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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_filter.hxx" #include #include #include #include //============================ RASWriter ================================== class RASWriter { private: SvStream & m_rOStm; sal_uInt16 mpOStmOldModus; sal_Bool mbStatus; BitmapReadAccess* mpAcc; sal_uLong mnWidth, mnHeight; sal_uInt16 mnColors, mnDepth; sal_uLong mnRepCount; sal_uInt8 mnRepVal; com::sun::star::uno::Reference< com::sun::star::task::XStatusIndicator > xStatusIndicator; void ImplCallback( sal_uLong nCurrentYPos ); sal_Bool ImplWriteHeader(); void ImplWritePalette(); void ImplWriteBody(); void ImplPutByte( sal_uInt8 ); // RLE decoding public: RASWriter(SvStream &rStream); ~RASWriter(); sal_Bool WriteRAS( const Graphic& rGraphic, FilterConfigItem* pFilterConfigItem ); }; //=================== Methoden von RASWriter ============================== RASWriter::RASWriter(SvStream &rStream) : m_rOStm(rStream) , mbStatus(sal_True) , mpAcc(NULL) , mnRepCount( 0xffffffff ) { } // ------------------------------------------------------------------------ RASWriter::~RASWriter() { } // ------------------------------------------------------------------------ void RASWriter::ImplCallback( sal_uLong nYPos ) { if ( xStatusIndicator.is() ) xStatusIndicator->setValue( (sal_uInt16)( ( 100 * nYPos ) / mnHeight ) ); } // ------------------------------------------------------------------------ sal_Bool RASWriter::WriteRAS( const Graphic& rGraphic, FilterConfigItem* pFilterConfigItem) { Bitmap aBmp; if ( pFilterConfigItem ) { xStatusIndicator = pFilterConfigItem->GetStatusIndicator(); if ( xStatusIndicator.is() ) { rtl::OUString aMsg; xStatusIndicator->start( aMsg, 100 ); } } BitmapEx aBmpEx( rGraphic.GetBitmapEx() ); aBmp = aBmpEx.GetBitmap(); if ( aBmp.GetBitCount() == 4 ) aBmp.Convert( BMP_CONVERSION_8BIT_COLORS ); mnDepth = aBmp.GetBitCount(); // export code below only handles three discrete cases mnDepth = mnDepth <= 1 ? 1 : mnDepth <= 8 ? 8 : 24; mpAcc = aBmp.AcquireReadAccess(); if ( mpAcc ) { mpOStmOldModus = m_rOStm.GetNumberFormatInt(); m_rOStm.SetNumberFormatInt( NUMBERFORMAT_INT_BIGENDIAN ); if ( ImplWriteHeader() ) { if ( mnDepth <= 8 ) ImplWritePalette(); ImplWriteBody(); } aBmp.ReleaseAccess( mpAcc ); } else mbStatus = sal_False; m_rOStm.SetNumberFormatInt( mpOStmOldModus ); if ( xStatusIndicator.is() ) xStatusIndicator->end(); return mbStatus; } // ------------------------------------------------------------------------ sal_Bool RASWriter::ImplWriteHeader() { mnWidth = mpAcc->Width(); mnHeight = mpAcc->Height(); if ( mnDepth <= 8 ) { mnColors = mpAcc->GetPaletteEntryCount(); if (mnColors == 0) mbStatus = sal_False; } if ( mbStatus && mnWidth && mnHeight && mnDepth ) { m_rOStm << (sal_uInt32)0x59a66a95 << (sal_uInt32)mnWidth << (sal_uInt32)mnHeight << (sal_uInt32)mnDepth << (sal_uInt32)(( ( ( ( mnWidth * mnDepth ) + 15 ) >> 4 ) << 1 ) * mnHeight) << (sal_uInt32)2; if ( mnDepth > 8 ) m_rOStm << (sal_uInt32)0 << (sal_uInt32)0; else { m_rOStm << (sal_uInt32)1 << (sal_uInt32)( mnColors * 3 ); } } else mbStatus = sal_False; return mbStatus; } // ------------------------------------------------------------------------ void RASWriter::ImplWritePalette() { sal_uInt16 i; for ( i = 0; i < mnColors; m_rOStm << mpAcc->GetPaletteColor( i++ ).GetRed() ) ; for ( i = 0; i < mnColors; m_rOStm << mpAcc->GetPaletteColor( i++ ).GetGreen() ) ; for ( i = 0; i < mnColors; m_rOStm << mpAcc->GetPaletteColor( i++ ).GetBlue() ) ; } // ------------------------------------------------------------------------ void RASWriter::ImplWriteBody() { sal_uLong x, y; if ( mnDepth == 24 ) { for ( y = 0; y < mnHeight; y++ ) { ImplCallback( y ); // processing output for ( x = 0; x < mnWidth; x++ ) { BitmapColor aColor( mpAcc->GetPixel( y, x ) ); ImplPutByte( aColor.GetBlue() ); // Format ist BGR ImplPutByte( aColor.GetGreen() ); ImplPutByte( aColor.GetRed() ); } if ( x & 1 ) ImplPutByte( 0 ); // WORD ALIGNMENT ??? } } else if ( mnDepth == 8 ) { for ( y = 0; y < mnHeight; y++ ) { ImplCallback( y ); // processing output for ( x = 0; x < mnWidth; x++ ) { ImplPutByte ( mpAcc->GetPixel( y, x ) ); } if ( x & 1 ) ImplPutByte( 0 ); // WORD ALIGNMENT ??? } } else if ( mnDepth == 1 ) { sal_uInt8 nDat = 0; for ( y = 0; y < mnHeight; y++ ) { ImplCallback( y ); // processing output for ( x = 0; x < mnWidth; x++ ) { nDat = ( ( nDat << 1 ) | ( mpAcc->GetPixel ( y, x ) & 1 ) ); if ( ( x & 7 ) == 7 ) ImplPutByte( nDat ); } if ( x & 7 ) ImplPutByte( sal::static_int_cast< sal_uInt8 >(nDat << ( ( ( x & 7 ) ^ 7 ) + 1)) );// write remaining bits if (!( ( x - 1 ) & 0x8 ) ) ImplPutByte( 0 ); // WORD ALIGNMENT ??? } } ImplPutByte( mnRepVal + 1 ); // end of RLE decoding } // ------------------------------------------------------------------------ void RASWriter::ImplPutByte( sal_uInt8 nPutThis ) { if ( mnRepCount == 0xffffffff ) { mnRepCount = 0; mnRepVal = nPutThis; } else { if ( ( nPutThis == mnRepVal ) && ( mnRepCount != 0xff ) ) mnRepCount++; else { if ( mnRepCount == 0 ) { m_rOStm << (sal_uInt8)mnRepVal; if ( mnRepVal == 0x80 ) m_rOStm << (sal_uInt8)0; } else { m_rOStm << (sal_uInt8)0x80; m_rOStm << (sal_uInt8)mnRepCount; m_rOStm << (sal_uInt8)mnRepVal; } mnRepVal = nPutThis; mnRepCount = 0; } } } // ------------------------------------------------------------------------ // --------------------- // - exported function - // --------------------- extern "C" SAL_DLLPUBLIC_EXPORT sal_Bool __LOADONCALLAPI GraphicExport(SvStream& rStream, Graphic& rGraphic, FilterConfigItem* pFilterConfigItem, sal_Bool) { RASWriter aRASWriter(rStream); return aRASWriter.WriteRAS( rGraphic, pFilterConfigItem ); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */