/* -*- 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 #include #include #include #include "types.hxx" #include "formularesult.hxx" #define ENABLE_THREADED_OPENCL_KERNEL_COMPILATION 0 namespace sc { class CLBuildKernelThread; class CompiledFormula; class StartListeningContext; class EndListeningContext; struct RefUpdateContext; struct RefUpdateInsertTabContext; struct RefUpdateDeleteTabContext; struct RefUpdateMoveTabContext; class CompileFormulaContext; } class ScFormulaCell; class ScProgress; class ScTokenArray; struct ScSimilarFormulaDelta; struct SC_DLLPUBLIC ScFormulaCellGroup : boost::noncopyable { mutable size_t mnRefCount; ScTokenArray* mpCode; sc::CompiledFormula* mpCompiledFormula; ScFormulaCell *mpTopCell; SCROW mnLength; // How many of these do we have ? short mnFormatType; bool mbInvariant:1; bool mbSubTotal:1; sal_uInt8 meCalcState; sal_uInt8 meKernelState; ScFormulaCellGroup(); ~ScFormulaCellGroup(); void scheduleCompilation(); void setCode( const ScTokenArray& rCode ); void setCode( ScTokenArray* pCode ); void compileCode( ScDocument& rDoc, const ScAddress& rPos, formula::FormulaGrammar::Grammar eGram ); void compileOpenCLKernel(); #if ENABLE_THREADED_OPENCL_KERNEL_COMPILATION static int snCount; static rtl::Reference sxCompilationThread; #endif }; 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 ScMatrixMode { MM_NONE = 0, // No matrix formula MM_FORMULA = 1, // Upper left matrix formula cell MM_REFERENCE = 2, // Remaining cells, via ocMatRef reference token MM_FAKE = 3 // Interpret "as-if" matrix formula (legacy) }; class SC_DLLPUBLIC ScFormulaCell : public SvtListener { private: ScFormulaCellGroupRef mxGroup; // re-factoring hack - group of formulae we're part of. ScFormulaResult aResult; formula::FormulaGrammar::Grammar eTempGrammar; // used between string (creation) and (re)compilation ScTokenArray* pCode; // The (new) token array ScDocument* pDocument; ScFormulaCell* pPrevious; ScFormulaCell* pNext; ScFormulaCell* pPreviousTrack; ScFormulaCell* pNextTrack; sal_uInt16 nSeenInIteration; // Iteration cycle in which the cell was last encountered sal_uInt8 cMatrixFlag; // One of ScMatrixMode short nFormatType; bool bDirty : 1; // Must be (re)calculated 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 bTableOpDirty : 1; // Dirty flag for TableOp bool bNeedListening : 1; // Listeners need to be re-established after UpdateReference bool mbNeedsNumberFormat : 1; // set the calculated number format as hard number format bool mbPostponedDirty : 1; // if cell needs to be set dirty later enum ScInterpretTailParameter { SCITP_NORMAL, SCITP_FROM_ITERATION, SCITP_CLOSE_ITERATION_CIRCLE }; void InterpretTail( ScInterpretTailParameter ); /** * Update reference in response to cell copy-n-paste. */ bool UpdateReferenceOnCopy( const sc::RefUpdateContext& rCxt, ScDocument* pUndoDoc, const ScAddress* pUndoCellPos ); ScFormulaCell( const ScFormulaCell& ); public: enum CompareState { NotEqual = 0, EqualInvariant, EqualRelativeRef }; #ifdef USE_MEMPOOL DECL_FIXEDMEMPOOL_NEWDEL( ScFormulaCell ) #endif ScAddress aPos; virtual ~ScFormulaCell(); ScFormulaCell* Clone() const; ScFormulaCell* Clone( const ScAddress& rPos, int nCloneFlags ) 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, ScTokenArray* pArray, const formula::FormulaGrammar::Grammar eGrammar = formula::FormulaGrammar::GRAM_DEFAULT, sal_uInt8 cMatInd = MM_NONE ); ScFormulaCell( ScDocument* pDoc, const ScAddress& rPos, const ScTokenArray& rArray, const formula::FormulaGrammar::Grammar eGrammar = formula::FormulaGrammar::GRAM_DEFAULT, sal_uInt8 cMatInd = MM_NONE ); ScFormulaCell( ScDocument* pDoc, const ScAddress& rPos, const ScFormulaCellGroupRef& xGroup, const formula::FormulaGrammar::Grammar = formula::FormulaGrammar::GRAM_DEFAULT, sal_uInt8 = MM_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, therefor 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, sal_uInt8 cMatInd = MM_NONE ); ScFormulaCell( const ScFormulaCell& rCell, ScDocument& rDoc, const ScAddress& rPos, int nCloneFlags = SC_CLONECELL_DEFAULT ); size_t