/* -*- 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_BASIC_SBXVAR_HXX #define INCLUDED_BASIC_SBXVAR_HXX #include #include #include #include class SbxDecimal; struct SbxValues { union { sal_uInt8 nByte; sal_uInt16 nUShort; sal_Unicode nChar; sal_Int16 nInteger; sal_uInt32 nULong; sal_Int32 nLong; unsigned int nUInt; int nInt; sal_uInt64 uInt64; sal_Int64 nInt64; float nSingle; double nDouble; OUString* pOUString; SbxDecimal* pDecimal; SbxBase* pObj; sal_uInt8* pByte; sal_uInt16* pUShort; sal_Unicode* pChar; sal_Int16* pInteger; sal_uInt32* pULong; sal_Int32* pLong; unsigned int* pUInt; int* pInt; sal_uInt64* puInt64; sal_Int64* pnInt64; float* pSingle; double* pDouble; void* pData; }; SbxDataType eType; SbxValues(): pData( NULL ), eType(SbxEMPTY) {} SbxValues( SbxDataType e ): eType(e) {} SbxValues( char _nChar ): nChar( _nChar ), eType(SbxCHAR) {} SbxValues( sal_uInt8 _nByte ): nByte( _nByte ), eType(SbxBYTE) {} SbxValues( short _nInteger ): nInteger( _nInteger ), eType(SbxINTEGER ) {} SbxValues( long _nLong ): nLong( _nLong ), eType(SbxLONG) {} SbxValues( sal_uInt16 _nUShort ): nUShort( _nUShort ), eType(SbxUSHORT) {} SbxValues( sal_uIntPtr _nULong ): nULong( _nULong ), eType(SbxULONG) {} SbxValues( int _nInt ): nInt( _nInt ), eType(SbxINT) {} SbxValues( unsigned int _nUInt ): nUInt( _nUInt ), eType(SbxUINT) {} SbxValues( float _nSingle ): nSingle( _nSingle ), eType(SbxSINGLE) {} SbxValues( double _nDouble ): nDouble( _nDouble ), eType(SbxDOUBLE) {} SbxValues( const OUString* _pString ): pOUString( const_cast(_pString) ), eType(SbxSTRING) {} SbxValues( SbxBase* _pObj ): pObj( _pObj ), eType(SbxOBJECT) {} SbxValues( sal_Unicode* _pChar ): pChar( _pChar ), eType(SbxLPSTR) {} SbxValues( void* _pData ): pData( _pData ), eType(SbxPOINTER) {} }; class BASIC_DLLPUBLIC SbxValue : public SbxBase { // #55226 Transport additional infos BASIC_DLLPRIVATE SbxValue* TheRealValue( bool bObjInObjError ) const; BASIC_DLLPRIVATE SbxValue* TheRealValue() const; protected: SbxValues aData; // Data OUString aPic; // Picture-String OUString aToolString; // tool string copy virtual void Broadcast( sal_uInt32 ); // Broadcast-Call virtual ~SbxValue(); virtual bool LoadData( SvStream&, sal_uInt16 ) SAL_OVERRIDE; virtual bool StoreData( SvStream& ) const SAL_OVERRIDE; public: SBX_DECL_PERSIST_NODATA(SBXCR_SBX,SBXID_VALUE,1); TYPEINFO_OVERRIDE(); SbxValue(); SbxValue( SbxDataType, void* = NULL ); SbxValue( const SbxValue& ); SbxValue& operator=( const SbxValue& ); virtual void Clear() SAL_OVERRIDE; virtual bool IsFixed() const SAL_OVERRIDE; bool IsInteger() const { return GetType() == SbxINTEGER ; } bool IsLong() const { return GetType() == SbxLONG ; } bool IsDouble() const { return GetType() == SbxDOUBLE ; } bool IsString() const { return GetType() == SbxSTRING ; } bool IsCurrency() const { return GetType() == SbxCURRENCY ; } bool IsObject() const { return GetType() == SbxOBJECT ; } bool IsBool() const { return GetType() == SbxBOOL ; } bool IsErr() const { return GetType() == SbxERROR ; } bool IsEmpty() const { return GetType() == SbxEMPTY ; } bool IsNull() const { return GetType() == SbxNULL ; } bool IsNumeric() const; bool IsNumericRTL() const; // #41692 Interface for Basic bool ImpIsNumeric( bool bOnlyIntntl ) const; // Implementation virtual SbxClassType GetClass() const SAL_OVERRIDE; virtual SbxDataType GetType() const