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If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_svl.hxx" #ifndef GCC #endif #include #include "numhead.hxx" // ID's fuer Dateien: #define SV_NUMID_SIZES 0x4200 // STATIC DATA ----------------------------------------------------------- //SEG_EOFGLOBALS() // ======================================================================= /* wird fuer SvNumberformatter nicht gebraucht //#pragma SEG_FUNCDEF(numhead_01) SvNumReadHeader::SvNumReadHeader(SvStream& rNewStream) : rStream( rNewStream ) { sal_uLong nDataSize; rStream >> nDataSize; nDataEnd = rStream.Tell() + nDataSize; } //#pragma SEG_FUNCDEF(numhead_02) SvNumReadHeader::~SvNumReadHeader() { sal_uLong nReadEnd = rStream.Tell(); DBG_ASSERT( nReadEnd <= nDataEnd, "zuviele Bytes gelesen" ); if ( nReadEnd != nDataEnd ) rStream.Seek(nDataEnd); // Rest ueberspringen } //#pragma SEG_FUNCDEF(numhead_03) sal_uLong SvNumReadHeader::BytesLeft() const { sal_uLong nReadEnd = rStream.Tell(); if (nReadEnd <= nDataEnd) return nDataEnd-nReadEnd; DBG_ERROR("Fehler bei SvNumReadHeader::BytesLeft"); return 0; } // ----------------------------------------------------------------------- //#pragma SEG_FUNCDEF(numhead_04) SvNumWriteHeader::SvNumWriteHeader(SvStream& rNewStream, sal_uLong nDefault) : rStream( rNewStream ) { nDataSize = nDefault; rStream << nDataSize; nDataPos = rStream.Tell(); } //#pragma SEG_FUNCDEF(numhead_05) SvNumWriteHeader::~SvNumWriteHeader() { sal_uLong nPos = rStream.Tell(); if ( nPos - nDataPos != nDataSize ) // Default getroffen? { nDataSize = nPos - nDataPos; rStream.Seek(nDataPos - sizeof(sal_uInt32)); rStream << nDataSize; // Groesse am Anfang eintragen rStream.Seek(nPos); } } */ // ======================================================================= //#pragma SEG_FUNCDEF(numhead_06) //! mit Skip() synchron ImpSvNumMultipleReadHeader::ImpSvNumMultipleReadHeader(SvStream& rNewStream) : rStream( rNewStream ) { sal_uInt32 nDataSize; rStream >> nDataSize; sal_uLong nDataPos = rStream.Tell(); nEntryEnd = nDataPos; rStream.SeekRel(nDataSize); sal_uInt16 nID; rStream >> nID; if (nID != SV_NUMID_SIZES) { DBG_ERROR("SV_NUMID_SIZES nicht gefunden"); } sal_uInt32 nSizeTableLen; rStream >> nSizeTableLen; pBuf = new char[nSizeTableLen]; rStream.Read( pBuf, nSizeTableLen ); pMemStream = new SvMemoryStream( pBuf, nSizeTableLen, STREAM_READ ); nEndPos = rStream.Tell(); rStream.Seek( nDataPos ); } //#pragma SEG_FUNCDEF(numhead_07) ImpSvNumMultipleReadHeader::~ImpSvNumMultipleReadHeader() { DBG_ASSERT( pMemStream->Tell() == pMemStream->GetEndOfData(), "Sizes nicht vollstaendig gelesen" ); delete pMemStream; delete [] pBuf; rStream.Seek(nEndPos); } //! mit ctor synchron // static void ImpSvNumMultipleReadHeader::Skip( SvStream& rStream ) { sal_uInt32 nDataSize; rStream >> nDataSize; rStream.SeekRel( nDataSize ); sal_uInt16 nID; rStream >> nID; if ( nID != SV_NUMID_SIZES ) { DBG_ERROR("SV_NUMID_SIZES nicht gefunden"); } sal_uInt32 nSizeTableLen; rStream >> nSizeTableLen; rStream.SeekRel( nSizeTableLen ); } //#pragma SEG_FUNCDEF(numhead_08) void ImpSvNumMultipleReadHeader::EndEntry() { sal_uLong nPos = rStream.Tell(); DBG_ASSERT( nPos <= nEntryEnd, "zuviel gelesen" ); if ( nPos != nEntryEnd ) rStream.Seek( nEntryEnd ); // Rest ueberspringen } //#pragma SEG_FUNCDEF(numhead_0d) void ImpSvNumMultipleReadHeader::StartEntry() { sal_uLong nPos = rStream.Tell(); sal_uInt32 nEntrySize; (*pMemStream) >> nEntrySize; nEntryEnd = nPos + nEntrySize; } //#pragma SEG_FUNCDEF(numhead_09) sal_uLong ImpSvNumMultipleReadHeader::BytesLeft() const { sal_uLong nReadEnd = rStream.Tell(); if (nReadEnd <= nEntryEnd) return nEntryEnd-nReadEnd; DBG_ERROR("Fehler bei ImpSvNumMultipleReadHeader::BytesLeft"); return 0; } // ----------------------------------------------------------------------- //#pragma SEG_FUNCDEF(numhead_0a) ImpSvNumMultipleWriteHeader::ImpSvNumMultipleWriteHeader(SvStream& rNewStream, sal_uLong nDefault) : rStream( rNewStream ), aMemStream( 4096, 4096 ) { nDataSize = nDefault; rStream << nDataSize; nDataPos = rStream.Tell(); nEntryStart = nDataPos; } //#pragma SEG_FUNCDEF(numhead_0b) ImpSvNumMultipleWriteHeader::~ImpSvNumMultipleWriteHeader() { sal_uLong nDataEnd = rStream.Tell(); rStream << (sal_uInt16) SV_NUMID_SIZES; rStream << static_cast(aMemStream.Tell()); rStream.Write( aMemStream.GetData(), aMemStream.Tell() ); if ( nDataEnd - nDataPos != nDataSize ) // Default getroffen? { nDataSize = nDataEnd - nDataPos; sal_uLong nPos = rStream.Tell(); rStream.Seek(nDataPos-sizeof(sal_uInt32)); rStream << nDataSize; // Groesse am Anfang eintragen rStream.Seek(nPos); } } //#pragma SEG_FUNCDEF(numhead_0c) void ImpSvNumMultipleWriteHeader::EndEntry() { sal_uLong nPos = rStream.Tell(); aMemStream << static_cast(nPos - nEntryStart); } //#pragma SEG_FUNCDEF(numhead_0e) void ImpSvNumMultipleWriteHeader::StartEntry() { sal_uLong nPos = rStream.Tell(); nEntryStart = nPos; }