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/* -*- 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 .
*/
#pragma once
#include <memory>
#include <vector>
#include <formula/opcode.hxx>
#include "refdata.hxx"
#include "scdllapi.h"
#include <formula/token.hxx>
#include "calcmacros.hxx"
#include "types.hxx"
// Matrix token constants.
#define MATRIX_TOKEN_HAS_RANGE 1
class ScJumpMatrix;
class ScMatrix;
struct ScSheetLimits;
typedef ::std::vector< ScComplexRefData > ScRefList;
#if DEBUG_FORMULA_COMPILER
void DumpToken(formula::FormulaToken const & rToken);
#endif
/** If rTok1 and rTok2 both are SingleRef or DoubleRef tokens, extend/merge
ranges as needed for ocRange.
@param rPos
The formula's position, used to calculate absolute positions from
relative references.
@param bReuseDoubleRef
If true, a DoubleRef token is reused if passed as rTok1 or rTok2,
else a new DoubleRef token is created and returned.
@return
A reused or new'ed ScDoubleRefToken, or a NULL TokenRef if rTok1 or
rTok2 are not of sv(Single|Double)Ref
*/
formula::FormulaTokenRef extendRangeReference( ScSheetLimits& rLimits, formula::FormulaToken & rTok1, formula::FormulaToken & rTok2, const ScAddress & rPos, bool bReuseDoubleRef );
class ScSingleRefToken final : public formula::FormulaToken
{
private:
ScSheetLimits& mrSheetLimits; // don't use rtl::Reference to avoid ref-counting traffic
ScSingleRefData aSingleRef;
public:
ScSingleRefToken( ScSheetLimits& rLimits, const ScSingleRefData& r, OpCode e = ocPush ) :
FormulaToken( formula::svSingleRef, e ), mrSheetLimits(rLimits), aSingleRef( r ) {}
virtual const ScSingleRefData* GetSingleRef() const override;
virtual ScSingleRefData* GetSingleRef() override;
virtual bool TextEqual( const formula::FormulaToken& rToken ) const override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override { return new ScSingleRefToken(*this); }
};
class ScDoubleRefToken final : public formula::FormulaToken
{
private:
ScSheetLimits& mrSheetLimits; // don't use rtl::Reference to avoid ref-counting traffic
ScComplexRefData aDoubleRef;
public:
ScDoubleRefToken( ScSheetLimits& rLimits, const ScComplexRefData& r, OpCode e = ocPush ) :
FormulaToken( formula::svDoubleRef, e ), mrSheetLimits(rLimits), aDoubleRef( r ) {}
virtual const ScSingleRefData* GetSingleRef() const override;
virtual ScSingleRefData* GetSingleRef() override;
virtual const ScComplexRefData* GetDoubleRef() const override;
virtual ScComplexRefData* GetDoubleRef() override;
virtual const ScSingleRefData* GetSingleRef2() const override;
virtual ScSingleRefData* GetSingleRef2() override;
virtual bool TextEqual( const formula::FormulaToken& rToken ) const override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override { return new ScDoubleRefToken(*this); }
};
class ScMatrixToken final : public formula::FormulaToken
{
private:
ScMatrixRef pMatrix;
public:
ScMatrixToken( ScMatrixRef p );
ScMatrixToken( const ScMatrixToken& );
virtual const ScMatrix* GetMatrix() const override;
virtual ScMatrix* GetMatrix() override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override { return new ScMatrixToken(*this); }
};
/**
* Token storing matrix that represents values in sheet range. It stores
* both the values in matrix form, and the range address the matrix
* represents.
*/
class ScMatrixRangeToken final : public formula::FormulaToken
{
ScMatrixRef mpMatrix;
ScComplexRefData maRef;
public:
ScMatrixRangeToken( const sc::RangeMatrix& rMat );
ScMatrixRangeToken( const ScMatrixRangeToken& );
virtual sal_uInt8 GetByte() const override;
virtual const ScMatrix* GetMatrix() const override;
virtual ScMatrix* GetMatrix() override;
virtual const ScComplexRefData* GetDoubleRef() const override;
virtual ScComplexRefData* GetDoubleRef() override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override;
};
class ScExternalSingleRefToken final : public formula::FormulaToken
{
sal_uInt16 mnFileId;
svl::SharedString maTabName;
ScSingleRefData maSingleRef;
public:
ScExternalSingleRefToken( sal_uInt16 nFileId, svl::SharedString aTabName, const ScSingleRefData& r );
ScExternalSingleRefToken() = delete;
virtual ~ScExternalSingleRefToken() override;
ScExternalSingleRefToken(ScExternalSingleRefToken const &) = default;
ScExternalSingleRefToken(ScExternalSingleRefToken &&) = default;
ScExternalSingleRefToken & operator =(ScExternalSingleRefToken const &) = delete; // due to FormulaToken
ScExternalSingleRefToken & operator =(ScExternalSingleRefToken &&) = delete; // due to FormulaToken
virtual sal_uInt16 GetIndex() const override;
virtual const svl::SharedString & GetString() const override;
virtual const ScSingleRefData* GetSingleRef() const override;
virtual ScSingleRefData* GetSingleRef() override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override { return new ScExternalSingleRefToken(*this); }
};
class ScExternalDoubleRefToken final : public formula::FormulaToken
{
sal_uInt16 mnFileId;
svl::SharedString maTabName; // name of the first sheet
ScComplexRefData maDoubleRef;
public:
ScExternalDoubleRefToken() = delete;
ScExternalDoubleRefToken( sal_uInt16 nFileId, svl::SharedString aTabName, const ScComplexRefData& r );
virtual ~ScExternalDoubleRefToken() override;
ScExternalDoubleRefToken(ScExternalDoubleRefToken const &) = default;
ScExternalDoubleRefToken(ScExternalDoubleRefToken &&) = default;
ScExternalDoubleRefToken & operator =(ScExternalDoubleRefToken const &) = delete; // due to FormulaToken
ScExternalDoubleRefToken & operator =(ScExternalDoubleRefToken &&) = delete; // due to FormulaToken
virtual sal_uInt16 GetIndex() const override;
virtual const svl::SharedString & GetString() const override;
virtual const ScSingleRefData* GetSingleRef() const override;
virtual ScSingleRefData* GetSingleRef() override;
virtual const ScSingleRefData* GetSingleRef2() const override;
virtual ScSingleRefData* GetSingleRef2() override;
virtual const ScComplexRefData* GetDoubleRef() const override;
virtual ScComplexRefData* GetDoubleRef() override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override { return new ScExternalDoubleRefToken(*this); }
};
class ScExternalNameToken final : public formula::FormulaToken
{
sal_uInt16 mnFileId;
svl::SharedString maName;
public:
ScExternalNameToken() = delete;
ScExternalNameToken( sal_uInt16 nFileId, svl::SharedString aName );
virtual ~ScExternalNameToken() override;
ScExternalNameToken(ScExternalNameToken const &) = default;
ScExternalNameToken(ScExternalNameToken &&) = default;
ScExternalNameToken & operator =(ScExternalNameToken const &) = delete; // due to FormulaToken
ScExternalNameToken & operator =(ScExternalNameToken &&) = delete; // due to FormulaToken
virtual sal_uInt16 GetIndex() const override;
virtual const svl::SharedString & GetString() const override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override { return new ScExternalNameToken(*this); }
};
/** Special token to remember details of ocTableRef "structured references". */
class ScTableRefToken final : public formula::FormulaToken
{
public:
enum Item
{
TABLE = 0,
ALL = 1,
HEADERS = 2,
DATA = 4,
TOTALS = 8,
THIS_ROW = 16,
HEADERS_DATA = HEADERS | DATA,
DATA_TOTALS = DATA | TOTALS
};
ScTableRefToken() = delete;
ScTableRefToken( sal_uInt16 nIndex, Item eItem );
ScTableRefToken( const ScTableRefToken& r );
virtual ~ScTableRefToken() override;
virtual sal_uInt16 GetIndex() const override;
virtual void SetIndex( sal_uInt16 n ) override;
virtual sal_Int16 GetSheet() const override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override { return new ScTableRefToken(*this); }
Item GetItem() const;
void AddItem( Item );
void SetAreaRefRPN( formula::FormulaToken* pToken );
formula::FormulaToken* GetAreaRefRPN() const;
private:
formula::FormulaTokenRef mxAreaRefRPN; ///< resulting RPN area
sal_uInt16 mnIndex; ///< index into table / database range collection
Item meItem;
};
// Only created from within the interpreter, no conversion from ScRawToken,
// never added to ScTokenArray!
class ScJumpMatrixToken final : public formula::FormulaToken
{
private:
std::shared_ptr<ScJumpMatrix> mpJumpMatrix;
public:
ScJumpMatrixToken( std::shared_ptr<ScJumpMatrix> p );
ScJumpMatrixToken( const ScJumpMatrixToken & );
virtual ~ScJumpMatrixToken() override;
virtual ScJumpMatrix* GetJumpMatrix() const override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override { return new ScJumpMatrixToken(*this); }
};
// Only created from within the interpreter, no conversion from ScRawToken,
// never added to ScTokenArray!
class ScRefListToken final : public formula::FormulaToken
{
private:
ScRefList aRefList;
bool mbArrayResult; // whether RefList is an array result
public:
ScRefListToken() :
FormulaToken( formula::svRefList ), mbArrayResult(false) {}
explicit ScRefListToken( bool bArrayResult ) :
FormulaToken( formula::svRefList ), mbArrayResult( bArrayResult ) {}
bool IsArrayResult() const;
virtual const ScRefList* GetRefList() const override;
virtual ScRefList* GetRefList() override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override { return new ScRefListToken(*this); }
};
class ScEmptyCellToken final : public formula::FormulaToken
{
bool bInherited :1;
bool bDisplayedAsString :1;
public:
explicit ScEmptyCellToken( bool bInheritedP, bool bDisplayAsString ) :
FormulaToken( formula::svEmptyCell ),
bInherited( bInheritedP ),
bDisplayedAsString( bDisplayAsString ) {}
bool IsInherited() const { return bInherited; }
bool IsDisplayedAsString() const { return bDisplayedAsString; }
virtual double GetDouble() const override;
virtual const svl::SharedString & GetString() const override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override { return new ScEmptyCellToken(*this); }
};
/** Transports the result from the interpreter to the formula cell. */
class ScMatrixCellResultToken : public formula::FormulaToken
{
// No non-const access implemented, silence down unxsols4 complaining about
// the public GetMatrix() hiding the one from FormulaToken.
virtual ScMatrix* GetMatrix() override;
protected:
ScConstMatrixRef xMatrix;
formula::FormulaConstTokenRef xUpperLeft;
public:
ScMatrixCellResultToken( ScConstMatrixRef pMat, const formula::FormulaToken* pUL );
ScMatrixCellResultToken( const ScMatrixCellResultToken& );
virtual ~ScMatrixCellResultToken() override;
virtual double GetDouble() const override;
virtual const svl::SharedString & GetString() const override;
virtual const ScMatrix* GetMatrix() const override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override;
formula::StackVar GetUpperLeftType() const
{
return xUpperLeft ?
xUpperLeft->GetType() :
formula::svUnknown;
}
const formula::FormulaConstTokenRef& GetUpperLeftToken() const { return xUpperLeft; }
void Assign( const ScMatrixCellResultToken & r );
};
/** Stores the matrix result at the formula cell, additionally the range the
matrix formula occupies. */
class ScMatrixFormulaCellToken final : public ScMatrixCellResultToken
{
private:
SCROW nRows;
SCCOL nCols;
public:
ScMatrixFormulaCellToken( SCCOL nC, SCROW nR, const ScConstMatrixRef& pMat, const formula::FormulaToken* pUL );
ScMatrixFormulaCellToken( SCCOL nC, SCROW nR );
ScMatrixFormulaCellToken( const ScMatrixFormulaCellToken& r );
virtual ~ScMatrixFormulaCellToken() override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override { return new ScMatrixFormulaCellToken(*this); }
void SetMatColsRows( SCCOL nC, SCROW nR )
{
nRows = nR;
nCols = nC;
}
void GetMatColsRows( SCCOL & nC, SCROW & nR ) const
{
nR = nRows;
nC = nCols;
}
SCCOL GetMatCols() const { return nCols; }
SCROW GetMatRows() const { return nRows; }
/** Assign matrix result, keep matrix formula
dimension. */
void Assign( const ScMatrixCellResultToken & r );
/** Assign any result, keep matrix formula
dimension. If token is of type
ScMatrixCellResultToken uses the
appropriate Assign() call, other tokens
are assigned to xUpperLeft and xMatrix will
be assigned NULL. */
void Assign( const formula::FormulaToken & r );
/** Modify xUpperLeft if formula::svDouble, or create
new formula::FormulaDoubleToken if not set yet. Does
nothing if xUpperLeft is of different type! */
void SetUpperLeftDouble( double f);
/** Reset matrix and upper left, keep matrix
formula dimension. */
void ResetResult();
private:
/** xUpperLeft is modifiable through SetUpperLeftDouble(), so clone it
whenever an svDouble token is assigned to. */
void CloneUpperLeftIfNecessary();
};
class ScHybridCellToken final : public formula::FormulaToken
{
private:
double mfDouble;
svl::SharedString maString;
OUString maFormula;
bool mbEmptyDisplayedAsString;
public:
ScHybridCellToken(
double f, const svl::SharedString & rStr, OUString aFormula, bool bEmptyDisplayedAsString );
const OUString& GetFormula() const { return maFormula; }
bool IsEmptyDisplayedAsString() const { return mbEmptyDisplayedAsString; }
virtual double GetDouble() const override;
virtual const svl::SharedString & GetString() const override;
virtual bool operator==( const formula::FormulaToken& rToken ) const override;
virtual FormulaToken* Clone() const override { return new ScHybridCellToken(*this); }
};
// Simplify argument passing to RefUpdate methods with ScSingleRefToken or
// ScDoubleRefToken
class SingleDoubleRefModifier
{
ScComplexRefData aDub;
ScSingleRefData* pS;
ScComplexRefData* pD;
SingleDoubleRefModifier( const SingleDoubleRefModifier& ) = delete;
SingleDoubleRefModifier& operator=( const SingleDoubleRefModifier& ) = delete;
public:
SingleDoubleRefModifier( formula::FormulaToken& rT )
{
formula::StackVar eType = rT.GetType();
if ( eType == formula::svSingleRef || eType == formula::svExternalSingleRef )
{
pS = rT.GetSingleRef();
aDub.Ref1 = aDub.Ref2 = *pS;
pD = &aDub;
}
else
{
pS = nullptr;
pD = rT.GetDoubleRef();
// coverity[uninit_member] - aDub intentionally not initialized, unnecessary because unused.
}
}
SingleDoubleRefModifier( ScSingleRefData& rS )
{
pS = &rS;
aDub.Ref1 = aDub.Ref2 = *pS;
pD = &aDub;
}
~SingleDoubleRefModifier()
{
if ( pS )
*pS = (*pD).Ref1;
}
ScComplexRefData& Ref() { return *pD; }
};
class SingleDoubleRefProvider
{
public:
const ScSingleRefData& Ref1;
const ScSingleRefData& Ref2;
SingleDoubleRefProvider( const formula::FormulaToken& r )
: Ref1( *r.GetSingleRef() ),
Ref2( (r.GetType() == formula::svDoubleRef ||
r.GetType() == formula::svExternalDoubleRef) ?
r.GetDoubleRef()->Ref2 : Ref1 )
{}
};
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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