SAL_OVERRIDE; SbxDataType GetFullType() const { return aData.eType;} bool SetType( SbxDataType ); bool Get( SbxValues& ) const; const SbxValues& GetValues_Impl() const { return aData; } bool Put( const SbxValues& ); sal_Unicode GetChar() const; sal_Int16 GetInteger() const; sal_Int32 GetLong() const; sal_Int64 GetInt64() const; sal_uInt64 GetUInt64() const; sal_Int64 GetCurrency() const; SbxDecimal* GetDecimal() const; float GetSingle() const; double GetDouble() const; double GetDate() const; bool GetBool() const; const OUString& GetCoreString() const; OUString GetOUString() const; SbxBase* GetObject() const; sal_uInt8 GetByte() const; sal_uInt16 GetUShort() const; sal_uInt32 GetULong() const; bool PutInteger( sal_Int16 ); bool PutLong( sal_Int32 ); bool PutSingle( float ); bool PutDouble( double ); bool PutDate( double ); bool PutBool( bool ); bool PutErr( sal_uInt16 ); bool PutStringExt( const OUString& ); // with extended analysis (International, "sal_True"/"sal_False") bool PutInt64( sal_Int64 ); bool PutUInt64( sal_uInt64 ); bool PutString( const OUString& ); bool PutChar( sal_Unicode ); bool PutByte( sal_uInt8 ); bool PutUShort( sal_uInt16 ); bool PutULong( sal_uInt32 ); bool PutEmpty(); bool PutNull(); // Special methods bool PutDecimal( com::sun::star::bridge::oleautomation::Decimal& rAutomationDec ); bool PutDecimal( SbxDecimal* pDecimal ); // This function is needed for Windows build, don't remove bool fillAutomationDecimal( com::sun::star::bridge::oleautomation::Decimal& rAutomationDec ) const; bool PutCurrency( const sal_Int64& ); // Interface for CDbl in Basic static SbxError ScanNumIntnl( const OUString& rSrc, double& nVal, bool bSingle = false ); bool PutObject( SbxBase* ); bool Convert( SbxDataType ); bool Compute( SbxOperator, const SbxValue& ); bool Compare( SbxOperator, const SbxValue& ) const; bool Scan( const OUString&, sal_uInt16* = NULL ); void Format( OUString&, const OUString* = NULL ) const; // The following operators are definied for easier handling. // TODO: Ensure error conditions (overflow, conversions) // are taken into consideration in Compute and Compare inline bool operator ==( const SbxValue& ) const; inline bool operator !=( const SbxValue& ) const; inline bool operator <( const SbxValue& ) const; inline bool operator >( const SbxValue& ) const; inline bool operator <=( const SbxValue& ) const; inline bool operator >=( const SbxValue& ) const; inline SbxValue& operator *=( const SbxValue& ); inline SbxValue& operator /=( const SbxValue& ); inline SbxValue& operator %=( const SbxValue& ); inline SbxValue& operator +=( const SbxValue& ); inline SbxValue& operator -=( const SbxValue& ); inline SbxValue& operator &=( const SbxValue& ); inline SbxValue& operator |=( const SbxValue& ); inline SbxValue& operator ^=( const SbxValue& ); }; inline bool SbxValue::operator==( const SbxValue& r ) const { return Compare( SbxEQ, r ); } inline bool SbxValue::operator!=( const SbxValue& r ) const { return Compare( SbxNE, r ); } inline bool SbxValue::operator<( const SbxValue& r ) const { return Compare( SbxLT, r ); } inline bool SbxValue::operator>( const SbxValue& r ) const { return Compare( SbxGT, r ); } inline bool SbxValue::operator<=( const SbxValue& r ) const { return Compare( SbxLE, r ); } inline bool SbxValue::operator>=( const SbxValue& r ) const { return Compare( SbxGE, r ); } inline SbxValue& SbxValue::operator*=( const SbxValue& r ) { Compute( SbxMUL, r ); return *this; } inline SbxValue& SbxValue::operator/=( const SbxValue& r ) { Compute( SbxDIV, r ); return *this; } inline SbxValue& SbxValue::operator%=( const SbxValue& r ) { Compute( SbxMOD, r ); return *this; } inline SbxValue& SbxValue::operator+=( const SbxValue& r ) { Compute( SbxPLUS, r ); return *this; } inline SbxValue& SbxValue::operator-=( const SbxValue& r ) { Compute( SbxMINUS, r ); return *this; } inline SbxValue& SbxValue::operator&=( const SbxValue& r ) { Compute( SbxAND, r ); return *this; } inline SbxValue& SbxValue::operator|=( const SbxValue& r ) { Compute( SbxOR, r ); return *this; } inline SbxValue& SbxValue::operator^=( const SbxValue& r ) { Compute( SbxXOR, r ); return *this; } class SbxArray; class SbxInfo; #ifndef SBX_ARRAY_DECL_DEFINED #define SBX_ARRAY_DECL_DEFINED typedef tools::SvRef SbxArrayRef; #endif #ifndef SBX_INFO_DECL_DEFINED #define SBX_INFO_DECL_DEFINED typedef tools::SvRef SbxInfoRef; #endif class SfxBroadcaster; class SbxVariableImpl; class StarBASIC; class BASIC_DLLPUBLIC SbxVariable : public SbxValue { friend class SbMethod; SbxVariableImpl* mpSbxVariableImpl; // Impl data SfxBroadcaster* pCst; // Broadcaster, if needed OUString maName; // Name, if available SbxArrayRef mpPar; // Parameter-Array, if set sal_uInt16 nHash; // Hash-ID for search BASIC_DLLPRIVATE SbxVariableImpl* getImpl(); protected: SbxInfoRef pInfo; // Probably called information sal_uInt32 nUserData; // User data for Call() SbxObject* pParent; // Currently attached object virtual ~SbxVariable(); virtual bool LoadData( SvStream&, sal_uInt16 ) SAL_OVERRIDE; virtual bool StoreData( SvStream& ) const SAL_OVERRIDE; public: SBX_DECL_PERSIST_NODATA(SBXCR_SBX,SBXID_VARIABLE,2); TYPEINFO_OVERRIDE(); SbxVariable(); SbxVariable( SbxDataType, void* = NULL ); SbxVariable( const SbxVariable& ); SbxVariable& operator=( const SbxVariable& ); void Dump( SvStream&, bool bDumpAll=false ); void SetName( const OUString& ); const OUString& GetName( SbxNameType = SbxNAME_NONE ) const; sal_uInt16 GetHashCode() const { return nHash; } virtual void SetModified( bool ) SAL_OVERRIDE; sal_uInt32 GetUserData() const { return nUserData; } void SetUserData( sal_uInt32 n ) { nUserData = n; } virtual SbxDataType GetType() const SAL_OVERRIDE; virtual SbxClassType GetClass() const SAL_OVERRIDE; // Parameter-Interface virtual SbxInfo* GetInfo(); void SetInfo( SbxInfo* p ); void SetParameters( SbxArray* p ); SbxArray* GetParameters() const; // Sfx-Broadcasting-Support: // Due to data reduction and better DLL-hierarchy currently via casting SfxBroadcaster& GetBroadcaster(); bool IsBroadcaster() const { return pCst != NULL; } virtual void Broadcast( sal_uInt32 nHintId ) SAL_OVERRIDE; inline const SbxObject* GetParent() const { return pParent; } SbxObject* GetParent() { return pParent;} virtual void SetParent( SbxObject* ); const OUString& GetDeclareClassName(); void SetDeclareClassName( const OUString& ); void SetComListener( ::com::sun::star::uno::Reference< ::com::sun::star::uno::XInterface > xComListener, StarBASIC* pParentBasic ); void ClearComListener(); static sal_uInt16 MakeHashCode( const OUString& rName ); }; typedef tools::SvRef SbxVariableRef; #endif // INCLUDED_BASIC_SBXVAR_HXX /* vim:set shiftwidth=4 softtabstop=4 expandtab: */