src/gui/painting/qprintengine_qws.cpp
author Alex Gilkes <alex.gilkes@nokia.com>
Mon, 11 Jan 2010 14:00:40 +0000
changeset 0 1918ee327afb
child 4 3b1da2848fc7
permissions -rw-r--r--
Revision: 200952

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#include <private/qprintengine_qws_p.h>

#ifndef QT_NO_PRINTER

#include <private/qpaintengine_raster_p.h>
#include <qimage.h>
#include <qfile.h>
#include <qdebug.h>
#include <QCopChannel>

QT_BEGIN_NAMESPACE

#define MM(n) int((n * 720 + 127) / 254)
#define IN(n) int(n * 72)

extern QSizeF qt_paperSizeToQSizeF(QPrinter::PaperSize size);

QtopiaPrintEngine::QtopiaPrintEngine(QPrinter::PrinterMode mode)
    : QPaintEngine(*(new QtopiaPrintEnginePrivate( mode )))
{
    d_func()->initialize();
}

bool QtopiaPrintEngine::begin(QPaintDevice *)
{
    Q_D(QtopiaPrintEngine);
    Q_ASSERT_X(d->printerState == QPrinter::Idle, "QtopiaPrintEngine", "printer already active");

    // Create a new off-screen monochrome image to handle the drawing process.
    QSize size = paperRect().size();
    if ( d->pageImage )
	delete d->pageImage;
    d->pageImage = new QImage( size, QImage::Format_RGB32 );
    if ( !(d->pageImage) )
	return false;

    // Recreate the paint engine on the new image.
    delete d->_paintEngine;
    d->_paintEngine = 0;
    d->paintEngine()->state = state;

    // Begin the paint process on the image.
    if (!d->paintEngine()->begin(d->pageImage))
        return false;

    // Clear the first page to all-white.
    clearPage();

    // Clear the print buffer and output the image header.
    d->buffer.clear();
    d->writeG3FaxHeader();

    // The print engine is currently active.
    d->printerState = QPrinter::Active;
    return true;
}

bool QtopiaPrintEngine::end()
{
    Q_D(QtopiaPrintEngine);

    d->paintEngine()->end();

    // Flush the last page.
    flushPage();

    // Output the fax data to a file (TODO: send to the print queuing daemon).
    QString filename;
    if ( !d->outputFileName.isEmpty() )
        filename = QString::fromLocal8Bit(qgetenv("HOME").constData()) + QLatin1String("/Documents/") + d->outputFileName;
    else
        filename = QString::fromLocal8Bit(qgetenv("HOME").constData()) + QLatin1String("/tmp/qwsfax.tiff");

    setProperty(QPrintEngine::PPK_OutputFileName, filename);
    QFile file( filename );
    if ( !file.open( QIODevice::WriteOnly | QIODevice::Truncate ) ) {
	qDebug( "Failed to open %s for printer output",
		filename.toLatin1().constData() );
    } else {
	file.write( d->buffer.data() );
	file.close();
    }

    // Free up the memory for the image buffer.
    d->buffer.clear();

    // Finalize the print job.
    d->printerState = QPrinter::Idle;

    // call qcop service
    QMap<QString, QVariant> map;
    for ( int x = 0; x <= QPrintEngine::PPK_Duplex; x++ )
        map.insert( QString::number(x), property((QPrintEngine::PrintEnginePropertyKey)(x)));
    QVariant variant(map);

    QByteArray data;
    QDataStream out(&data, QIODevice::WriteOnly);
    out << variant;
    QCopChannel::send(QLatin1String("QPE/Service/Print"), QLatin1String("print(QVariant)"), data);

    return true;
}

QPaintEngine *QtopiaPrintEngine::paintEngine() const
{
    return const_cast<QtopiaPrintEnginePrivate *>(d_func())->paintEngine();
}

void QtopiaPrintEngine::drawPixmap(const QRectF &r, const QPixmap &pm, const QRectF &sr)
{
    Q_D(QtopiaPrintEngine);
    Q_ASSERT(d->printerState == QPrinter::Active);
    d->paintEngine()->drawPixmap(r, pm, sr);
}

void QtopiaPrintEngine::drawTextItem(const QPointF &p, const QTextItem &ti)
{
    Q_D(QtopiaPrintEngine);
    Q_ASSERT(d->printerState == QPrinter::Active);
    d->paintEngine()->drawTextItem(p, ti);
}

void QtopiaPrintEngine::updateState(const QPaintEngineState &state)
{
    Q_D(QtopiaPrintEngine);
    d->paintEngine()->updateState(state);
}

QRect QtopiaPrintEngine::paperRect() const
{
    QSizeF s = qt_paperSizeToQSizeF(d_func()->paperSize);
    s.rwidth() = MM(s.width());
    s.rheight() = MM(s.height());
    int w = qRound(s.width()*d_func()->resolution/72.);
    int h = qRound(s.height()*d_func()->resolution/72.);
    if (d_func()->orientation == QPrinter::Portrait)
        return QRect(0, 0, w, h);
    else
        return QRect(0, 0, h, w);
}

QRect QtopiaPrintEngine::pageRect() const
{
    QRect r = paperRect();
    if (d_func()->fullPage)
        return r;
    // would be nice to get better margins than this.
    return QRect(d_func()->resolution/3, d_func()->resolution/3, r.width()-2*d_func()->resolution/3, r.height()-2*d_func()->resolution/3);
}

bool QtopiaPrintEngine::newPage()
{
    flushPage();
    clearPage();
    ++(d_func()->pageNumber);
    return true;
}

bool QtopiaPrintEngine::abort()
{
    return false;
}

QPrinter::PrinterState QtopiaPrintEngine::printerState() const
{
    return d_func()->printerState;
}

int QtopiaPrintEngine::metric(QPaintDevice::PaintDeviceMetric metricType) const
{
    int val;
    QRect r = d_func()->fullPage ? paperRect() : pageRect();
    switch (metricType) {
    case QPaintDevice::PdmWidth:
        val = r.width();
        break;
    case QPaintDevice::PdmHeight:
        val = r.height();
        break;
    case QPaintDevice::PdmDpiX:
        val = d_func()->resolution;
        break;
    case QPaintDevice::PdmDpiY:
        val = d_func()->resolution;
        break;
    case QPaintDevice::PdmPhysicalDpiX:
    case QPaintDevice::PdmPhysicalDpiY:
        val = QT_QWS_PRINTER_DEFAULT_DPI;
        break;
    case QPaintDevice::PdmWidthMM:
        val = qRound(r.width()*25.4/d_func()->resolution);
        break;
    case QPaintDevice::PdmHeightMM:
        val = qRound(r.height()*25.4/d_func()->resolution);
        break;
    case QPaintDevice::PdmNumColors:
        val = 2;
        break;
    case QPaintDevice::PdmDepth:
        val = 1;
        break;
    default:
        qWarning("QtopiaPrintEngine::metric: Invalid metric command");
        return 0;
    }
    return val;
}

QVariant QtopiaPrintEngine::property(PrintEnginePropertyKey key) const
{
    Q_D(const  QtopiaPrintEngine);
    QVariant ret;

    switch (key) {
    case PPK_CollateCopies:
        ret = d->collateCopies;
        break;
    case PPK_ColorMode:
        ret = d->colorMode;
        break;
    case PPK_Creator:
        ret = d->creator;
        break;
    case PPK_DocumentName:
        ret = d->docName;
        break;
    case PPK_FullPage:
        ret = d->fullPage;
        break;
    case PPK_NumberOfCopies:
        ret = d->numCopies;
        break;
    case PPK_Orientation:
        ret = d->orientation;
        break;
    case PPK_OutputFileName:
        ret = d->outputFileName;
        break;
    case PPK_PageOrder:
        ret = d->pageOrder;
        break;
    case PPK_PageRect:
        ret = pageRect();
        break;
    case PPK_PaperSize:
        ret = d->paperSize;
        break;
    case PPK_PaperRect:
        ret = paperRect();
        break;
    case PPK_PaperSource:
        ret = d->paperSource;
        break;
    case PPK_PrinterName:
        ret = d->printerName;
        break;
    case PPK_PrinterProgram:
        ret = d->printProgram;
        break;
    case PPK_Resolution:
        ret = d->resolution;
        break;
    case PPK_SupportedResolutions:
        ret = QList<QVariant>() << QT_QWS_PRINTER_DEFAULT_DPI;
        break;
    default:
        break;
    }
    return ret;
}

void QtopiaPrintEngine::setProperty(PrintEnginePropertyKey key, const QVariant &value)
{
    Q_D(QtopiaPrintEngine);
    switch (key) {
    case PPK_CollateCopies:
        d->collateCopies = value.toBool();
        break;
    case PPK_ColorMode:
        d->colorMode = QPrinter::ColorMode(value.toInt());
        break;
    case PPK_Creator:
        d->creator = value.toString();
        break;
    case PPK_DocumentName:
        d->docName = value.toString();
        break;
    case PPK_FullPage:
        d->fullPage = value.toBool();
        break;
    case PPK_NumberOfCopies:
        d->numCopies = value.toInt();
        break;
    case PPK_Orientation:
        d->orientation = QPrinter::Orientation(value.toInt());
        break;
    case PPK_OutputFileName:
        d->outputFileName = value.toString();
        break;
    case PPK_PageOrder:
        d->pageOrder = QPrinter::PageOrder(value.toInt());
        break;
    case PPK_PaperSize:
        d->paperSize = QPrinter::PaperSize(value.toInt());
        break;
    case PPK_PaperSource:
        d->paperSource = QPrinter::PaperSource(value.toInt());
    case PPK_PrinterName:
        d->printerName = value.toString();
        break;
    case PPK_PrinterProgram:
        d->printProgram = value.toString();
        break;
    case PPK_Resolution:
        d->resolution = value.toInt();
        break;
    default:
        break;
    }
}

void QtopiaPrintEngine::clearPage()
{
    d_func()->pageImage->fill(QColor(255, 255, 255).rgb());
}

void QtopiaPrintEngine::flushPage()
{
    d_func()->writeG3FaxPage();
}

QtopiaPrintEnginePrivate::~QtopiaPrintEnginePrivate()
{
    if ( pageImage )
	delete pageImage;
}

void QtopiaPrintEnginePrivate::initialize()
{
    _paintEngine = 0;
}

QPaintEngine *QtopiaPrintEnginePrivate::paintEngine()
{
    if (!_paintEngine)
        _paintEngine = new QRasterPaintEngine(pageImage);
    return _paintEngine;
}

void QtopiaPrintEnginePrivate::writeG3FaxHeader()
{
    // Write the TIFF file magic number (little-endian TIFF).
    buffer.append( (char)'I' );
    buffer.append( (char)'I' );
    buffer.append( (char)42 );
    buffer.append( (char)0 );

    // Leave a place-holder for the IFD offset of the first page.
    ifdPatch = buffer.size();
    buffer.append( (int)0 );
}

// Tag values, from RFC 2301.
#define	TIFF_IFD_NEW_SUB_FILE_TYPE	254
#define	TIFF_IFD_IMAGE_WIDTH		256
#define	TIFF_IFD_IMAGE_LENGTH		257
#define	TIFF_IFD_BITS_PER_SAMPLE	258
#define	TIFF_IFD_COMPRESSION		259
#define	TIFF_IFD_PHOTOMETRIC_INTERP	262
#define	TIFF_IFD_FILL_ORDER		266
#define	TIFF_IFD_STRIP_OFFSETS		273
#define	TIFF_IFD_ORIENTATION		274
#define	TIFF_IFD_SAMPLES_PER_PIXEL	277
#define	TIFF_IFD_ROWS_PER_STRIP		278
#define	TIFF_IFD_STRIP_BYTE_COUNTS	279
#define	TIFF_IFD_X_RESOLUTION	    	282
#define	TIFF_IFD_Y_RESOLUTION	    	283
#define	TIFF_IFD_PLANAR_CONFIG		284
#define	TIFF_IFD_T4_OPTIONS		292
#define	TIFF_IFD_RESOLUTION_UNIT	296
#define	TIFF_IFD_PAGE_NUMBER	    	297
#define	TIFF_IFD_CLEAN_FAX_DATA		327

// IFD type values.
#define	TIFF_TYPE_SHORT			3
#define	TIFF_TYPE_LONG			4
#define	TIFF_TYPE_RATIONAL		5

// Construct a SHORT pair from two values.
#define	TIFF_SHORT_PAIR(a,b)		(((a) & 0xFFFF) | ((b) << 16))

// Width of a FAX page in pixels, in the baseline specification from RFC 2301.
// This must be hard-wired, as per the RFC.  We truncate any pixels that
// are beyond this limit, or pad lines to reach this limit.
#define	TIFF_FAX_WIDTH			1728

void QtopiaPrintEnginePrivate::writeG3FaxPage()
{
    // Pad the image file to a word boundary, just in case.
    buffer.pad();

    // Back-patch the IFD link for the previous page.
    buffer.patch( ifdPatch, buffer.size() );

    // Output the contents of the IFD for this page (these must be
    // in ascending order of tag value).
    buffer.append( (short)19 );	    // Number of IFD entries.
    writeG3IFDEntry( TIFF_IFD_NEW_SUB_FILE_TYPE, TIFF_TYPE_LONG, 1, 2 );
    writeG3IFDEntry( TIFF_IFD_IMAGE_WIDTH, TIFF_TYPE_LONG, 1, TIFF_FAX_WIDTH );
    writeG3IFDEntry
	( TIFF_IFD_IMAGE_LENGTH, TIFF_TYPE_LONG, 1, pageImage->height() );
    writeG3IFDEntry( TIFF_IFD_BITS_PER_SAMPLE, TIFF_TYPE_SHORT, 1, 1 );
    writeG3IFDEntry( TIFF_IFD_COMPRESSION, TIFF_TYPE_SHORT, 1, 3 );
    writeG3IFDEntry( TIFF_IFD_PHOTOMETRIC_INTERP, TIFF_TYPE_SHORT, 1, 0 );
    writeG3IFDEntry( TIFF_IFD_FILL_ORDER, TIFF_TYPE_SHORT, 1, 1 );
    int stripOffsets =
	writeG3IFDEntry( TIFF_IFD_STRIP_OFFSETS, TIFF_TYPE_LONG, 1, 0 );
    writeG3IFDEntry( TIFF_IFD_ORIENTATION, TIFF_TYPE_SHORT, 1, 1 );
    writeG3IFDEntry( TIFF_IFD_SAMPLES_PER_PIXEL, TIFF_TYPE_SHORT, 1, 1 );
    writeG3IFDEntry
	( TIFF_IFD_ROWS_PER_STRIP, TIFF_TYPE_LONG, 1, pageImage->height() );
    int stripBytes = writeG3IFDEntry
	( TIFF_IFD_STRIP_BYTE_COUNTS, TIFF_TYPE_LONG, 1, 0 );
    int xres =
	writeG3IFDEntry( TIFF_IFD_X_RESOLUTION, TIFF_TYPE_RATIONAL, 1, 0 );
    int yres =
	writeG3IFDEntry( TIFF_IFD_Y_RESOLUTION, TIFF_TYPE_RATIONAL, 1, 0 );
    writeG3IFDEntry( TIFF_IFD_PLANAR_CONFIG, TIFF_TYPE_SHORT, 1, 1 );
    writeG3IFDEntry( TIFF_IFD_T4_OPTIONS, TIFF_TYPE_LONG, 1, 2 );
    writeG3IFDEntry( TIFF_IFD_RESOLUTION_UNIT, TIFF_TYPE_SHORT, 1, 2 );
    writeG3IFDEntry( TIFF_IFD_PAGE_NUMBER, TIFF_TYPE_SHORT, 2,
		     TIFF_SHORT_PAIR( pageNumber, 0 ) );
    writeG3IFDEntry( TIFF_IFD_CLEAN_FAX_DATA, TIFF_TYPE_SHORT, 1, 0 );

    // Leave a place-holder for the IFD offset of the next page.
    ifdPatch = buffer.size();
    buffer.append( (int)0 );

    // Output the X and Y resolutions, as rational values (usually 200/1).
    buffer.patch( xres, buffer.size() );
    buffer.append( (int)resolution );
    buffer.append( (int)1 );
    buffer.patch( yres, buffer.size() );
    buffer.append( (int)resolution );
    buffer.append( (int)1 );

    // We are now at the start of the image data - set the strip offset.
    int start = buffer.size();
    buffer.patch( stripOffsets, start );

    // Output the image data.
    int width = pageImage->width();
    QImage::Format imageFormat = pageImage->format();
    for ( int y = 0; y < pageImage->height(); ++y ) {
	unsigned char *scan = pageImage->scanLine(y);
	int prev, pixel, len;
        writeG3EOL();
	prev = 0;
	len = 0;

        uint currentColor = qRgb(255, 255, 255); // start with white

	for ( int x = 0; x < width && x < TIFF_FAX_WIDTH; ++x ) {
            if ( imageFormat == QImage::Format_RGB32 ) {
                // read color of the current pixel
                uint *p = (uint *)scan + x;

                if ( *p == currentColor ) { // if it is the same color
                    len++; // imcrement length
                } else { // otherwise write color into the buffer
                    if ( len > 0 ) {
                        if ( currentColor == qRgb(0, 0, 0) )
                            writeG3BlackRun( len );
                        else
                            writeG3WhiteRun( len );
                    }
                    // initialise length and color;
                    len = 1;
                    currentColor = *p;
                }
            } else if ( imageFormat == QImage::Format_Mono ) {
    	        pixel = ((scan[x >> 3] & (1 << (x & 7))) != 0);
    	        if ( pixel != prev ) {
		    if ( prev ) {
		        writeG3BlackRun( len );
                    } else {
	    	        writeG3WhiteRun( len );
		    }
		    prev = pixel;
		    len = 1;
	        } else {
		    ++len;
	        }
            }
	}

        if ( imageFormat == QImage::Format_RGB32 ) {
    	    // Output the last run on the line, and pad to TIFF_FAX_WIDTH.
            if ( len != 0 ) {
                if ( currentColor == qRgb(0, 0, 0) )
                    writeG3BlackRun( len );
                else
                    writeG3WhiteRun( len );
            }
            if ( width < TIFF_FAX_WIDTH )
                writeG3WhiteRun( TIFF_FAX_WIDTH - width );
        } else if ( imageFormat == QImage::Format_Mono ) {
            if ( len != 0 ) {
	        if ( prev ) {
		    writeG3BlackRun( len );
		    if ( width < TIFF_FAX_WIDTH ) {
		        writeG3WhiteRun( TIFF_FAX_WIDTH - width );
		    }
	        } else {
		    if ( width < TIFF_FAX_WIDTH ) {
		        writeG3WhiteRun( len + ( TIFF_FAX_WIDTH - width ) );
		    } else {
		        writeG3WhiteRun( len );
		    }
	        }
	    }
        }
    }

    // Flush the last partial byte, which is padded with zero fill bits.
    if ( partialBits > 0 ) {
	buffer.append( (char)( partialByte << ( 8 - partialBits ) ) );
	partialByte = 0;
	partialBits = 0;
    }

    // end of page add six EOLs
    for ( int i = 0; i < 6; i++ )
        writeG3EOL();

    // Update the byte count for the image data strip.
    buffer.patch( stripBytes, buffer.size() - start );
}

int QtopiaPrintEnginePrivate::writeG3IFDEntry
	( int tag, int type, int count, int value )
{
    buffer.append( (short)tag );
    buffer.append( (short)type );
    buffer.append( count );
    buffer.append( value );
    return buffer.size() - 4;    // Offset of the value for back-patching.
}

void QtopiaPrintEnginePrivate::writeG3Code( int code, int bits )
{
    partialByte = ( ( partialByte << bits ) | code );
    partialBits += bits;
    while ( partialBits >= 8 ) {
	partialBits -= 8;
	buffer.append( (char)( partialByte >> partialBits ) );
    }
}

void QtopiaPrintEnginePrivate::writeG3WhiteRun( int len )
{
    static struct {
	unsigned short code;
	unsigned short bits;
    } whiteCodes[64 + 27] = {
	{0x0035, 8},		// 0
	{0x0007, 6},
	{0x0007, 4},
	{0x0008, 4},
	{0x000B, 4},
	{0x000C, 4},
	{0x000E, 4},
	{0x000F, 4},
	{0x0013, 5},		// 8
	{0x0014, 5},
	{0x0007, 5},
	{0x0008, 5},
	{0x0008, 6},
	{0x0003, 6},
	{0x0034, 6},
	{0x0035, 6},
	{0x002A, 6},		// 16
	{0x002B, 6},
	{0x0027, 7},
	{0x000C, 7},
	{0x0008, 7},
	{0x0017, 7},
	{0x0003, 7},
	{0x0004, 7},
	{0x0028, 7},		// 24
	{0x002B, 7},
	{0x0013, 7},
	{0x0024, 7},
	{0x0018, 7},
	{0x0002, 8},
	{0x0003, 8},
	{0x001A, 8},
	{0x001B, 8},		// 32
	{0x0012, 8},
	{0x0013, 8},
	{0x0014, 8},
	{0x0015, 8},
	{0x0016, 8},
	{0x0017, 8},
	{0x0028, 8},
	{0x0029, 8},		// 40
	{0x002A, 8},
	{0x002B, 8},
	{0x002C, 8},
	{0x002D, 8},
	{0x0004, 8},
	{0x0005, 8},
	{0x000A, 8},
	{0x000B, 8},		// 48
	{0x0052, 8},
	{0x0053, 8},
	{0x0054, 8},
	{0x0055, 8},
	{0x0024, 8},
	{0x0025, 8},
	{0x0058, 8},
	{0x0059, 8},		// 56
	{0x005A, 8},
	{0x005B, 8},
	{0x004A, 8},
	{0x004B, 8},
	{0x0032, 8},
	{0x0033, 8},
	{0x0034, 8},
	{0x001B, 5},		// Make up codes: 64
	{0x0012, 5},		// 128
	{0x0017, 6},		// 192
	{0x0037, 7},		// 256
	{0x0036, 8},		// 320
	{0x0037, 8},		// 384
	{0x0064, 8},		// 448
	{0x0065, 8},		// 512
	{0x0068, 8},		// 576
	{0x0067, 8},		// 640
	{0x00CC, 9},		// 704
	{0x00CD, 9},		// 768
	{0x00D2, 9},		// 832
	{0x00D3, 9},		// 896
	{0x00D4, 9},		// 960
	{0x00D5, 9},		// 1024
	{0x00D6, 9},		// 1088
	{0x00D7, 9},		// 1152
	{0x00D8, 9},		// 1216
	{0x00D9, 9},		// 1280
	{0x00DA, 9},		// 1344
	{0x00DB, 9},		// 1408
	{0x0098, 9},		// 1472
	{0x0099, 9},		// 1536
	{0x009A, 9},		// 1600
	{0x0018, 6},		// 1664
	{0x009B, 9},		// 1728
    };
    if ( len >= 64 ) {
	int index = 63 + (len >> 6);
	writeG3Code( whiteCodes[index].code, whiteCodes[index].bits );
	len &= 63;
    }
    writeG3Code( whiteCodes[len].code, whiteCodes[len].bits );
}

void QtopiaPrintEnginePrivate::writeG3BlackRun( int len )
{
    static struct {
	unsigned short code;
	unsigned short bits;
    } blackCodes[64 + 27] = {
	{0x0037, 10},		// 0
	{0x0002, 3},
	{0x0003, 2},
	{0x0002, 2},
	{0x0003, 3},
	{0x0003, 4},
	{0x0002, 4},
	{0x0003, 5},
	{0x0005, 6},		// 8
	{0x0004, 6},
	{0x0004, 7},
	{0x0005, 7},
	{0x0007, 7},
	{0x0004, 8},
	{0x0007, 8},
	{0x0018, 9},
	{0x0017, 10},		// 16
	{0x0018, 10},
	{0x0008, 10},
	{0x0067, 11},
	{0x0068, 11},
	{0x006C, 11},
	{0x0037, 11},
	{0x0028, 11},
	{0x0017, 11},		// 24
	{0x0018, 11},
	{0x00CA, 12},
	{0x00CB, 12},
	{0x00CC, 12},
	{0x00CD, 12},
	{0x0068, 12},
	{0x0069, 12},
	{0x006A, 12},		// 32
	{0x006B, 12},
	{0x00D2, 12},
	{0x00D3, 12},
	{0x00D4, 12},
	{0x00D5, 12},
	{0x00D6, 12},
	{0x00D7, 12},
	{0x006C, 12},		// 40
	{0x006D, 12},
	{0x00DA, 12},
	{0x00DB, 12},
	{0x0054, 12},
	{0x0055, 12},
	{0x0056, 12},
	{0x0057, 12},
	{0x0064, 12},		// 48
	{0x0065, 12},
	{0x0052, 12},
	{0x0053, 12},
	{0x0024, 12},
	{0x0037, 12},
	{0x0038, 12},
	{0x0027, 12},
	{0x0028, 12},		// 56
	{0x0058, 12},
	{0x0059, 12},
	{0x002B, 12},
	{0x002C, 12},
	{0x005A, 12},
	{0x0066, 12},
	{0x0067, 12},
	{0x000F, 10},		// Make up codes: 64
	{0x00C8, 12},		// 128
	{0x00C9, 12},		// 192
	{0x005B, 12},		// 256
	{0x0033, 12},		// 320
	{0x0034, 12},		// 384
	{0x0035, 12},		// 448
	{0x006C, 13},		// 512
	{0x006D, 13},		// 576
	{0x004A, 13},		// 640
	{0x004B, 13},		// 704
	{0x004C, 13},		// 768
	{0x004D, 13},		// 832
	{0x0072, 13},		// 896
	{0x0073, 13},		// 960
	{0x0074, 13},		// 1024
	{0x0075, 13},		// 1088
	{0x0076, 13},		// 1152
	{0x0077, 13},		// 1216
	{0x0052, 13},		// 1280
	{0x0053, 13},		// 1344
	{0x0054, 13},		// 1408
	{0x0055, 13},		// 1472
	{0x005A, 13},		// 1536
	{0x005B, 13},		// 1600
	{0x0064, 13},		// 1664
	{0x0065, 13},		// 1728
    };
    if ( len >= 64 ) {
	int index = 63 + (len >> 6);
	writeG3Code( blackCodes[index].code, blackCodes[index].bits );
	len &= 63;
    }
    writeG3Code( blackCodes[len].code, blackCodes[len].bits );
}

void QtopiaPrintEnginePrivate::writeG3EOL()
{
    int bitToPad;
    if ( partialBits <= 4 ) {
        bitToPad = 4 - partialBits;
    } else {
        bitToPad = 8 - partialBits + 4;
    }

    partialByte = ((partialByte << (bitToPad + 12)) | 0x0001);
    partialBits += bitToPad + 12;

    while ( partialBits >= 8 ) {
        partialBits -= 8;
        buffer.append( (char)(partialByte >> partialBits ) );
    }
//    writeG3Code( 0x0001, 12 );
}

void QtopiaPrintBuffer::append( short value )
{
    if ( _bigEndian ) {
	_data.append( (char)(value >> 8) );
	_data.append( (char)value );
    } else {
	_data.append( (char)value );
	_data.append( (char)(value >> 8) );
    }
}

void QtopiaPrintBuffer::append( int value )
{
    if ( _bigEndian ) {
	_data.append( (char)(value >> 24) );
	_data.append( (char)(value >> 16) );
	_data.append( (char)(value >> 8) );
	_data.append( (char)value );
    } else {
	_data.append( (char)value );
	_data.append( (char)(value >> 8) );
	_data.append( (char)(value >> 16) );
	_data.append( (char)(value >> 24) );
    }
}

void QtopiaPrintBuffer::patch( int posn, int value )
{
    if ( _bigEndian ) {
	_data[posn]     = (char)(value >> 24);
	_data[posn + 1] = (char)(value >> 16);
	_data[posn + 2] = (char)(value >> 8);
	_data[posn + 3] = (char)value;
    } else {
        _data[posn]     = (char)value;
	_data[posn + 1] = (char)(value >> 8);
	_data[posn + 2] = (char)(value >> 16);
	_data[posn + 3] = (char)(value >> 24);
    }
}

void QtopiaPrintBuffer::pad()
{
    while ( ( _data.size() % 4 ) != 0 )
	_data.append( (char)0 );
}

QT_END_NAMESPACE

#endif // QT_NO_PRINTER