GetHash() const; ScFormulaVectorState GetVectorState() const; void GetFormula( OUString& rFormula, const formula::FormulaGrammar::Grammar = formula::FormulaGrammar::GRAM_DEFAULT ) const; void GetFormula( OUStringBuffer& rBuffer, const formula::FormulaGrammar::Grammar = formula::FormulaGrammar::GRAM_DEFAULT ) const; OUString GetFormula( sc::CompileFormulaContext& rCxt ) 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; 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;} short GetFormatType() const { return nFormatType; } void Compile(const OUString& rFormula, bool bNoListening = false, const formula::FormulaGrammar::Grammar = formula::FormulaGrammar::GRAM_DEFAULT ); 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 MarkUsedExternalReferences(); void Interpret(); 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; bool HasRelNameReference() const; bool UpdateReference( const sc::RefUpdateContext& rCxt, ScDocument* pUndoDoc = NULL, const ScAddress* pUndoCellPos = NULL ); /** * 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( sc::RefUpdateInsertTabContext& rCxt ); void UpdateInsertTabAbs(SCTAB nTable); bool UpdateDeleteTab( sc::RefUpdateDeleteTabContext& rCxt ); void UpdateMoveTab( sc::RefUpdateMoveTabContext& rCxt, SCTAB nTabNo ); void UpdateRenameTab(SCTAB nTable, const OUString& rName); bool TestTabRefAbs(SCTAB nTable); void UpdateCompile( bool bForceIfNameInUse = false ); void FindRangeNamesInUse(std::set& 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 IsHybridValueCell(); // for cells after import to deal with inherited number formats double GetValue(); svl::SharedString GetString(); const ScMatrix* GetMatrix(); bool GetMatrixOrigin( ScAddress& rPos ) const; void GetResultDimensions( SCSIZE& rCols, SCSIZE& rRows ); sal_uInt16 GetMatrixEdge( ScAddress& rOrgPos ) const; sal_uInt16 GetErrCode(); // interpret first if necessary sal_uInt16 GetRawError(); // don't interpret, just return code or result error bool GetErrorOrValue( sal_uInt16& rErr, double& rVal ); sc::FormulaResultValue GetResult(); sc::FormulaResultValue GetResult() const; sal_uInt8 GetMatrixFlag() const { return cMatrixFlag;} ScTokenArray* GetCode() { return pCode;} const ScTokenArray* GetCode() const { return pCode;} void SetCode( ScTokenArray* 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 ) SAL_OVERRIDE; virtual void Query( SvtListener::QueryBase& rQuery ) const SAL_OVERRIDE; void SetCompile( bool bVal ); ScDocument* GetDocument() const { return pDocument;} void SetMatColsRows( SCCOL nCols, SCROW nRows, bool bDirtyFlag=true ); 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( formula::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 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 ); OUString GetHybridFormula() const; void SetResultMatrix( SCCOL nCols, SCROW nRows, const ScConstMatrixRef& pMat, 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; void SetErrCode( sal_uInt16 n ); bool IsHyperLinkCell() const; EditTextObject* CreateURLObject(); void GetURLResult( OUString& rURL, OUString& rCellText ); /** Determines whether or not the result string contains more than one paragraph */ bool IsMultilineResult(); void MaybeInterpret(); /** * Turn a non-grouped cell into the top of a grouped cell. */ ScFormulaCellGroupRef CreateCellGroup( SCROW nLen, bool bInvariant ); ScFormulaCellGroupRef GetCellGroup() const { return mxGroup;} void SetCellGroup( const ScFormulaCellGroupRef &xRef ); CompareState CompareByTokenArray( ScFormulaCell& rOther ) const; bool InterpretFormulaGroup(); bool InterpretInvariantFormulaGroup(); // 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 = NULL, ScAddress aPos = ScAddress() ); void EndListeningTo( sc::EndListeningContext& rCxt ); bool IsShared() const; bool IsSharedTop() const; SCROW GetSharedTopRow() const; SCROW GetSharedLength() const; ScTokenArray* GetSharedCode(); const ScTokenArray* GetSharedCode() const; void SyncSharedCode(); bool IsPostponedDirty() const { return mbPostponedDirty;} }; #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */