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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 .
*/
#include <vcl/graph.hxx>
#include <vcl/bmpacc.hxx>
class FilterConfigItem;
#define RAS_TYPE_OLD 0x00000000 // supported formats by this filter
#define RAS_TYPE_STANDARD 0x00000001
#define RAS_TYPE_BYTE_ENCODED 0x00000002
#define RAS_TYPE_RGB_FORMAT 0x00000003
#define RAS_COLOR_NO_MAP 0x00000000
#define RAS_COLOR_RGB_MAP 0x00000001
#define RAS_COLOR_RAW_MAP 0x00000002
#define SUNRASTER_MAGICNUMBER 0x59a66a95
//============================ RASReader ==================================
class RASReader {
private:
SvStream& m_rRAS; // Die einzulesende RAS-Datei
bool mbStatus;
Bitmap maBmp;
sal_uInt32 mnWidth, mnHeight; // Bildausmass in Pixeln
sal_uInt16 mnDstBitsPerPix;
sal_uInt16 mnDstColors;
sal_uInt32 mnDepth, mnImageDatSize, mnType;
sal_uInt32 mnColorMapType, mnColorMapSize;
sal_uInt8 mnRepCount, mnRepVal; // RLE Decoding
bool mbPalette;
bool ImplReadBody(BitmapWriteAccess * pAcc);
bool ImplReadHeader();
sal_uInt8 ImplGetByte();
public:
RASReader(SvStream &rRAS);
~RASReader();
bool ReadRAS(Graphic & rGraphic);
};
//=================== Methoden von RASReader ==============================
RASReader::RASReader(SvStream &rRAS)
: m_rRAS(rRAS)
, mbStatus(true)
, mnWidth(0)
, mnHeight(0)
, mnDstBitsPerPix(0)
, mnDstColors(0)
, mnDepth(0)
, mnImageDatSize(0)
, mnType(0)
, mnColorMapType(0)
, mnColorMapSize(0)
, mnRepCount(0)
, mnRepVal(0)
, mbPalette(false)
{
}
RASReader::~RASReader()
{
}
bool RASReader::ReadRAS(Graphic & rGraphic)
{
sal_uInt32 nMagicNumber;
if ( m_rRAS.GetError() )
return false;
m_rRAS.SetNumberFormatInt( NUMBERFORMAT_INT_BIGENDIAN );
m_rRAS.ReadUInt32( nMagicNumber );
if ( nMagicNumber != SUNRASTER_MAGICNUMBER )
return false;
// Kopf einlesen:
if ( ( mbStatus = ImplReadHeader() ) == false )
return false;
maBmp = Bitmap( Size( mnWidth, mnHeight ), mnDstBitsPerPix );
Bitmap::ScopedWriteAccess pAcc(maBmp);
if ( pAcc == 0 )
return false;
if ( mnDstBitsPerPix <= 8 ) // paletten bildchen
{
if ( mnColorMapType == RAS_COLOR_RAW_MAP ) // RAW Colormap wird geskipped
{
sal_uLong nCurPos = m_rRAS.Tell();
m_rRAS.Seek( nCurPos + mnColorMapSize );
}
else if ( mnColorMapType == RAS_COLOR_RGB_MAP ) // RGB koennen wir auslesen
{
mnDstColors = (sal_uInt16)( mnColorMapSize / 3 );
if ( ( 1 << mnDstBitsPerPix ) < mnDstColors )
return false;
if ( ( mnDstColors >= 2 ) && ( ( mnColorMapSize % 3 ) == 0 ) )
{
pAcc->SetPaletteEntryCount( mnDstColors );
sal_uInt16 i;
sal_uInt8 nRed[256], nGreen[256], nBlue[256];
for ( i = 0; i < mnDstColors; i++ ) m_rRAS.ReadUChar( nRed[ i ] );
for ( i = 0; i < mnDstColors; i++ ) m_rRAS.ReadUChar( nGreen[ i ] );
for ( i = 0; i < mnDstColors; i++ ) m_rRAS.ReadUChar( nBlue[ i ] );
for ( i = 0; i < mnDstColors; i++ )
{
pAcc->SetPaletteColor( i, BitmapColor( nRed[ i ], nGreen[ i ], nBlue[ i ] ) );
}
mbPalette = true;
}
else
return false;
}
else if ( mnColorMapType != RAS_COLOR_NO_MAP ) // alles andere ist kein standard
return false;
if ( !mbPalette )
{
mnDstColors = 1 << mnDstBitsPerPix;
pAcc->SetPaletteEntryCount( mnDstColors );
for ( sal_uInt16 i = 0; i < mnDstColors; i++ )
{
sal_uLong nCount = 255 - ( 255 * i / ( mnDstColors - 1 ) );
pAcc->SetPaletteColor( i, BitmapColor( (sal_uInt8)nCount, (sal_uInt8)nCount, (sal_uInt8)nCount ) );
}
}
}
else
{
if ( mnColorMapType != RAS_COLOR_NO_MAP ) // when graphic has more than 256 colors and a color map we skip
{ // the colormap
sal_uLong nCurPos = m_rRAS.Tell();
m_rRAS.Seek( nCurPos + mnColorMapSize );
}
}
// Bitmap-Daten einlesen
mbStatus = ImplReadBody(pAcc.get());
if ( mbStatus )
rGraphic = maBmp;
return mbStatus;
}
bool RASReader::ImplReadHeader()
{
m_rRAS.ReadUInt32( mnWidth ).ReadUInt32( mnHeight ).ReadUInt32( mnDepth ).ReadUInt32( mnImageDatSize ). ReadUInt32( mnType ).ReadUInt32( mnColorMapType ).ReadUInt32( mnColorMapSize );
if ( mnWidth == 0 || mnHeight == 0 )
mbStatus = false;
switch ( mnDepth )
{
case 24 :
case 8 :
case 1 :
mnDstBitsPerPix = (sal_uInt16)mnDepth;
break;
case 32 :
mnDstBitsPerPix = 24;
break;
default :
mbStatus = false;
}
switch ( mnType )
{
case RAS_TYPE_OLD :
case RAS_TYPE_STANDARD :
case RAS_TYPE_RGB_FORMAT :
case RAS_TYPE_BYTE_ENCODED : // this type will be supported later
break;
default:
mbStatus = false;
}
return mbStatus;
}
bool RASReader::ImplReadBody(BitmapWriteAccess * pAcc)
{
sal_uLong x, y;
sal_uInt8 nDat = 0;
sal_uInt8 nRed, nGreen, nBlue;
switch ( mnDstBitsPerPix )
{
case 1 :
for ( y = 0; y < mnHeight; y++ )
{
for ( x = 0; x < mnWidth; x++ )
{
if (!(x & 7))
nDat = ImplGetByte();
pAcc->SetPixelIndex( y, x,
sal::static_int_cast< sal_uInt8 >(
nDat >> ( ( x & 7 ) ^ 7 )) );
}
if (!( ( x - 1 ) & 0x8 ) ) ImplGetByte(); // WORD ALIGNMENT ???
}
break;
case 8 :
for ( y = 0; y < mnHeight; y++ )
{
for ( x = 0; x < mnWidth; x++ )
{
nDat = ImplGetByte();
pAcc->SetPixelIndex( y, x, nDat );
}
if ( x & 1 ) ImplGetByte(); // WORD ALIGNMENT ???
}
break;
case 24 :
switch ( mnDepth )
{
case 24 :
for ( y = 0; y < mnHeight; y++ )
{
for ( x = 0; x < mnWidth; x++ )
{
if ( mnType == RAS_TYPE_RGB_FORMAT )
{
nRed = ImplGetByte();
nGreen = ImplGetByte();
nBlue = ImplGetByte();
}
else
{
nBlue = ImplGetByte();
nGreen = ImplGetByte();
nRed = ImplGetByte();
}
pAcc->SetPixel ( y, x, BitmapColor( nRed, nGreen, nBlue ) );
}
if ( x & 1 ) ImplGetByte(); // WORD ALIGNMENT ???
}
break;
case 32 :
for ( y = 0; y < mnHeight; y++ )
{
for ( x = 0; x < mnWidth; x++ )
{
nDat = ImplGetByte(); // pad byte > nil
if ( mnType == RAS_TYPE_RGB_FORMAT )
{
nRed = ImplGetByte();
nGreen = ImplGetByte();
nBlue = ImplGetByte();
}
else
{
nBlue = ImplGetByte();
nGreen = ImplGetByte();
nRed = ImplGetByte();
}
pAcc->SetPixel ( y, x, BitmapColor( nRed, nGreen, nBlue ) );
}
}
break;
}
break;
default:
mbStatus = false;
break;
}
return mbStatus;
}
sal_uInt8 RASReader::ImplGetByte()
{
sal_uInt8 nRetVal;
if ( mnType != RAS_TYPE_BYTE_ENCODED )
{
m_rRAS.ReadUChar( nRetVal );
return nRetVal;
}
else
{
if ( mnRepCount )
{
mnRepCount--;
return mnRepVal;
}
else
{
m_rRAS.ReadUChar( nRetVal );
if ( nRetVal != 0x80 )
return nRetVal;
m_rRAS.ReadUChar( nRetVal );
if ( nRetVal == 0 )
return 0x80;
mnRepCount = nRetVal ;
m_rRAS.ReadUChar( mnRepVal );
return mnRepVal;
}
}
}
//================== GraphicImport - die exportierte Funktion ================
// this needs to be kept in sync with
// ImpFilterLibCacheEntry::GetImportFunction() from
// vcl/source/filter/graphicfilter.cxx
#if defined(DISABLE_DYNLOADING)
#define GraphicImport iraGraphicImport
#endif
extern "C" SAL_DLLPUBLIC_EXPORT bool SAL_CALL
GraphicImport( SvStream & rStream, Graphic & rGraphic, FilterConfigItem* )
{
RASReader aRASReader(rStream);
return aRASReader.ReadRAS(rGraphic );
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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