/* -*- 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_TOKEN_HXX #define INCLUDED_FORMULA_TOKEN_HXX #include #include #include #include #include #include #include #include #include #include #include #include class ScJumpMatrix; class ScMatrix; struct ScComplexRefData; struct ScSingleRefData; enum class FormulaError : sal_uInt16; namespace formula { enum StackVar : sal_uInt8 { svByte, svDouble, svString, svSingleRef, svDoubleRef, svMatrix, svIndex, svJump, svExternal, // Byte + String svFAP, // FormulaAutoPilot only, ever exported svJumpMatrix, svRefList, // ocUnion result svEmptyCell, // Result is an empty cell, e.g. in LOOKUP() svMatrixCell, // Result is a matrix with bells and // whistles as needed for _the_ matrix // formula result. svHybridCell, // A temporary condition of a formula // cell during import, having a double // and/or string result and a formula // string to be compiled. svExternalSingleRef, svExternalDoubleRef, svExternalName, svSingleVectorRef, svDoubleVectorRef, svError, // error token svMissing, // 0 or "" svSep, // separator, ocSep, ocOpen, ocClose svUnknown // unknown StackType }; // Only to be used for debugging output. No guarantee of stability of the // return value. // Turn this into an operator<< when StackVar becomes a scoped enum inline std::string StackVarEnumToString(StackVar const e) { switch (e) { case svByte: return "Byte"; case svDouble: return "Double"; case svString: return "String"; case svSingleRef: return "SingleRef"; case svDoubleRef: return "DoubleRef"; case svMatrix: return "Matrix"; case svIndex: return "Index"; case svJump: return "Jump"; case svExternal: return "External"; case svFAP: return "FAP"; case svJumpMatrix: return "JumpMatrix"; case svRefList: return "RefList"; case svEmptyCell: return "EmptyCell"; case svMatrixCell: return "MatrixCell"; case svHybridCell: return "HybridCell"; case svExternalSingleRef: return "ExternalSingleRef"; case svExternalDoubleRef: return "ExternalDoubleRef"; case svExternalName: return "ExternalName"; case svSingleVectorRef: return "SingleVectorRef"; case svDoubleVectorRef: return "DoubleVectorRef"; case svError: return "Error"; case svMissing: return "Missing"; case svSep: return "Sep"; case svUnknown: return "Unknown"; } std::ostringstream os; os << static_cast(e); return os.str(); } class FORMULA_DLLPUBLIC FormulaToken { OpCode eOp; const StackVar eType; // type of data mutable oslInterlockedCount mnRefCnt; // reference count FormulaToken& operator=( const FormulaToken& ) = delete; public: FormulaToken( StackVar eTypeP,OpCode e = ocPush ); FormulaToken( const FormulaToken& r ); virtual ~FormulaToken(); void Delete() { delete this; } void DeleteIfZeroRef() { if (mnRefCnt == 0) delete this; } StackVar GetType() const { return eType; } bool IsFunction() const; // pure functions, no operators bool IsExternalRef() const; bool IsRef() const; sal_uInt8 GetParamCount() const; void IncRef() const { osl_atomic_increment(&mnRefCnt); } void DecRef() const { if (!osl_atomic_decrement(&mnRefCnt)) const_cast(this)->Delete(); } oslInterlockedCount GetRef() const { return mnRefCnt; } OpCode GetOpCode() const { return eOp; } bool IsInForceArray() const; /** Dummy methods to avoid switches and casts where possible, the real token classes have to override the appropriate method[s]. The only methods valid anytime if not overridden are: - GetByte() since this represents the count of parameters to a function which of course is 0 on non-functions. FormulaByteToken and ScExternal do override it. - GetInForceArray() since also this is only used for operators and functions and is ParamClass::Unknown for other tokens. Any other non-overridden method pops up an assertion. */ virtual sal_uInt8 GetByte() const; virtual void SetByte( sal_uInt8 n ); virtual ParamClass GetInForceArray() const; virtual void SetInForceArray( ParamClass c ); virtual double GetDouble() const; virtual double& GetDoubleAsReference(); virtual sal_Int16 GetDoubleType() const; virtual void SetDoubleType( sal_Int16 nType ); virtual svl::SharedString GetString() const; virtual void SetString( const svl::SharedString& rStr ); virtual sal_uInt16 GetIndex() const; virtual void SetIndex( sal_uInt16 n ); virtual sal_Int16 GetSheet() const; virtual void SetSheet( sal_Int16 n ); virtual short* GetJump() const; virtual const OUString& GetExternal() const; virtual FormulaToken* GetFAPOrigToken() const; virtual FormulaError GetError() const; virtual void SetError( FormulaError ); virtual const ScSingleRefData* GetSingleRef() const; virtual ScSingleRefData* GetSingleRef(); virtual const ScComplexRefData* GetDoubleRef() const; virtual ScComplexRefData* GetDoubleRef(); virtual const ScSingleRefData* GetSingleRef2() const; virtual ScSingleRefData* GetSingleRef2(); virtual const ScMatrix* GetMatrix() const; virtual ScMatrix* GetMatrix(); virtual ScJumpMatrix* GetJumpMatrix() const; virtual const std::vector* GetRefList() const; virtual std::vector* GetRefList(); virtual FormulaToken* Clone() const { return new FormulaToken(*this); } virtual bool TextEqual( const formula::FormulaToken& rToken ) const; virtual bool operator==( const FormulaToken& rToken ) const; /** This is dirty and only the compiler should use it! */ struct PrivateAccess { friend class FormulaCompiler; private: PrivateAccess() { } }; void NewOpCode( OpCode e, const PrivateAccess& ) { eOp = e; } }; inline void intrusive_ptr_add_ref(const FormulaToken* p) { p->IncRef(); } inline void intrusive_ptr_release(const FormulaToken* p) { p->DecRef(); } class FORMULA_DLLPUBLIC FormulaByteToken : public FormulaToken { private: sal_uInt8 nByte; ParamClass eInForceArray; protected: FormulaByteToken( OpCode e, sal_uInt8 n, StackVar v, ParamClass c ) : FormulaToken( v,e ), nByte( n ), eInForceArray( c ) {} public: FormulaByteToken( OpCode e, sal_uInt8 n, ParamClass c ) : FormulaToken( svByte,e ), nByte( n ), eInForceArray( c ) {} FormulaByteToken( OpCode e, sal_uInt8 n ) : FormulaToken( svByte,e ), nByte( n ), eInForceArray( ParamClass::Unknown ) {} FormulaByteToken( OpCode e ) : FormulaToken( svByte,e ), nByte( 0 ), eInForceArray( ParamClass::Unknown ) {} FormulaByteToken( const FormulaByteToken& r ) : FormulaToken( r ), nByte( r.nByte ), eInForceArray( r.eInForceArray ) {} virtual FormulaToken* Clone() const override { return new FormulaByteToken(*this); } virtual sal_uInt8 GetByte() const override; virtual void SetByte( sal_uInt8 n ) override; virtual ParamClass GetInForceArray() const override; virtual void SetInForceArray( ParamClass c ) override; virtual bool operator==( const FormulaToken& rToken ) const override; }; // A special token for the FormulaAutoPilot only. Keeps a reference pointer of // the token of which it was created for comparison. class FORMULA_DLLPUBLIC FormulaFAPToken final : public FormulaByteToken { private: FormulaTokenRef pOrigToken; public: FormulaFAPToken( OpCode e, sal_uInt8 n, FormulaToken* p ) : FormulaByteToken( e, n, svFAP, ParamClass::Unknown ), pOrigToken( p ) {} FormulaFAPToken( const FormulaFAPToken& r ) : FormulaByteToken( r ), pOrigToken( r.pOrigToken ) {} virtual FormulaToken* Clone() const override { return new FormulaFAPToken(*this); } virtual FormulaToken* GetFAPOrigToken() const override; virtual bool operator==( const FormulaToken& rToken ) const override; }; class FORMULA_DLLPUBLIC FormulaDoubleToken : public FormulaToken { private: double fDouble; public: FormulaDoubleToken( double f ) : FormulaToken( svDouble ), fDouble( f ) {} FormulaDoubleToken( const FormulaDoubleToken& r ) : FormulaToken( r ), fDouble( r.fDouble ) {} virtual FormulaToken* Clone() const override { return new FormulaDoubleToken(*this); } virtual double GetDouble() const override; virtual double& GetDoubleAsReference() override; virtual sal_Int16 GetDoubleType() const override; ///< always returns 0 for "not typed" virtual bool operator==( const FormulaToken& rToken ) const override; }; class FORMULA_DLLPUBLIC FormulaTypedDoubleToken final : public FormulaDoubleToken { private: sal_Int16 mnType; /**< Can hold, for example, a value of SvNumFormatType, or by contract any other classification. */ public: FormulaTypedDoubleToken( double f, sal_Int16 nType ) : FormulaDoubleToken( f ), mnType( nType ) {} FormulaTypedDoubleToken( const FormulaTypedDoubleToken& r ) : FormulaDoubleToken( r ), mnType( r.mnType ) {} virtual FormulaToken* Clone() const override { return new FormulaTypedDoubleToken(*this); } virtual sal_Int16 GetDoubleType() const override; virtual void SetDoubleType( sal_Int16 nType ) override; virtual bool operator==( const FormulaToken& rToken ) const override; }; class FORMULA_DLLPUBLIC FormulaStringToken final : public FormulaToken { svl::SharedString maString; public: FormulaStringToken( const svl::SharedString& r ); FormulaStringToken( const FormulaStringToken& r ); virtual FormulaToken* Clone() const override; virtual svl::SharedString GetString() const override; virtual void SetString( const svl::SharedString& rStr ) override; virtual bool operator==( const FormulaToken& rToken ) const override; }; /** Identical to FormulaStringToken, but with explicit OpCode instead of implicit ocPush, and an optional sal_uInt8 for ocBad tokens. */ class FORMULA_DLLPUBLIC FormulaStringOpToken final : public FormulaByteToken { svl::SharedString maString; public: FormulaStringOpToken( OpCode e, const svl::SharedString& r ); FormulaStringOpToken( const FormulaStringOpToken& r ); virtual FormulaToken* Clone() const override; virtual svl::SharedString GetString() const override; virtual void SetString( const svl::SharedString& rStr ) override; virtual bool operator==( const FormulaToken& rToken ) const override; }; class FORMULA_DLLPUBLIC FormulaIndexToken final : public FormulaToken { private: sal_uInt16 nIndex; sal_Int16 mnSheet; public: FormulaIndexToken( OpCode e, sal_uInt16 n, sal_Int16 nSheet = -1 ) : FormulaToken( svIndex, e ), nIndex( n ), mnSheet( nSheet ) {} FormulaIndexToken( const FormulaIndexToken& r ) : FormulaToken( r ), nIndex( r.nIndex ), mnSheet( r.mnSheet ) {} virtual FormulaToken* Clone() const override { return new FormulaIndexToken(*this); } virtual sal_uInt16 GetIndex() const override; virtual void SetIndex( sal_uInt16 n ) override; virtual sal_Int16 GetSheet() const override; virtual void SetSheet( sal_Int16 n ) override; virtual bool operator==( const FormulaToken& rToken ) const override; }; class FORMULA_DLLPUBLIC FormulaExternalToken final : public FormulaToken { private: OUString aExternal; sal_uInt8 nByte; public: FormulaExternalToken( OpCode e, sal_uInt8 n, const OUString& r ) : FormulaToken( svExternal, e ), aExternal( r ), nByte( n ) {} FormulaExternalToken( OpCode e, const OUString& r ) : FormulaToken(svExternal, e ), aExternal( r ), nByte( 0 ) {} FormulaExternalToken( const FormulaExternalToken& r ) : FormulaToken( r ), aExternal( r.aExternal ), nByte( r.nByte ) {} virtual FormulaToken* Clone() const override { return new FormulaExternalToken(*this); } virtual const OUString& GetExternal() const override; virtual sal_uInt8 GetByte() const override; virtual void SetByte( sal_uInt8 n ) override; virtual bool operator==( const FormulaToken& rToken ) const override; }; class FORMULA_DLLPUBLIC FormulaMissingToken final : public FormulaToken { public: FormulaMissingToken() : FormulaToken( svMissing,ocMissing ) {} FormulaMissingToken( const FormulaMissingToken& r ) : FormulaToken( r ) {} virtual FormulaToken* Clone() const override { return new FormulaMissingToken(*this); } virtual double GetDouble() const override; virtual svl::SharedString GetString() const override; virtual bool operator==( const FormulaToken& rToken ) const override; }; class FORMULA_DLLPUBLIC FormulaJumpToken final : public FormulaToken { private: std::unique_ptr pJump; ParamClass eInForceArray; public: FormulaJumpToken( OpCode e, short const * p ) : FormulaToken( formula::svJump , e), eInForceArray( ParamClass::Unknown) { pJump.reset( new short[ p[0] + 1 ] ); memcpy( pJump.get(), p, (p[0] + 1) * sizeof(short) ); } FormulaJumpToken( const FormulaJumpToken& r ) : FormulaToken( r ), eInForceArray( r.eInForceArray) { pJump.reset( new short[ r.pJump[0] + 1 ] ); memcpy( pJump.get(), r.pJump.get(), (r.pJump[0] + 1) * sizeof(short) ); } virtual ~FormulaJumpToken() override; virtual short* GetJump() const override; virtual bool operator==( const formula::FormulaToken& rToken ) const override; virtual FormulaToken* Clone() const override { return new FormulaJumpToken(*this); } virtual ParamClass GetInForceArray() const override; virtual void SetInForceArray( ParamClass c ) override; }; class FORMULA_DLLPUBLIC FormulaUnknownToken final : public FormulaToken { public: FormulaUnknownToken( OpCode e ) : FormulaToken( svUnknown, e ) {} FormulaUnknownToken( const FormulaUnknownToken& r ) : FormulaToken( r ) {} virtual FormulaToken* Clone() const override { return new FormulaUnknownToken(*this); } virtual bool operator==( const FormulaToken& rToken ) const override; }; class FORMULA_DLLPUBLIC FormulaErrorToken final : public FormulaToken { FormulaError nError; public: FormulaErrorToken( FormulaError nErr ) : FormulaToken( svError ), nError( nErr) {} FormulaErrorToken( const FormulaErrorToken& r ) : FormulaToken( r ), nError( r.nError) {} virtual FormulaToken* Clone() const override { return new FormulaErrorToken(*this); } virtual FormulaError GetError() const override; virtual void SetError( FormulaError nErr ) override; virtual bool operator==( const FormulaToken& rToken ) const override; }; } // formula #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */