetCellGroup( const ScFormulaCellGroupRef &xRef ); CompareState CompareByTokenArray( const ScFormulaCell& rOther ) const; bool InterpretFormulaGroup(SCROW nStartOffset = -1, SCROW nEndOffset = -1); // nOnlyNames may be one or more of SC_LISTENING_NAMES_* void StartListeningTo( ScDocument* pDoc ); void StartListeningTo( sc::StartListeningContext& rCxt ); void EndListeningTo( ScDocument* pDoc, ScTokenArray* pArr = nullptr, ScAddress aPos = ScAddress() ); void EndListeningTo( sc::EndListeningContext& rCxt ); bool IsShared() const; bool IsSharedTop() const; SCROW GetSharedTopRow() const; SCROW GetSharedLength() const; // An estimate of the number of cells referenced by the formula sal_Int32 GetWeight() const; ScTokenArray* GetSharedCode(); const ScTokenArray* GetSharedCode() const; void SyncSharedCode(); bool IsPostponedDirty() const { return mbPostponedDirty;} void SetIsExtRef() { mbIsExtRef = true; } bool GetSeenInPath() const { return mbSeenInPath; } void SetSeenInPath(bool bSet) { mbSeenInPath = bSet; } #if DUMP_COLUMN_STORAGE void Dump() const; #endif }; #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */