xref: /trunk/main/filter/source/graphicfilter/ipict/ipict.cxx (revision 87bc88d3)

/**************************************************************
 *
 * 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
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied.  See the License for the
 * specific language governing permissions and limitations
 * under the License.
 *
 *************************************************************/



// MARKER(update_precomp.py): autogen include statement, do not remove
#include "precompiled_filter.hxx"

#include <string.h>
#include <vcl/bmpacc.hxx>
#include <vcl/graph.hxx>
#include <tools/poly.hxx>
#include <vcl/virdev.hxx>
#include <svtools/fltcall.hxx>
#include <math.h>

#include "shape.hxx"

namespace PictReaderInternal {
  //! utilitary class to store a pattern, ...
  class Pattern {
  public:
    //! constructor
    Pattern() {
      isColor = false; isRead = false;
      penStyle=PEN_SOLID; brushStyle = BRUSH_SOLID;
      nBitCount = 64;
    }

    //! reads black/white pattern from SvStream
    sal_uLong read(SvStream &stream);
    //! sets the color
    void setColor(Color &col) { isColor = true; color = col; }
    /** returns a color which can be "used" to replace the pattern,
     *     created from ForeColor and BackColor, ...
     *
     * note: maybe, we must also use some mode PatCopy, ... to define the color
     */
    Color getColor(Color bkColor=COL_WHITE, Color fgColor = COL_BLACK) const {
      if (isColor) return color;
      // we create a gray pattern from nBitCount
      double alpha = nBitCount / 64.0;
      return Color(sal_uInt8(alpha*fgColor.GetRed()+(1.0-alpha)*bkColor.GetRed()),
		   sal_uInt8(alpha*fgColor.GetGreen()+(1.0-alpha)*bkColor.GetGreen()),
		   sal_uInt8(alpha*fgColor.GetBlue()+(1.0-alpha)*bkColor.GetBlue()));
    }

    //! returns true if this is the default pattern
    bool isDefault() const { return isRead == false; }

    // MT: NOOLDSV, someone should change the code...
    enum PenStyle { PEN_NULL, PEN_SOLID, PEN_DOT, PEN_DASH, PEN_DASHDOT };
    enum BrushStyle { BRUSH_NULL, BRUSH_SOLID, BRUSH_HORZ, BRUSH_VERT,
		      BRUSH_CROSS, BRUSH_DIAGCROSS, BRUSH_UPDIAG, BRUSH_DOWNDIAG,
		      BRUSH_25, BRUSH_50, BRUSH_75,
		      BRUSH_BITMAP };
    // Data
    enum PenStyle penStyle;
    enum BrushStyle brushStyle;
    short nBitCount;

    bool isColor; // true if it is a color pattern
    Color color;

  protected:
    // flag to know if the pattern came from reading the picture, or if it is the default pattern
    bool isRead;
  };

  sal_uLong Pattern::read(SvStream &stream) {
    short nx,ny;
    unsigned char nbyte[8];
    sal_uLong nHiBytes, nLoBytes;
    isColor = false;

    // Anzahl der Bits im Pattern zaehlen, die auf 1 gesetzt sind:
    nBitCount=0;
    for (ny=0; ny<8; ny++) {
      stream >> ((char&)nbyte[ny]);
      for (nx=0; nx<8; nx++) {
	if ( (nbyte[ny] & (1<<nx)) != 0 ) nBitCount++;
      }
    }

    // Pattern in 2 Langworten unterbringen:
    nHiBytes=(((((((sal_uLong)nbyte[0])<<8)|
		 (sal_uLong)nbyte[1])<<8)|
	       (sal_uLong)nbyte[2])<<8)|
      (sal_uLong)nbyte[3];
    nLoBytes=(((((((sal_uLong)nbyte[4])<<8)|
		 (sal_uLong)nbyte[5])<<8)|
	       (sal_uLong)nbyte[6])<<8)|
      (sal_uLong)nbyte[7];

    // Einen PenStyle machen:
    if      (nBitCount<=0)  penStyle=PEN_NULL;
    else if (nBitCount<=16) penStyle=PEN_DOT;
    else if (nBitCount<=32) penStyle=PEN_DASHDOT;
    else if (nBitCount<=48) penStyle=PEN_DASH;
    else                    penStyle=PEN_SOLID;

    // Einen BrushStyle machen:
    if      (nHiBytes==0xffffffff && nLoBytes==0xffffffff) brushStyle=BRUSH_SOLID;
    else if (nHiBytes==0xff000000 && nLoBytes==0x00000000) brushStyle=BRUSH_HORZ;
    else if (nHiBytes==0x80808080 && nLoBytes==0x80808080) brushStyle=BRUSH_VERT;
    else if (nHiBytes==0xff808080 && nLoBytes==0x80808080) brushStyle=BRUSH_CROSS;
    else if (nHiBytes==0x01824428 && nLoBytes==0x10284482) brushStyle=BRUSH_DIAGCROSS;
    else if (nHiBytes==0x80402010 && nLoBytes==0x08040201) brushStyle=BRUSH_UPDIAG;
    else if (nHiBytes==0x01020408 && nLoBytes==0x10204080) brushStyle=BRUSH_DOWNDIAG;
    else if (nBitCount<=24) brushStyle=BRUSH_25;
    else if (nBitCount<=40) brushStyle=BRUSH_50;
    else if (nBitCount<=56) brushStyle=BRUSH_75;
    else                    brushStyle=BRUSH_SOLID;

    isRead = true;

    return 8;
  }
}

//============================ PictReader ==================================

enum PictDrawingMethod {
	PDM_FRAME, PDM_PAINT, PDM_ERASE, PDM_INVERT, PDM_FILL,
	PDM_TEXT, PDM_UNDEFINED
};

class PictReader {
  typedef class PictReaderInternal::Pattern Pattern;
private:

	SvStream    * pPict;             // Die einzulesende Pict-Datei
	VirtualDevice * pVirDev;         // Hier werden die Drawing-Methoden aufgerufen.
									 // Dabei findet ein Recording in das GDIMetaFile
									 // statt.
	sal_uLong         nOrigPos;          // Anfaengliche Position in pPict
	sal_uInt16        nOrigNumberFormat; // Anfaengliches Nummern-Format von pPict
	sal_Bool          IsVersion2;        // Ob es ein Version 2 Pictfile ist.
	Rectangle     aBoundingRect;     // Min/Max-Rechteck fuer die ganze Zeichnung

	Point         aPenPosition;
	Point         aTextPosition;
	Color         aActForeColor;
	Color         aActBackColor;
	Pattern       eActPenPattern;
	Pattern       eActFillPattern;
	Pattern       eActBackPattern;
	Size          nActPenSize;
 // Note: Postscript mode is stored by setting eActRop to ROP_1
	RasterOp      eActROP;
	PictDrawingMethod eActMethod;
	Size          aActOvalSize;
	Font          aActFont;

	Fraction		aHRes;
	Fraction		aVRes;

	sal_Bool Callback(sal_uInt16 nPercent);

	Point ReadPoint();

	Point ReadDeltaH(Point aBase);
	Point ReadDeltaV(Point aBase);

	Point ReadUnsignedDeltaH(Point aBase);
	Point ReadUnsignedDeltaV(Point aBase);

	Size ReadSize();

	Color ReadColor();

	Color ReadRGBColor();

	void ReadRectangle(Rectangle & rRect);

	sal_uLong ReadPolygon(Polygon & rPoly);

	sal_uLong ReadPixPattern(Pattern &pattern);

	Rectangle aLastRect;
	sal_uLong ReadAndDrawRect(PictDrawingMethod eMethod);
	sal_uLong ReadAndDrawSameRect(PictDrawingMethod eMethod);

	Rectangle aLastRoundRect;
	sal_uLong ReadAndDrawRoundRect(PictDrawingMethod eMethod);
	sal_uLong ReadAndDrawSameRoundRect(PictDrawingMethod eMethod);

	Rectangle aLastOval;
	sal_uLong ReadAndDrawOval(PictDrawingMethod eMethod);
	sal_uLong ReadAndDrawSameOval(PictDrawingMethod eMethod);

	Polygon aLastPolygon;
	sal_uLong ReadAndDrawPolygon(PictDrawingMethod eMethod);
	sal_uLong ReadAndDrawSamePolygon(PictDrawingMethod eMethod);

	Rectangle aLastArcRect;
	sal_uLong ReadAndDrawArc(PictDrawingMethod eMethod);
	sal_uLong ReadAndDrawSameArc(PictDrawingMethod eMethod);

	sal_uLong ReadAndDrawRgn(PictDrawingMethod eMethod);
	sal_uLong ReadAndDrawSameRgn(PictDrawingMethod eMethod);

        // returns true, if we do not need to print the shape/text/frame
        bool IsInvisible(PictDrawingMethod eMethod) const {
	  if (eActROP == ROP_1) return true;
	  if (eMethod==PDM_FRAME && (nActPenSize.Width() == 0 || nActPenSize.Height() == 0)) return true;
	  return false;
	}
	void DrawingMethod(PictDrawingMethod eMethod);

	sal_uLong ReadAndDrawText();

	sal_uLong ReadPixMapEtc(Bitmap & rBitmap, sal_Bool bBaseAddr, sal_Bool bColorTable,
						Rectangle * pSrcRect, Rectangle * pDestRect,
						sal_Bool bMode, sal_Bool bMaskRgn);

	void ReadHeader();
		// Liesst den Kopf der Pict-Datei, setzt IsVersion2 und aBoundingRect

	sal_uLong ReadData(sal_uInt16 nOpcode);
		// Liesst die Daten eines Opcodes ein und fuehrt die Operation aus.
		// Auf jeden Fall wird die Anzahl der Datenbytes zu dem Opcode
		// zurueckgeliefert.

	void SetLineColor( const Color& rColor );
	void SetFillColor( const Color& rColor );

  // OSNOLA: returns the text encoding which must be used for system id
  static rtl_TextEncoding GetTextEncoding (sal_uInt16 fId = 0xFFFF);
public:

  PictReader() { aActFont.SetCharSet(GetTextEncoding()); }

	void ReadPict( SvStream & rStreamPict, GDIMetaFile & rGDIMetaFile );
		// Liesst aus dem Stream eine Pict-Datei und fuellt das GDIMetaFile

};

//------------------------------------------------------------------------------------------------

#define SETBYTE											\
	switch ( nPixelSize )								\
	{													\
		case 1 :										\
			pAcc->SetPixelIndex( ny, nx++, nDat >> 7 );	\
			if ( nx == nWidth ) break;					\
			pAcc->SetPixelIndex( ny, nx++, nDat >> 6 );	\
			if ( nx == nWidth ) break;					\
			pAcc->SetPixelIndex( ny, nx++, nDat >> 5 );	\
			if ( nx == nWidth ) break;					\
			pAcc->SetPixelIndex( ny, nx++, nDat >> 4 );	\
			if ( nx == nWidth ) break;					\
			pAcc->SetPixelIndex( ny, nx++, nDat >> 3 );	\
			if ( nx == nWidth ) break;					\
			pAcc->SetPixelIndex( ny, nx++, nDat >> 2 );	\
			if ( nx == nWidth ) break;					\
			pAcc->SetPixelIndex( ny, nx++, nDat >> 1 );	\
			if ( nx == nWidth ) break;					\
			pAcc->SetPixelIndex( ny, nx++, nDat );		\
			break;										\
		case 2 :										\
			pAcc->SetPixelIndex( ny, nx++, nDat >> 6 );	\
			if ( nx == nWidth ) break;					\
			pAcc->SetPixelIndex( ny, nx++, (nDat>>4)&3);\
			if ( nx == nWidth ) break;					\
			pAcc->SetPixelIndex( ny, nx++, (nDat>>2)&3 );\
			if ( nx == nWidth ) break;					\
			pAcc->SetPixelIndex( ny, nx++, nDat & 3);		\
			break;										\
		case 4 :										\
			pAcc->SetPixelIndex( ny, nx++, nDat >> 4 );	\
			if ( nx == nWidth ) break;					\
			pAcc->SetPixelIndex( ny, nx++, nDat );		\
			break;										\
		case 8 :										\
			pAcc->SetPixelIndex( ny, nx++, nDat );		\
			break;										\
	}

//------------------------------------------------------------------------------------------------

#define	BITMAPERROR										\
{														\
	if ( pAcc )											\
		aBitmap.ReleaseAccess( pAcc );					\
	if ( pReadAcc )										\
		aBitmap.ReleaseAccess( pReadAcc );				\
	return 0xffffffff;									\
}

//=================== Methoden von PictReader ==============================
rtl_TextEncoding PictReader::GetTextEncoding (sal_uInt16 fId) {
  static bool first = true;
  static rtl_TextEncoding enc = RTL_TEXTENCODING_APPLE_ROMAN;
  if (first) {
    rtl_TextEncoding def = gsl_getSystemTextEncoding();
    // we keep gsl_getSystemTextEncoding only if it is a mac encoding
    switch(def) {
    case RTL_TEXTENCODING_APPLE_ROMAN:
    case RTL_TEXTENCODING_APPLE_ARABIC:
    case RTL_TEXTENCODING_APPLE_CENTEURO:
    case RTL_TEXTENCODING_APPLE_CROATIAN:
    case RTL_TEXTENCODING_APPLE_CYRILLIC:
    case RTL_TEXTENCODING_APPLE_DEVANAGARI:
    case RTL_TEXTENCODING_APPLE_FARSI:
    case RTL_TEXTENCODING_APPLE_GREEK:
    case RTL_TEXTENCODING_APPLE_GUJARATI:
    case RTL_TEXTENCODING_APPLE_GURMUKHI:
    case RTL_TEXTENCODING_APPLE_HEBREW:
    case RTL_TEXTENCODING_APPLE_ICELAND:
    case RTL_TEXTENCODING_APPLE_ROMANIAN:
    case RTL_TEXTENCODING_APPLE_THAI:
    case RTL_TEXTENCODING_APPLE_TURKISH:
    case RTL_TEXTENCODING_APPLE_UKRAINIAN:
    case RTL_TEXTENCODING_APPLE_CHINSIMP:
    case RTL_TEXTENCODING_APPLE_CHINTRAD:
    case RTL_TEXTENCODING_APPLE_JAPANESE:
    case RTL_TEXTENCODING_APPLE_KOREAN:
      enc = def; break;
    default: break;
    }
    first = false;
  }
  if (fId == 13) return RTL_TEXTENCODING_ADOBE_DINGBATS; // CHECKME
  if (fId == 23) return RTL_TEXTENCODING_ADOBE_SYMBOL;
  return enc;
}

void PictReader::SetLineColor( const Color& rColor )
{
	pVirDev->SetLineColor( rColor );
}

void PictReader::SetFillColor( const Color& rColor )
{
	pVirDev->SetFillColor( rColor );
}

sal_Bool PictReader::Callback(sal_uInt16 /*nPercent*/)
{
/*
	if (pCallback!=NULL) {
		if (((*pCallback)(pCallerData,nPercent))==sal_True) {
			pPict->SetError(SVSTREAM_FILEFORMAT_ERROR);
			return sal_True;
		}
	}
*/
	return sal_False;
}

Point PictReader::ReadPoint()
{
	short nx,ny;

	*pPict >> ny >> nx;

   return Point( (long)nx - aBoundingRect.Left(),
				 (long)ny - aBoundingRect.Top() );
}

Point PictReader::ReadDeltaH(Point aBase)
{
	signed char ndh;

	*pPict >> ((char&)ndh);

	return Point( aBase.X() + (long)ndh, aBase.Y() );
}

Point PictReader::ReadDeltaV(Point aBase)
{
	signed char ndv;

	*pPict >> ((char&)ndv);

	return Point( aBase.X(), aBase.Y() + (long)ndv );
}

Point PictReader::ReadUnsignedDeltaH(Point aBase)
{
	sal_uInt8 ndh;

	*pPict >> ndh;

	return Point( aBase.X() + (long)ndh, aBase.Y() );
}

Point PictReader::ReadUnsignedDeltaV(Point aBase)
{
	sal_uInt8 ndv;

	*pPict >> ndv;

	return Point( aBase.X(), aBase.Y() + (long)ndv );
}

Size PictReader::ReadSize()
{
	short nx,ny;

	*pPict >> ny >> nx;

	return Size( (long)nx, (long)ny );
}

Color PictReader::ReadColor()
{
	sal_uInt32 nCol;
	Color aCol;

	*pPict >> nCol;
	switch (nCol)
	{
		case  33: aCol=Color( COL_BLACK );        break;
		case  30: aCol=Color( COL_WHITE );        break;
		case 205: aCol=Color( COL_LIGHTRED );     break;
		case 341: aCol=Color( COL_LIGHTGREEN );   break;
		case 409: aCol=Color( COL_LIGHTBLUE );    break;
		case 273: aCol=Color( COL_LIGHTCYAN );    break;
		case 137: aCol=Color( COL_LIGHTMAGENTA ); break;
		case  69: aCol=Color( COL_YELLOW );       break;
		default:  aCol=Color( COL_LIGHTGRAY );
	}
	return aCol;
}


Color PictReader::ReadRGBColor()
{
	sal_uInt16 nR, nG, nB;

	*pPict >> nR >> nG >> nB;
	return Color( (sal_uInt8) ( nR >> 8 ), (sal_uInt8) ( nG >> 8 ), (sal_uInt8) ( nB >> 8 ) );
}


void PictReader::ReadRectangle(Rectangle & rRect)
{
	Point aTopLeft, aBottomRight;

	aTopLeft=ReadPoint();
	aBottomRight=ReadPoint();
	rRect=Rectangle(aTopLeft,aBottomRight);
}


sal_uLong PictReader::ReadPolygon(Polygon & rPoly)
{
	sal_uInt16 nSize,i;
	sal_uLong nDataSize;

	*pPict >> nSize;
	pPict->SeekRel(8);
	nDataSize=(sal_uLong)nSize;
	nSize=(nSize-10)/4;
	rPoly.SetSize(nSize);
	for (i=0; i<nSize; i++) rPoly.SetPoint(ReadPoint(),i);
	return nDataSize;
}

sal_uLong PictReader::ReadPixPattern(PictReader::Pattern &pattern)
{
	// Keine Ahnung, ob dies richtig ist, weil kein Bild gefunden, das
	// PixPatterns enthaelt. Auch hier nur der Versuch, die Groesse der Daten zu
	// ermitteln, und einfache StarView-Styles daraus zu machen. Gluecklicherweise
	// enthaelt ein PixPattern immer auch ein normales Pattern.

	sal_uLong nDataSize;
	sal_uInt16 nPatType;
	Bitmap aBMP;

	*pPict >> nPatType;
	if (nPatType==1) {
	        pattern.read(*pPict);
		nDataSize=ReadPixMapEtc(aBMP,sal_False,sal_True,NULL,NULL,sal_False,sal_False);
		// CHANGEME: use average pixmap colors to update the pattern, ...
		if (nDataSize!=0xffffffff) nDataSize+=10;
	}
	else if (nPatType==2) {
	        pattern.read(*pPict);
		// RGBColor
		sal_uInt16 nR, nG, nB;
		*pPict >> nR >> nG >> nB;
		Color col((sal_uInt8) ( nR >> 8 ), (sal_uInt8) ( nG >> 8 ), (sal_uInt8) ( nB >> 8 ) );
		pattern.setColor(col);
		nDataSize=16;
	}
	else nDataSize=0xffffffff;

	return nDataSize;
}

sal_uLong PictReader::ReadAndDrawRect(PictDrawingMethod eMethod)
{
	ReadRectangle(aLastRect);
	ReadAndDrawSameRect(eMethod);
	return 8;
}

sal_uLong PictReader::ReadAndDrawSameRect(PictDrawingMethod eMethod)
{
	if (IsInvisible(eMethod)) return 0;
	DrawingMethod(eMethod);
	PictReaderShape::drawRectangle(pVirDev, eMethod==PDM_FRAME, aLastRect, nActPenSize);
	return 0;
}

sal_uLong PictReader::ReadAndDrawRoundRect(PictDrawingMethod eMethod)
{
	ReadRectangle(aLastRoundRect);
	ReadAndDrawSameRoundRect(eMethod);
	return 8;
}

sal_uLong PictReader::ReadAndDrawSameRoundRect(PictDrawingMethod eMethod)
{
	if (IsInvisible(eMethod)) return 0;
	DrawingMethod(eMethod);
	PictReaderShape::drawRoundRectangle(pVirDev, eMethod==PDM_FRAME, aLastRoundRect, aActOvalSize, nActPenSize);
	return 0;
}

sal_uLong PictReader::ReadAndDrawOval(PictDrawingMethod eMethod)
{
	ReadRectangle(aLastOval);
	ReadAndDrawSameOval(eMethod);
	return 8;
}

sal_uLong PictReader::ReadAndDrawSameOval(PictDrawingMethod eMethod)
{
	if (IsInvisible(eMethod)) return 0;
	DrawingMethod(eMethod);
	PictReaderShape::drawEllipse(pVirDev, eMethod==PDM_FRAME, aLastOval, nActPenSize);
	return 0;
}

sal_uLong PictReader::ReadAndDrawPolygon(PictDrawingMethod eMethod)
{
	sal_uLong nDataSize;
	nDataSize=ReadPolygon(aLastPolygon);
	ReadAndDrawSamePolygon(eMethod);
	return nDataSize;
}

sal_uLong PictReader::ReadAndDrawSamePolygon(PictDrawingMethod eMethod)
{
	if (IsInvisible(eMethod)) return 0;
	DrawingMethod(eMethod);
	PictReaderShape::drawPolygon(pVirDev, eMethod==PDM_FRAME, aLastPolygon, nActPenSize);
	return 0;
}


sal_uLong PictReader::ReadAndDrawArc(PictDrawingMethod eMethod)
{
	ReadRectangle(aLastArcRect);
	ReadAndDrawSameArc(eMethod);
	return 12;
}

sal_uLong PictReader::ReadAndDrawSameArc(PictDrawingMethod eMethod)
{
	short nstartAngle, narcAngle;
	double fAng1, fAng2;

	*pPict >> nstartAngle >> narcAngle;
	if (IsInvisible(eMethod)) return 4;
	DrawingMethod(eMethod);

	if (narcAngle<0) {
		nstartAngle = nstartAngle + narcAngle;
		narcAngle=-narcAngle;
	}
	fAng1=((double)nstartAngle)/180.0*3.14159265359;
	fAng2=((double)(nstartAngle+narcAngle))/180.0*3.14159265359;
	PictReaderShape::drawArc(pVirDev, eMethod==PDM_FRAME, aLastArcRect,fAng1,fAng2, nActPenSize);
	return 4;
}

sal_uLong PictReader::ReadAndDrawRgn(PictDrawingMethod eMethod)
{
	sal_uInt16 nSize;

	*pPict >> nSize;
	// read the DATA
	//
	// a region data is a mask and is probably coded as
	// - the first 8 bytes: bdbox ( which can be read by ReadRectangle )
	// - then a list of line modifiers: y_i, a_0, b_0, a_1, b_1, ..., a_{n_i}, b_{n_i}, 0x7fff
	// - 0x7fff
	// where y_i is the increasing sequences of line coordinates
	// and on each line: a0 < b0 < a1 < b1 < ... < a_{n_i} < b_{n_i}

	// it can be probably decoded as :
	// M=an empty mask: ie. (0, 0, ... ) with (left_box-right_box+1) zeroes
	// then for each line (y_i):
	//   - takes M and inverts all values in [a_0,b_0-1], in [a_1,b_1-1] ...
	//   - sets M = new y_i line mask
	ReadAndDrawSameRgn(eMethod);
	return (sal_uLong)nSize;
}

sal_uLong PictReader::ReadAndDrawSameRgn(PictDrawingMethod eMethod)
{
	if (IsInvisible(eMethod)) return 0;
	DrawingMethod(eMethod);
	// DISPLAY: ...???...
	return 0;
}

void PictReader::DrawingMethod(PictDrawingMethod eMethod)
{
	if( eActMethod==eMethod ) return;
	switch (eMethod) {
		case PDM_FRAME:
		        if (eActPenPattern.isDefault())
			  SetLineColor( aActForeColor );
			else
			  SetLineColor(eActPenPattern.getColor(aActBackColor, aActForeColor));
			SetFillColor( Color(COL_TRANSPARENT) );
			pVirDev->SetRasterOp(eActROP);
			break;
		case PDM_PAINT:
			SetLineColor( Color(COL_TRANSPARENT) );
			if (eActPenPattern.isDefault())
			  SetFillColor( aActForeColor );
			else
			  SetFillColor(eActPenPattern.getColor(aActBackColor, aActForeColor));
			pVirDev->SetRasterOp(eActROP);
			break;
		case PDM_ERASE:
			SetLineColor( Color(COL_TRANSPARENT) );
			if (eActBackPattern.isDefault())
			  SetFillColor( aActBackColor );// Osnola: previously aActForeColor
			else // checkMe
			  SetFillColor(eActBackPattern.getColor(COL_BLACK, aActBackColor));
			pVirDev->SetRasterOp(ROP_OVERPAINT);
			break;
	        case PDM_INVERT: // checkme
			SetLineColor( Color(COL_TRANSPARENT));
			SetFillColor( Color( COL_BLACK ) );
			pVirDev->SetRasterOp(ROP_INVERT);
			break;
		case PDM_FILL:
			SetLineColor( Color(COL_TRANSPARENT) );
			if (eActFillPattern.isDefault())
			  SetFillColor( aActForeColor );
			else
			  SetFillColor(eActFillPattern.getColor(aActBackColor, aActForeColor));
			pVirDev->SetRasterOp(ROP_OVERPAINT);
			break;
		case PDM_TEXT:
			aActFont.SetColor(aActForeColor);
			aActFont.SetFillColor(aActBackColor);
			aActFont.SetTransparent(sal_True);
			pVirDev->SetFont(aActFont);
			pVirDev->SetRasterOp(ROP_OVERPAINT);
			break;
		default:
			break;  // -Wall undefined not handled...
	}
	eActMethod=eMethod;
}

sal_uLong PictReader::ReadAndDrawText()
{
	char		nByteLen;
	sal_uInt32	nLen, nDataLen;
	sal_Char	sText[256];

	*pPict >> nByteLen; nLen=((sal_uLong)nByteLen)&0x000000ff;
	nDataLen = nLen + 1;
	pPict->Read( &sText, nLen );

	if (IsInvisible(PDM_TEXT)) return nDataLen;
	DrawingMethod(PDM_TEXT);

	// Stoerende Steuerzeuichen wegnehmen:
	while ( nLen > 0 && ( (unsigned char)sText[ nLen - 1 ] ) < 32 )
			nLen--;
	sText[ nLen ] = 0;
	String aString( (const sal_Char*)&sText, aActFont.GetCharSet());
	pVirDev->DrawText( Point( aTextPosition.X(), aTextPosition.Y() ), aString );
	return nDataLen;
}

sal_uLong PictReader::ReadPixMapEtc( Bitmap &rBitmap, sal_Bool bBaseAddr, sal_Bool bColorTable, Rectangle* pSrcRect,
									Rectangle* pDestRect, sal_Bool bMode, sal_Bool bMaskRgn )
{
	Bitmap				aBitmap;
	BitmapWriteAccess*	pAcc = NULL;
	BitmapReadAccess*	pReadAcc = NULL;
	sal_uInt16				ny, nx, nColTabSize;
	sal_uInt16				nRowBytes, nBndX, nBndY, nWidth, nHeight, nVersion, nPackType, nPixelType,
						nPixelSize, nCmpCount, nCmpSize;
	sal_uInt32			nPackSize, nPlaneBytes, nHRes, nVRes;
	sal_uInt8				nDat, nRed, nGreen, nBlue, nDummy;
	sal_uLong				i, nDataSize = 0;

	// In nDataSize wird mitgerechnet, wie gross die gesammten Daten sind.
	nDataSize = 0;

	// ggf. BaseAddr ueberlesen
	if ( bBaseAddr )
	{
		pPict->SeekRel( 4 );
		nDataSize += 4;
	}

	// PixMap oder Bitmap-Struktur einlesen;
	*pPict >> nRowBytes >> nBndY >> nBndX >> nHeight >> nWidth;
	nHeight = nHeight - nBndY;
	nWidth = nWidth - nBndX;

	if ( ( nRowBytes & 0x8000 ) != 0 )
	{	// it is a PixMap
		nRowBytes &= 0x3fff;
		*pPict >> nVersion >> nPackType >> nPackSize >> nHRes >> nVRes >> nPixelType >>
					nPixelSize >> nCmpCount >> nCmpSize >> nPlaneBytes;

		pPict->SeekRel( 8 );
		nDataSize += 46;

		sal_uInt16 nDstBitCount = nPixelSize;
		if ( nDstBitCount > 8 )
			nDstBitCount = 24;
		else if ( nDstBitCount == 2 )
			nDstBitCount = 4;
		aBitmap = Bitmap( Size( nWidth, nHeight ), nDstBitCount );

		if ( ( pAcc = aBitmap.AcquireWriteAccess() ) == NULL )
			BITMAPERROR;

		if ( bColorTable )
		{
			pPict->SeekRel( 6 );
			*pPict >> nColTabSize;

			if ( ++nColTabSize > 256 )
				BITMAPERROR;

			pAcc->SetPaletteEntryCount( nColTabSize );

			for ( i = 0; i < nColTabSize; i++ )
			{
				pPict->SeekRel(2);
				*pPict >> nRed >> nDummy >> nGreen >> nDummy >> nBlue >> nDummy;
				pAcc->SetPaletteColor( (sal_uInt16) i, BitmapColor( nRed, nGreen, nBlue ) );
			}
			nDataSize += 8 + nColTabSize * 8;
		}
	}
	else
	{
		nRowBytes &= 0x3fff;
		nVersion = 0;
		nPackType = 0;
		nPackSize = nHRes = nVRes = nPlaneBytes = 0;
		nPixelType = 0;
		nPixelSize = nCmpCount = nCmpSize = 1;
		nDataSize += 10;
		aBitmap = Bitmap( Size( nWidth, nHeight ), 1 );
		if ( ( pAcc = aBitmap.AcquireWriteAccess() ) == NULL )
			BITMAPERROR;
		pAcc->SetPaletteEntryCount( 2 );
		pAcc->SetPaletteColor( 0, BitmapColor( 0xff, 0xff, 0xff ) );
		pAcc->SetPaletteColor( 1, BitmapColor( 0, 0, 0 ) );
	}

	// ggf. Quell-Rechteck einlesen:
	if ( pSrcRect != 0)
	{
		sal_uInt16	nTop, nLeft, nBottom, nRight;
		*pPict >> nTop >> nLeft >> nBottom >> nRight;
		*pSrcRect = Rectangle( (sal_uLong)nLeft, (sal_uLong)nTop, (sal_uLong)nRight, (sal_uLong)nBottom );
		nDataSize += 8;
	}

	// ggf. Ziel-Rechteck einlesen:
	if ( pDestRect != 0 )
	{
		Point aTL, aBR;
		aTL = ReadPoint();
		aBR = ReadPoint();
		*pDestRect = Rectangle( aTL, aBR );
		nDataSize += 8;
	}

	// ggf. Modus einlesen (bzw. ueberspringen):
	if ( bMode )
	{
		pPict->SeekRel(2);
		nDataSize += 2;
	}

	// ggf. Region einlesen (bzw. ueberspringen):
	if ( bMaskRgn )
	{
		sal_uInt16 nSize;
		*pPict >> nSize;
		pPict->SeekRel( nSize - 2 );
		nDataSize += (sal_uLong)nSize;
	}

//	aSMem << (nHRes/1665L) << (nVRes/1665L) << ((sal_uLong)0) << ((sal_uLong)0);

	// Lese und Schreibe Bitmap-Bits:
	if ( nPixelSize == 1 || nPixelSize == 2 || nPixelSize == 4 || nPixelSize == 8 )
	{
		sal_uInt8	nByteCountAsByte, nFlagCounterByte;
		sal_uInt16	nByteCount, nCount, nSrcBPL, nDestBPL;

		if      ( nPixelSize == 1 ) nSrcBPL = ( nWidth + 7 ) >> 3;
		else if ( nPixelSize == 2 )	nSrcBPL = ( nWidth + 3 ) >> 2;
		else if ( nPixelSize == 4 )	nSrcBPL = ( nWidth + 1 ) >> 1;
		else						nSrcBPL = nWidth;
		nDestBPL = ( nSrcBPL + 3 ) & 0xfffc;
		if ( nRowBytes < nSrcBPL || nRowBytes > nDestBPL )
			BITMAPERROR;

		for ( ny = 0; ny < nHeight; ny++ )
		{
			nx = 0;
			if ( nRowBytes < 8 || nPackType == 1 )
			{
				for ( i = 0; i < nRowBytes; i++ )
				{
					*pPict >> nDat;
					if ( nx < nWidth )
						SETBYTE;
				}
				nDataSize += nRowBytes;
			}
			else
			{
				if ( nRowBytes > 250 )
				{
					*pPict >> nByteCount;
					nDataSize += 2 + (sal_uLong)nByteCount;
				}
				else
				{
					*pPict >> nByteCountAsByte;
					nByteCount = ( (sal_uInt16)nByteCountAsByte ) & 0x00ff;
					nDataSize += 1 + (sal_uLong)nByteCount;
				}

				while ( nByteCount )
				{
					*pPict >> nFlagCounterByte;
					if ( ( nFlagCounterByte & 0x80 ) == 0 )
					{
						nCount = ( (sal_uInt16)nFlagCounterByte ) + 1;
						for ( i = 0; i < nCount; i++ )
						{
							*pPict >> nDat;
							if ( nx < nWidth )
								SETBYTE;
						}
						nByteCount -= 1 + nCount;
					}
					else
					{
						nCount = ( 1 - ( ( (sal_uInt16)nFlagCounterByte ) | 0xff00 ) );
						*pPict >> nDat;
						for ( i = 0; i < nCount; i++ )
						{
							if ( nx < nWidth )
								SETBYTE;
						}
						nByteCount -= 2;
					}
				}
			}
		}
	}
	else if ( nPixelSize == 16 )
	{
		sal_uInt8	nByteCountAsByte, nFlagCounterByte;
		sal_uInt16	nByteCount, nCount, nDestBPL,nD;
		sal_uLong	nSrcBitsPos;

		if ( nRowBytes < 2 * nWidth )
			BITMAPERROR;

		nDestBPL = ( ( 3 * nWidth ) + 0x0003 ) & 0xfffc;

		for ( ny = 0; ny < nHeight; ny++ )
		{
			nx = 0;
			if ( nRowBytes < 8 || nPackType == 1 )
			{
				for ( i = 0; i < nWidth; i++ )
				{
					*pPict >> nD;
					nRed = (sal_uInt8)( nD >> 7 );
					nGreen = (sal_uInt8)( nD >> 2 );
					nBlue = (sal_uInt8)( nD << 3 );
					pAcc->SetPixel( ny, nx++, BitmapColor( nRed, nGreen, nBlue ) );
				}
				nDataSize += ( (sal_uLong)nWidth ) * 2;
			}
			else
			{
				nSrcBitsPos = pPict->Tell();
				if ( nRowBytes > 250 )
				{
					*pPict >> nByteCount;
					nByteCount += 2;
				}
				else
				{
					*pPict >> nByteCountAsByte;
					nByteCount = ( (sal_uInt16)nByteCountAsByte ) & 0x00ff;
					nByteCount++;
				}
				while ( nx != nWidth )
				{
					*pPict >> nFlagCounterByte;
					if ( (nFlagCounterByte & 0x80) == 0)
					{
						nCount=((sal_uInt16)nFlagCounterByte)+1;
						if ( nCount + nx > nWidth)				// SJ: the RLE decoding seems not to be correct here,
							nCount = nWidth - nx;				// I don't want to change this until I have a bugdoc for
						for (i=0; i<nCount; i++)				// this case. Have a look at 32bit, there I changed the
						{										// encoding, so that it is used a straight forward array
							*pPict >> nD;
							nRed = (sal_uInt8)( nD >> 7 );
							nGreen = (sal_uInt8)( nD >> 2 );
							nBlue = (sal_uInt8)( nD << 3 );
							pAcc->SetPixel( ny, nx++, BitmapColor( nRed, nGreen, nBlue ) );
						}
					}
					else
					{
						nCount=(1-(((sal_uInt16)nFlagCounterByte)|0xff00));
						if ( nCount + nx > nWidth )
							nCount = nWidth - nx;
						*pPict >> nD;
						nRed = (sal_uInt8)( nD >> 7 );
						nGreen = (sal_uInt8)( nD >> 2 );
						nBlue = (sal_uInt8)( nD << 3 );
						for (i=0; i<nCount; i++)
						{
							pAcc->SetPixel( ny, nx++, BitmapColor( nRed, nGreen, nBlue ) );
						}
					}
				}
				nDataSize+=(sal_uLong)nByteCount;
				pPict->Seek(nSrcBitsPos+(sal_uLong)nByteCount);
			}
		}
	}
	else if (nPixelSize==32)
	{
		sal_uInt8				nByteCountAsByte, nFlagCounterByte;
		sal_uInt16				nByteCount, nCount;
		sal_uLong				nSrcBitsPos;
		BitmapColor			aBitmapColor;
		if ( ( pReadAcc = aBitmap.AcquireReadAccess() ) == NULL )
			BITMAPERROR;
		if ( nRowBytes != 4*nWidth )
			BITMAPERROR;

		if ( nRowBytes < 8 || nPackType == 1 )
		{
			for ( ny = 0; ny < nHeight; ny++ )
			{
				if ( nRowBytes < 8 || nPackType == 1 )
				{
					for ( nx = 0; nx < nWidth; nx++ )
					{
						*pPict >> nDummy >> nRed >> nGreen >> nBlue;
						pAcc->SetPixel( ny, nx, BitmapColor( nRed, nGreen, nBlue) );
					}
					nDataSize += ( (sal_uLong)nWidth ) * 4;
				}
			}
		}
		else if ( nPackType == 2 )
		{
			for ( ny = 0; ny < nHeight; ny++ )
			{
				for ( nx = 0; nx < nWidth; nx++ )
				{
					*pPict >> nRed >> nGreen >> nBlue;
					pAcc->SetPixel( ny, nx, BitmapColor( nRed, nGreen, nBlue ) );
				}
				nDataSize += ( (sal_uLong)nWidth ) * 3;
			}
		}
		else
		{
			if ( ( nCmpCount == 3 ) || ( nCmpCount == 4 ) )
			{
				sal_uInt8* pScanline = new sal_uInt8[ nWidth * nCmpCount ];
				for ( ny = 0; ny < nHeight; ny++ )
				{
					nSrcBitsPos = pPict->Tell();
					if ( nRowBytes > 250 )
					{
						*pPict >> nByteCount;
						nByteCount += 2;
					}
					else
					{
						*pPict >> nByteCountAsByte;
						nByteCount = (sal_uInt8)nByteCountAsByte;
						nByteCount++;
					}
					i = 0;
					while( i < (sal_uInt32)( nWidth * nCmpCount ) )
					{
						*pPict >> nFlagCounterByte;
						if ( ( nFlagCounterByte & 0x80 ) == 0)
						{
							nCount = ( (sal_uInt16)nFlagCounterByte ) + 1;
							if ( ( i + nCount ) > (sal_uInt32)( nWidth * nCmpCount ) )
								nCount = (sal_uInt16)( nWidth * nCmpCount - i );
							while( nCount-- )
							{
								*pPict >> nDat;
								pScanline[ i++ ] = nDat;
							}
						}
						else
						{
							nCount = ( 1 - ( ( (sal_uInt16)nFlagCounterByte ) | 0xff00 ) );
							if ( ( i + nCount ) > (sal_uInt32)( nWidth * nCmpCount ) )
								nCount = (sal_uInt16)( nWidth * nCmpCount - i );
							*pPict >> nDat;
							while( nCount-- )
								pScanline[ i++ ] = nDat;
						}
					}
					sal_uInt8* pTmp = pScanline;
					if ( nCmpCount == 4 )
						pTmp += nWidth;
					for ( nx = 0; nx < nWidth; pTmp++ )
						pAcc->SetPixel( ny, nx++, BitmapColor( *pTmp, pTmp[ nWidth ], pTmp[ 2 * nWidth ] ) );
					nDataSize += (sal_uLong)nByteCount;
					pPict->Seek( nSrcBitsPos + (sal_uLong)nByteCount );
				}
				delete[] pScanline;
			}
		}
	}
	else
		BITMAPERROR;
	if ( pReadAcc )
		aBitmap.ReleaseAccess( pReadAcc );
	aBitmap.ReleaseAccess( pAcc );
	rBitmap = aBitmap;
	return nDataSize;
}

void PictReader::ReadHeader()
{
	short y1,x1,y2,x2;

	sal_Char	sBuf[ 2 ];
	// previous code considers pPict->Tell() as the normal starting position,
	// can we have nStartPos != 0 ?
	sal_uLong	nStartPos = pPict->Tell();
	// Standard:
	// a picture file begins by 512 bytes (reserved to the application) followed by the picture data
	// while clipboard, pictures stored in a document often contain only the picture data.

	// Special cases:
	// - some Pict v.1 use 0x00 0x11 0x01 ( instead of 0x11 0x01) to store the version op
	//    (we consider here this as another standard for Pict. v.1 )
	// - some files seem to contain extra garbage data at the beginning
	// - some picture data seem to contain extra NOP opcode(0x00) between the bounding box and the version opcode

	// This code looks hard to find a picture header, ie. it looks at positions
	//   - nStartPos+0, nStartPos+512 with potential extra NOP codes between bdbox and version (at most 9 extra NOP)
	//   - 512..1024 with more strict bdbox checking and no extra NOP codes

	// Notes:
	// - if the header can begin at nStartPos+0 and at nStartPos+512, we try to choose the more
	//       <<probable>> ( using the variable confidence)
	// - svtools/source/filter.vcl/filter/{filter.cxx,filter2.cxx} only check for standard Pict,
	//       this may cause future problems
	int st;
	sal_uInt32 nOffset;
	int confidence[2] = { 0, 0};
	for ( st = 0; st < 3 + 513; st++ )
	  {
	    int actualConfid = 20; // the actual confidence
	    pPict->ResetError();
	    if (st < 2) nOffset = nStartPos+st*512;
	    else if (st == 2) {
	      // choose nStartPos+0 or nStartPos+512 even if there are a little dubious
	      int actPos = -1, actConf=0;
	      if (confidence[0] > 0) { actPos = 0; actConf =  confidence[0]; }
	      if (confidence[1] > 0 && confidence[1] >= actConf) actPos = 1;
	      if (actPos < 0) continue;
	      nOffset = nStartPos+actPos*512;
	    }
	    else {
	      nOffset = 509+st; // illogical : more logical will be nStartPos+509+st or to consider that nStartPos=0
	      // a small test to check if versionOp code exists after the bdbox ( with no extra NOP codes)
	      pPict->Seek(nOffset+10);
	      pPict->Read( sBuf, 2 );
	      if (pPict->IsEof() || pPict->GetError()) break;
	      if (sBuf[0] == 0x11 || (sBuf[0] == 0x00 && sBuf[1] == 0x11)) ; // maybe ok
	      else continue;
	    }
	    pPict->Seek(nOffset);

	    // 2 bytes to store size ( version 1 ) ignored
	    pPict->SeekRel( 2 );
	    *pPict >> y1 >> x1 >> y2 >> x2; // Rahmen-Rechteck des Bildes
	    if (x1 > x2 || y1 > y2) continue; // bad bdbox
	    if (x1 < -2048 || x2 > 2048 || y1 < -2048 || y2 > 2048 || // origin|dest is very small|large
		(x1 == x2 && y1 == y2) ) // 1 pixel pict is dubious
	      actualConfid-=3;
	    else if (x2 < x1+8 || y2 < y1+8) // a little dubious
	      actualConfid-=1;
	    if (st >= 3 && actualConfid != 20) continue;
	    aBoundingRect=Rectangle( x1,y1, x2, y2 );

	    if (pPict->IsEof() || pPict->GetError()) continue;
	    // read version
	    pPict->Read( sBuf, 2 );
	    // version 1 file
	    if ( sBuf[ 0 ] == 0x11 && sBuf[ 1 ] == 0x01 ) {
	      // pict v1 must be rare and we do only few tests
	      if (st < 2) { confidence[st] = --actualConfid; continue; }
	      IsVersion2 = sal_False; return;
	    }
	    if (sBuf[0] != 0x00) continue; // unrecovable error
	    int numZero = 0;
	    do
	      {
		numZero++;
		pPict->SeekRel(-1);
		pPict->Read( sBuf, 2 );
	      }
	    while ( sBuf[0] == 0x00 && numZero < 10);
	    actualConfid -= (numZero-1); // extra nop are dubious
	    if (pPict->IsEof() || pPict->GetError()) continue;
	    if (sBuf[0] != 0x11) continue; // not a version opcode
	    // abnormal version 1 file
	    if (sBuf[1] == 0x01 ) {
	      // pict v1 must be rare and we do only few tests
	      if (st < 2) { confidence[st] = --actualConfid; continue; }
	      IsVersion2 = sal_False; return;
	    }
	    if (sBuf[1] != 0x02 ) continue; // not a version 2 file

	    IsVersion2=sal_True;
	    short	nExtVer, nReserved;
	    // 3 Bytes ignored : end of version arg 0x02FF (ie: 0xFF), HeaderOp : 0x0C00
	    pPict->SeekRel( 3 );
	    *pPict >> nExtVer >> nReserved;
	    if (pPict->IsEof() || pPict->GetError()) continue;

	    if ( nExtVer == -2 ) // extended version 2 picture
	      {
		sal_Int32 nHResFixed, nVResFixed;
		*pPict >> nHResFixed >> nVResFixed;
		*pPict >> y1 >> x1 >> y2 >> x2; // reading the optimal bounding rect
		if (x1 > x2 || y1 > y2) continue; // bad bdbox
		if (st < 2 && actualConfid != 20) { confidence[st] = actualConfid; continue; }

		double fHRes = nHResFixed;
		fHRes /= 65536;
		double fVRes = nVResFixed;
		fVRes /= 65536;
		aHRes /= fHRes;
		aVRes /= fVRes;
		aBoundingRect=Rectangle( x1,y1, x2, y2 );
		pPict->SeekRel( 4 ); // 4 bytes reserved
		return;
	      }
	    else if (nExtVer == -1 ) { // basic version 2 picture
	      if (st < 2 && actualConfid != 20) { confidence[st] = actualConfid; continue; }
	      pPict->SeekRel( 16); // bdbox(4 fixed number)
	      pPict->SeekRel(4); // 4 bytes reserved
	      return;
	    }
	  }
	pPict->SetError(SVSTREAM_FILEFORMAT_ERROR);
}

sal_uLong PictReader::ReadData(sal_uInt16 nOpcode)
{
	sal_uInt16 nUSHORT;
	Point aPoint;
	sal_uLong nDataSize=0;
	PictDrawingMethod shapeDMethod = PDM_UNDEFINED;
	switch (nOpcode & 7) {
	case 0:	shapeDMethod = PDM_FRAME; break;
	case 1: shapeDMethod = PDM_PAINT; break;
	case 2: shapeDMethod = PDM_ERASE; break;
	case 3: shapeDMethod = PDM_INVERT; break;
	case 4: shapeDMethod = PDM_FILL; break;
	default: break;
	}

	switch(nOpcode) {

	case 0x0000:   // NOP
		nDataSize=0;
		break;

	case 0x0001: { // Clip
		Rectangle aRect;
		*pPict >> nUSHORT;
		nDataSize=nUSHORT;
		ReadRectangle(aRect);
		// checkme: do we really want to extend the rectangle here ?
		// I do that because the clipping is often used to clean a region,
		//   before drawing some text and also to draw this text.
		// So using a too small region can lead to clip the end of the text ;
               //     but this can be discutable...
                aRect.setWidth(aRect.getWidth()+1);
		aRect.setHeight(aRect.getHeight()+1);
		pVirDev->SetClipRegion( Region( aRect ) );
		break;
	}
	case 0x0002:   // BkPat
	  nDataSize=eActBackPattern.read(*pPict);
	  eActMethod=PDM_UNDEFINED;
	  break;

	case 0x0003:   // TxFont
		*pPict >> nUSHORT;
		if      (nUSHORT <=    1) aActFont.SetFamily(FAMILY_SWISS);
		else if (nUSHORT <=   12) aActFont.SetFamily(FAMILY_DECORATIVE);
		else if (nUSHORT <=   20) aActFont.SetFamily(FAMILY_ROMAN);
		else if (nUSHORT ==   21) aActFont.SetFamily(FAMILY_SWISS);
		else if (nUSHORT ==   22) aActFont.SetFamily(FAMILY_MODERN);
		else if (nUSHORT <= 1023) aActFont.SetFamily(FAMILY_SWISS);
		else                      aActFont.SetFamily(FAMILY_ROMAN);
		aActFont.SetCharSet(GetTextEncoding(nUSHORT));
		eActMethod=PDM_UNDEFINED;
		nDataSize=2;
		break;

	case 0x0004: {  // TxFace
		char nFace;
		*pPict >> nFace;
		if ( (nFace & 0x01)!=0 ) aActFont.SetWeight(WEIGHT_BOLD);
		else                     aActFont.SetWeight(WEIGHT_NORMAL);
		if ( (nFace & 0x02)!=0 ) aActFont.SetItalic(ITALIC_NORMAL);
		else                     aActFont.SetItalic(ITALIC_NONE);
		if ( (nFace & 0x04)!=0 ) aActFont.SetUnderline(UNDERLINE_SINGLE);
		else                     aActFont.SetUnderline(UNDERLINE_NONE);
		if ( (nFace & 0x08)!=0 ) aActFont.SetOutline(sal_True);
		else                     aActFont.SetOutline(sal_False);
		if ( (nFace & 0x10)!=0 ) aActFont.SetShadow(sal_True);
		else                     aActFont.SetShadow(sal_False);
		eActMethod=PDM_UNDEFINED;
		nDataSize=1;
		break;
	}
	case 0x0005:   // TxMode
		nDataSize=2;
		break;

	case 0x0006:   // SpExtra
		nDataSize=4;
		break;

	case 0x0007: { // PnSize
		nActPenSize=ReadSize();
		eActMethod=PDM_UNDEFINED;
		nDataSize=4;
		break;
	}
	case 0x0008:   // PnMode
		*pPict >> nUSHORT;
		// internal code for postscript command (Quickdraw Reference Drawing B-30,B-34)
		if (nUSHORT==23) eActROP = ROP_1;
		else {
		  switch (nUSHORT & 0x0007) {
			case 0: eActROP=ROP_OVERPAINT; break; // Copy
			case 1: eActROP=ROP_OVERPAINT; break; // Or
			case 2: eActROP=ROP_XOR;       break; // Xor
			case 3: eActROP=ROP_OVERPAINT; break; // Bic
			case 4: eActROP=ROP_INVERT;    break; // notCopy
			case 5: eActROP=ROP_OVERPAINT; break; // notOr
			case 6: eActROP=ROP_XOR;       break; // notXor
			case 7: eActROP=ROP_OVERPAINT; break; // notBic
		  }
		}
		eActMethod=PDM_UNDEFINED;
		nDataSize=2;
		break;

	case 0x0009:   // PnPat
	  nDataSize=eActPenPattern.read(*pPict);
		eActMethod=PDM_UNDEFINED;
		break;

	case 0x000a:   // FillPat
	  nDataSize=eActFillPattern.read(*pPict);
		eActMethod=PDM_UNDEFINED;
		break;

	case 0x000b:   // OvSize
		aActOvalSize=ReadSize();
		nDataSize=4;
		break;

	case 0x000c:   // Origin
		nDataSize=4;
		break;

	case 0x000d:   // TxSize
	{
		*pPict >> nUSHORT;
		aActFont.SetSize( Size( 0, (long)nUSHORT ) );
		eActMethod=PDM_UNDEFINED;
		nDataSize=2;
	}
	break;

	case 0x000e:   // FgColor
		aActForeColor=ReadColor();
		eActMethod=PDM_UNDEFINED;
		nDataSize=4;
		break;

	case 0x000f:   // BkColor
		aActBackColor=ReadColor();
		nDataSize=4;
		break;

	case 0x0010:   // TxRatio
		nDataSize=8;
		break;

	case 0x0011:   // VersionOp
		nDataSize=1;
		break;

	case 0x0012:   // BkPixPat
		nDataSize=ReadPixPattern(eActBackPattern);
		eActMethod=PDM_UNDEFINED;
		break;

	case 0x0013:   // PnPixPat
		nDataSize=ReadPixPattern(eActPenPattern);
		eActMethod=PDM_UNDEFINED;
		break;

	case 0x0014:   // FillPixPat
		nDataSize=ReadPixPattern(eActFillPattern);
		eActMethod=PDM_UNDEFINED;
		break;

	case 0x0015:   // PnLocHFrac
		nDataSize=2;
		break;

	case 0x0016:   // ChExtra
		nDataSize=2;
		break;

	case 0x0017:   // Reserved (0 Bytes)
	case 0x0018:   // Reserved (0 Bytes)
	case 0x0019:   // Reserved (0 Bytes)
		nDataSize=0;
		break;

	case 0x001a:   // RGBFgCol
		aActForeColor=ReadRGBColor();
		eActMethod=PDM_UNDEFINED;
		nDataSize=6;
		break;

	case 0x001b:   // RGBBkCol
		aActBackColor=ReadRGBColor();
		eActMethod=PDM_UNDEFINED;
		nDataSize=6;
		break;

	case 0x001c:   // HiliteMode
		nDataSize=0;
		break;

	case 0x001d:   // HiliteColor
		nDataSize=6;
		break;

	case 0x001e:   // DefHilite
		nDataSize=0;
		break;

	case 0x001f:   // OpColor
		nDataSize=6;
		break;

	case 0x0020:   // Line
		aPoint=ReadPoint(); aPenPosition=ReadPoint();
		nDataSize=8;

		if (IsInvisible(PDM_FRAME)) break;
		DrawingMethod(PDM_FRAME);
		PictReaderShape::drawLine(pVirDev, aPoint,aPenPosition, nActPenSize);
		break;

	case 0x0021:   // LineFrom
		aPoint=aPenPosition; aPenPosition=ReadPoint();
		nDataSize=4;

		if (IsInvisible(PDM_FRAME)) break;
		DrawingMethod(PDM_FRAME);
		PictReaderShape::drawLine(pVirDev, aPoint,aPenPosition, nActPenSize);
		break;

	case 0x0022:   // ShortLine
		aPoint=ReadPoint();
		aPenPosition=ReadDeltaH(aPoint);
		aPenPosition=ReadDeltaV(aPenPosition);
		nDataSize=6;

		if (IsInvisible(PDM_FRAME)) break;
		DrawingMethod(PDM_FRAME);
		PictReaderShape::drawLine(pVirDev, aPoint,aPenPosition, nActPenSize);
		break;

	case 0x0023:   // ShortLineFrom
		aPoint=aPenPosition;
		aPenPosition=ReadDeltaH(aPoint);
		aPenPosition=ReadDeltaV(aPenPosition);
		nDataSize=2;

		if (IsInvisible(PDM_FRAME)) break;
		DrawingMethod(PDM_FRAME);
		PictReaderShape::drawLine(pVirDev, aPoint,aPenPosition, nActPenSize);
		break;

	case 0x0024:   // Reserved (n Bytes)
	case 0x0025:   // Reserved (n Bytes)
	case 0x0026:   // Reserved (n Bytes)
	case 0x0027:   // Reserved (n Bytes)
		*pPict >> nUSHORT;
		nDataSize=2+nUSHORT;
		break;

	case 0x0028:   // LongText
		aTextPosition=ReadPoint();
		nDataSize=4+ReadAndDrawText();
		break;

	case 0x0029:   // DHText
		aTextPosition=ReadUnsignedDeltaH(aTextPosition);
		nDataSize=1+ReadAndDrawText();
		break;

	case 0x002a:   // DVText
		aTextPosition=ReadUnsignedDeltaV(aTextPosition);
		nDataSize=1+ReadAndDrawText();
		break;

	case 0x002b:   // DHDVText
		aTextPosition=ReadUnsignedDeltaH(aTextPosition);
		aTextPosition=ReadUnsignedDeltaV(aTextPosition);
		nDataSize=2+ReadAndDrawText();
		break;

	case 0x002c: { // fontName
		char		sFName[ 256 ], nByteLen;
		sal_uInt16	nLen;
		*pPict >> nUSHORT; nDataSize=nUSHORT+2;
		*pPict >> nUSHORT;
		if      (nUSHORT <=    1) aActFont.SetFamily(FAMILY_SWISS);
		else if (nUSHORT <=   12) aActFont.SetFamily(FAMILY_DECORATIVE);
		else if (nUSHORT <=   20) aActFont.SetFamily(FAMILY_ROMAN);
		else if (nUSHORT ==   21) aActFont.SetFamily(FAMILY_SWISS);
		else if (nUSHORT ==   22) aActFont.SetFamily(FAMILY_MODERN);
		else if (nUSHORT <= 1023) aActFont.SetFamily(FAMILY_SWISS);
		else                      aActFont.SetFamily(FAMILY_ROMAN);
		aActFont.SetCharSet(GetTextEncoding(nUSHORT));
		*pPict >> nByteLen; nLen=((sal_uInt16)nByteLen)&0x00ff;
		pPict->Read( &sFName, nLen );
		sFName[ nLen ] = 0;
		String aString( (const sal_Char*)&sFName, gsl_getSystemTextEncoding() );
		aActFont.SetName( aString );
		eActMethod=PDM_UNDEFINED;
		break;
	}
	case 0x002d:   // lineJustify
		nDataSize=10;
		break;

	case 0x002e:   // glyphState
		*pPict >> nUSHORT;
		nDataSize=2+nUSHORT;
		break;

	case 0x002f:   // Reserved (n Bytes)
		*pPict >> nUSHORT;
		nDataSize=2+nUSHORT;
		break;

	case 0x0030:   // frameRect
	case 0x0031:   // paintRect
	case 0x0032:   // eraseRect
	case 0x0033:   // invertRect
	case 0x0034:   // fillRect
		nDataSize=ReadAndDrawRect(shapeDMethod);
		break;

	case 0x0035:   // Reserved (8 Bytes)
	case 0x0036:   // Reserved (8 Bytes)
	case 0x0037:   // Reserved (8 Bytes)
		nDataSize=8;
		break;

	case 0x0038:   // frameSameRect
	case 0x0039:   // paintSameRect
	case 0x003a:   // eraseSameRect
	case 0x003b:   // invertSameRect
	case 0x003c:   // fillSameRect
		nDataSize=ReadAndDrawSameRect(shapeDMethod);
		break;

	case 0x003d:   // Reserved (0 Bytes)
	case 0x003e:   // Reserved (0 Bytes)
	case 0x003f:   // Reserved (0 Bytes)
		nDataSize=0;
		break;

	case 0x0040:   // frameRRect
	case 0x0041:   // paintRRect
	case 0x0042:   // eraseRRect
	case 0x0043:   // invertRRect
	case 0x0044:   // fillRRect
		nDataSize=ReadAndDrawRoundRect(shapeDMethod);
		break;

	case 0x0045:   // Reserved (8 Bytes)
	case 0x0046:   // Reserved (8 Bytes)
	case 0x0047:   // Reserved (8 Bytes)
		nDataSize=8;
		break;

	case 0x0048:   // frameSameRRect
	case 0x0049:   // paintSameRRect
	case 0x004a:   // eraseSameRRect
	case 0x004b:   // invertSameRRect
	case 0x004c:   // fillSameRRect
		nDataSize=ReadAndDrawSameRoundRect(shapeDMethod);
		break;

	case 0x004d:   // Reserved (0 Bytes)
	case 0x004e:   // Reserved (0 Bytes)
	case 0x004f:   // Reserved (0 Bytes)
		nDataSize=0;
		break;

	case 0x0050:   // frameOval
	case 0x0051:   // paintOval
	case 0x0052:   // eraseOval
	case 0x0053:   // invertOval
	case 0x0054:   // fillOval
		nDataSize=ReadAndDrawOval(shapeDMethod);
		break;

	case 0x0055:   // Reserved (8 Bytes)
	case 0x0056:   // Reserved (8 Bytes)
	case 0x0057:   // Reserved (8 Bytes)
		nDataSize=8;
		break;

	case 0x0058:   // frameSameOval
	case 0x0059:   // paintSameOval
	case 0x005a:   // eraseSameOval
	case 0x005b:   // invertSameOval
	case 0x005c:   // fillSameOval
		nDataSize=ReadAndDrawSameOval(shapeDMethod);
		break;

	case 0x005d:   // Reserved (0 Bytes)
	case 0x005e:   // Reserved (0 Bytes)
	case 0x005f:   // Reserved (0 Bytes)
		nDataSize=0;
		break;

	case 0x0060:   // frameArc
	case 0x0061:   // paintArc
	case 0x0062:   // eraseArc
	case 0x0063:   // invertArc
	case 0x0064:   // fillArc
		nDataSize=ReadAndDrawArc(shapeDMethod);
		break;

	case 0x0065:   // Reserved (12 Bytes)
	case 0x0066:   // Reserved (12 Bytes)
	case 0x0067:   // Reserved (12 Bytes)
		nDataSize=12;
		break;

	case 0x0068:   // frameSameArc
	case 0x0069:   // paintSameArc
	case 0x006a:   // eraseSameArc
	case 0x006b:   // invertSameArc
	case 0x006c:   // fillSameArc
		nDataSize=ReadAndDrawSameArc(shapeDMethod);
		break;

	case 0x006d:   // Reserved (4 Bytes)
	case 0x006e:   // Reserved (4 Bytes)
	case 0x006f:   // Reserved (4 Bytes)
		nDataSize=4;
		break;

	case 0x0070:   // framePoly
	case 0x0071:   // paintPoly
	case 0x0072:   // erasePoly
	case 0x0073:   // invertPoly
	case 0x0074:   // fillPoly
		nDataSize=ReadAndDrawPolygon(shapeDMethod);
		break;

	case 0x0075:   // Reserved (Polygon-Size)
	case 0x0076:   // Reserved (Polygon-Size)
	case 0x0077:   // Reserved (Polygon-Size)
		*pPict >> nUSHORT; nDataSize=nUSHORT;
		break;

	case 0x0078:   // frameSamePoly
	case 0x0079:   // paintSamePoly
	case 0x007a:   // eraseSamePoly
	case 0x007b:   // invertSamePoly
	case 0x007c:   // fillSamePoly
		nDataSize=ReadAndDrawSamePolygon(shapeDMethod);
		break;

	case 0x007d:   // Reserved (0 Bytes)
	case 0x007e:   // Reserved (0 Bytes)
	case 0x007f:   // Reserved (0 Bytes)
		nDataSize=0;
		break;

	case 0x0080:   // frameRgn
	case 0x0081:   // paintRgn
	case 0x0082:   // eraseRgn
	case 0x0083:   // invertRgn
	case 0x0084:   // fillRgn
		nDataSize=ReadAndDrawRgn(shapeDMethod);
		break;

	case 0x0085:   // Reserved (Region-Size)
	case 0x0086:   // Reserved (Region-Size)
	case 0x0087:   // Reserved (Region-Size)
		*pPict >> nUSHORT; nDataSize=nUSHORT;
		break;

	case 0x0088:   // frameSameRgn
	case 0x0089:   // paintSameRgn
	case 0x008a:   // eraseSameRgn
	case 0x008b:   // invertSameRgn
	case 0x008c:   // fillSameRgn
		nDataSize=ReadAndDrawSameRgn(shapeDMethod);
		break;

	case 0x008d:   // Reserved (0 Bytes)
	case 0x008e:   // Reserved (0 Bytes)
	case 0x008f:   // Reserved (0 Bytes)
		nDataSize=0;
		break;

	case 0x0090: { // BitsRect
		Bitmap aBmp;
		Rectangle aSrcRect, aDestRect;
		nDataSize=ReadPixMapEtc(aBmp, sal_False, sal_True, &aSrcRect, &aDestRect, sal_True, sal_False);
		DrawingMethod(PDM_PAINT);
		pVirDev->DrawBitmap(aDestRect.TopLeft(),aDestRect.GetSize(),aBmp);
		break;
	}
	case 0x0091: { // BitsRgn
		Bitmap aBmp;
		Rectangle aSrcRect, aDestRect;
		nDataSize=ReadPixMapEtc(aBmp, sal_False, sal_True, &aSrcRect, &aDestRect, sal_True, sal_True);
		DrawingMethod(PDM_PAINT);
		pVirDev->DrawBitmap(aDestRect.TopLeft(),aDestRect.GetSize(),aBmp);
		break;
	}
	case 0x0092:   // Reserved (n Bytes)
	case 0x0093:   // Reserved (n Bytes)
	case 0x0094:   // Reserved (n Bytes)
	case 0x0095:   // Reserved (n Bytes)
	case 0x0096:   // Reserved (n Bytes)
	case 0x0097:   // Reserved (n Bytes)
		*pPict >> nUSHORT; nDataSize=2+nUSHORT;
		break;

	case 0x0098: { // PackBitsRect
		Bitmap aBmp;
		Rectangle aSrcRect, aDestRect;
		nDataSize=ReadPixMapEtc(aBmp, sal_False, sal_True, &aSrcRect, &aDestRect, sal_True, sal_False);
		DrawingMethod(PDM_PAINT);
		pVirDev->DrawBitmap(aDestRect.TopLeft(),aDestRect.GetSize(),aBmp);
		break;
	}
	case 0x0099: { // PackBitsRgn
		Bitmap aBmp;
		Rectangle aSrcRect, aDestRect;
		nDataSize=ReadPixMapEtc(aBmp, sal_False, sal_True, &aSrcRect, &aDestRect, sal_True, sal_True);
		DrawingMethod(PDM_PAINT);
		pVirDev->DrawBitmap(aDestRect.TopLeft(),aDestRect.GetSize(),aBmp);
		break;
	}
	case 0x009a: { // DirectBitsRect
		Bitmap aBmp;
		Rectangle aSrcRect, aDestRect;
		nDataSize=ReadPixMapEtc(aBmp, sal_True, sal_False, &aSrcRect, &aDestRect, sal_True, sal_False);
		DrawingMethod(PDM_PAINT);
		pVirDev->DrawBitmap(aDestRect.TopLeft(),aDestRect.GetSize(),aBmp);
		break;
	}
	case 0x009b: { // DirectBitsRgn
		Bitmap aBmp;
		Rectangle aSrcRect, aDestRect;
		nDataSize=ReadPixMapEtc(aBmp, sal_True, sal_False, &aSrcRect, &aDestRect, sal_True, sal_True);
		DrawingMethod(PDM_PAINT);
		pVirDev->DrawBitmap(aDestRect.TopLeft(),aDestRect.GetSize(),aBmp);
		break;
	}
	case 0x009c:   // Reserved (n Bytes)
	case 0x009d:   // Reserved (n Bytes)
	case 0x009e:   // Reserved (n Bytes)
	case 0x009f:   // Reserved (n Bytes)
		*pPict >> nUSHORT; nDataSize=2+nUSHORT;
		break;

	case 0x00a0:   // ShortComment
		nDataSize=2;
		break;

	case 0x00a1:   // LongComment
		pPict->SeekRel(2); *pPict >> nUSHORT; nDataSize=4+nUSHORT;
		break;

	default: // 0x00a2 bis 0xffff (zumeist Reserved)
		if      (nOpcode<=0x00af) { *pPict >> nUSHORT; nDataSize=2+nUSHORT; }
		else if (nOpcode<=0x00cf) { nDataSize=0; }
		else if (nOpcode<=0x00fe) { sal_uInt32 nTemp; *pPict >> nTemp ; nDataSize = nTemp; nDataSize+=4; }
		// Osnola: checkme: in the Quickdraw Ref examples ( for pict v2)
		//         0x00ff(EndOfPict) is also not followed by any data...
		else if (nOpcode==0x00ff) { nDataSize=IsVersion2 ? 2 : 0; } // OpEndPic
		else if (nOpcode<=0x01ff) { nDataSize=2; }
		else if (nOpcode<=0x0bfe) { nDataSize=4; }
		else if (nOpcode<=0x0bff) { nDataSize=22; }
		else if (nOpcode==0x0c00) { nDataSize=24; } // HeaderOp
		else if (nOpcode<=0x7eff) { nDataSize=24; }
		else if (nOpcode<=0x7fff) { nDataSize=254; }
		else if (nOpcode<=0x80ff) { nDataSize=0; }
		else                      { sal_uInt32 nTemp; *pPict >> nTemp ; nDataSize = nTemp; nDataSize+=4; }
	}

	if (nDataSize==0xffffffff) {
		pPict->SetError(SVSTREAM_FILEFORMAT_ERROR);
		return 0;
	}
	return nDataSize;
}

void PictReader::ReadPict( SvStream & rStreamPict, GDIMetaFile & rGDIMetaFile )
{
	sal_uInt16			nOpcode;
	sal_uInt8			nOneByteOpcode;
	sal_uLong			nSize, nPos, nStartPos, nEndPos, nPercent, nLastPercent;

	pPict               = &rStreamPict;
	nOrigPos            = pPict->Tell();
	nOrigNumberFormat   = pPict->GetNumberFormatInt();

	aActForeColor       = Color(COL_BLACK);
	aActBackColor       = Color(COL_WHITE);
	nActPenSize         = Size(1,1);
	eActROP             = ROP_OVERPAINT;
	eActMethod			= PDM_UNDEFINED;
	aActOvalSize        = Size(1,1);

	aActFont.SetCharSet( GetTextEncoding());
	aActFont.SetFamily(FAMILY_SWISS);
	aActFont.SetSize(Size(0,12));
	aActFont.SetAlign(ALIGN_BASELINE);

	aHRes = aVRes = Fraction( 1, 1 );

	pVirDev = new VirtualDevice();
	pVirDev->EnableOutput(sal_False);
	rGDIMetaFile.Record(pVirDev);

	pPict->SetNumberFormatInt(NUMBERFORMAT_INT_BIGENDIAN);

	nStartPos=pPict->Tell();
	nEndPos=pPict->Seek(STREAM_SEEK_TO_END); pPict->Seek(nStartPos);
	Callback(0); nLastPercent=0;

	ReadHeader();

	aPenPosition=Point(-aBoundingRect.Left(),-aBoundingRect.Top());
	aTextPosition=aPenPosition;

	nPos=pPict->Tell();

	for (;;) {

		nPercent=(nPos-nStartPos)*100/(nEndPos-nStartPos);
		if (nLastPercent+4<=nPercent) {
			if (Callback((sal_uInt16)nPercent)==sal_True) break;
			nLastPercent=nPercent;
		}

		if (IsVersion2 )
			*pPict >> nOpcode;
		else
		{
			*pPict >> nOneByteOpcode;
			nOpcode=(sal_uInt16)nOneByteOpcode;
		}

		if (pPict->GetError())
			break;

		if (pPict->IsEof())
		{
			pPict->SetError(SVSTREAM_FILEFORMAT_ERROR);
			break;
		}

		if (nOpcode==0x00ff)
			break;

		nSize=ReadData(nOpcode);

		if ( IsVersion2 )
		{
			if ( nSize & 1 )
				nSize++;

			nPos+=2+nSize;
		}
		else
			nPos+=1+nSize;

		pPict->Seek(nPos);
	}

	rGDIMetaFile.Stop();
	delete pVirDev;

	rGDIMetaFile.SetPrefMapMode( MapMode( MAP_INCH, Point(), aHRes, aVRes ) );
	rGDIMetaFile.SetPrefSize( aBoundingRect.GetSize() );

	pPict->SetNumberFormatInt(nOrigNumberFormat);

	if (pPict->GetError()) pPict->Seek(nOrigPos);
}

//================== GraphicImport - die exportierte Funktion ================

extern "C" sal_Bool __LOADONCALLAPI GraphicImport( SvStream& rIStm, Graphic & rGraphic, FilterConfigItem*, sal_Bool )
{
	GDIMetaFile aMTF;
	PictReader	aPictReader;
	sal_Bool		bRet = sal_False;

	aPictReader.ReadPict( rIStm, aMTF );

	if ( !rIStm.GetError() )
	{
		rGraphic = Graphic( aMTF );
		bRet = sal_True;
	}

	return bRet;
}