Test conversion to TQt3 from Qt3 8c6fc1f8e35fd264dd01c582ca5e7549b32ab731

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diff --git a/src/kernel/qpixmap.cpp b/src/kernel/qpixmap.cpp
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+/****************************************************************************
+**
+** Implementation of TQPixmap class
+**
+** Created : 950301
+**
+** Copyright (C) 1992-2008 Trolltech ASA.  All rights reserved.
+**
+** This file is part of the kernel module of the TQt GUI Toolkit.
+**
+** This file may be used under the terms of the GNU General
+** Public License versions 2.0 or 3.0 as published by the Free
+** Software Foundation and appearing in the files LICENSE.GPL2
+** and LICENSE.GPL3 included in the packaging of this file.
+** Alternatively you may (at your option) use any later version
+** of the GNU General Public License if such license has been
+** publicly approved by Trolltech ASA (or its successors, if any)
+** and the KDE Free TQt Foundation.
+**
+** Please review the following information to ensure GNU General
+** Public Licensing retquirements will be met:
+** http://trolltech.com/products/qt/licenses/licensing/opensource/.
+** If you are unsure which license is appropriate for your use, please
+** review the following information:
+** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
+** or contact the sales department at sales@trolltech.com.
+**
+** This file may be used under the terms of the Q Public License as
+** defined by Trolltech ASA and appearing in the file LICENSE.TQPL
+** included in the packaging of this file.  Licensees holding valid TQt
+** Commercial licenses may use this file in accordance with the TQt
+** Commercial License Agreement provided with the Software.
+**
+** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
+** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
+** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
+** herein.
+**
+**********************************************************************/
+
+#include "qpixmap.h"
+
+#include "qbitmap.h"
+#include "qimage.h"
+#include "qwidget.h"
+#include "qpainter.h"
+#include "qdatastream.h"
+#include "qbuffer.h"
+#include "qobjectlist.h"
+#include "qapplication.h"
+#include <private/qinternal_p.h>
+#include "qmime.h"
+#include "qdragobject.h"
+#include "qfile.h"
+
+/*!
+    \class TQPixmap qpixmap.h
+    \brief The TQPixmap class is an off-screen, pixel-based paint device.
+
+    \ingroup graphics
+    \ingroup images
+    \ingroup shared
+    \mainclass
+
+    TQPixmap is one of the two classes TQt provides for dealing with
+    images; the other is TQImage. TQPixmap is designed and optimized
+    for drawing; TQImage is designed and optimized for I/O and for
+    direct pixel access/manipulation. There are (slow) functions to
+    convert between TQImage and TQPixmap: convertToImage() and
+    convertFromImage().
+
+    One common use of the TQPixmap class is to enable smooth updating
+    of widgets. Whenever something complex needs to be drawn, you can
+    use a pixmap to obtain flicker-free drawing, like this:
+
+    \list 1
+    \i Create a pixmap with the same size as the widget.
+    \i Fill the pixmap with the widget background color.
+    \i Paint the pixmap.
+    \i bitBlt() the pixmap contents onto the widget.
+    \endlist
+
+    Pixel data in a pixmap is internal and is managed by the
+    underlying window system. Pixels can be accessed only through
+    TQPainter functions, through bitBlt(), and by converting the
+    TQPixmap to a TQImage.
+
+    You can easily display a TQPixmap on the screen using
+    TQLabel::setPixmap(). For example, all the TQButton subclasses
+    support pixmap use.
+
+    The TQPixmap class uses \link shclass.html copy-on-write\endlink,
+    so it is practical to pass TQPixmap objects by value.
+
+    You can retrieve the width(), height(), depth() and size() of a
+    pixmap. The enclosing rectangle is given by rect(). Pixmaps can be
+    filled with fill() and resized with resize(). You can create and
+    set a mask with createHeuristicMask() and setMask(). Use
+    selfMask() to see if the pixmap is identical to its mask.
+
+    In addition to loading a pixmap from file using load() you can
+    also loadFromData(). You can control optimization with
+    setOptimization() and obtain a transformed version of the pixmap
+    using xForm()
+
+    Note regarding Windows 95 and 98: on Windows 9x the system crashes
+    if you create more than about 1000 pixmaps, independent of the
+    size of the pixmaps or installed RAM. Windows NT-systems (including
+    2000, XP and following versions) do not have the same limitation,
+    but depending on the graphics etquipment the system will fail to
+    allocate pixmap objects at some point (due to system running out of
+    GDI resources).
+
+    TQt tries to work around the resource limitation. If you set the
+    pixmap optimization to \c TQPixmap::MemoryOptim and the width of
+    your pixmap is less than or equal to 128 pixels, TQt stores the
+    pixmap in a way that is very memory-efficient when there are many
+    pixmaps.
+
+    If your application uses dozens or hundreds of pixmaps (for
+    example on tool bar buttons and in popup menus), and you plan to
+    run it on Windows 95 or Windows 98, we recommend using code like
+    this:
+
+    \code
+	TQPixmap::setDefaultOptimization( TQPixmap::MemoryOptim );
+	while ( ... ) {
+	    // load tool bar pixmaps etc.
+	    TQPixmap *pixmap = new TQPixmap(fileName);
+	}
+	TQPixmap::setDefaultOptimization( TQPixmap::NormalOptim );
+    \endcode
+
+    In general it is recommended to make as much use of TQPixmap's
+    implicit sharing and the TQPixmapCache as possible.
+
+    \sa TQBitmap, TQImage, TQImageIO, \link shclass.html Shared Classes\endlink
+*/
+
+/*!
+    \enum TQPixmap::ColorMode
+
+    This enum type defines the color modes that exist for converting
+    TQImage objects to TQPixmap.
+
+    \value Auto  Select \c Color or \c Mono on a case-by-case basis.
+    \value Color Always create colored pixmaps.
+    \value Mono  Always create bitmaps.
+*/
+
+/*!
+    \enum TQPixmap::Optimization
+
+    TQPixmap has the choice of optimizing for speed or memory in a few
+    places; the best choice varies from pixmap to pixmap but can
+    generally be derived heuristically. This enum type defines a
+    number of optimization modes that you can set for any pixmap to
+    tweak the speed/memory tradeoffs:
+
+    \value DefaultOptim  Whatever TQPixmap::defaultOptimization()
+	returns. A pixmap with this optimization will have whatever
+	the current default optimization is. If the default
+	optimization is changed using setDefaultOptimization(), then
+	this will not effect any pixmaps that have already been
+	created.
+
+    \value NoOptim  No optimization (currently the same as \c
+	MemoryOptim).
+
+    \value MemoryOptim  Optimize for minimal memory use on Windows
+	9x and X11 systems.
+
+    \value NormalOptim  Optimize for typical usage. Often uses more
+	memory than \c MemoryOptim, and is often faster.
+
+    \value BestOptim  Optimize for pixmaps that are drawn very often
+	and where performance is critical. Generally uses more memory
+	than \c NormalOptim and may provide a little more speed.
+
+    We recommend using \c DefaultOptim.
+
+*/
+
+
+TQPixmap::Optimization TQPixmap::defOptim = TQPixmap::NormalOptim;
+
+
+/*!
+  \internal
+  Private constructor which takes the bitmap flag, the optimization.and a screen.
+*/
+
+TQPixmap::TQPixmap( int w, int h, int depth, bool bitmap,
+		  Optimization optimization )
+    : TQPaintDevice( TQInternal::Pixmap )
+{
+    init( w, h, depth, bitmap, optimization );
+}
+
+
+/*!
+    Constructs a null pixmap.
+
+    \sa isNull()
+*/
+
+TQPixmap::TQPixmap()
+    : TQPaintDevice( TQInternal::Pixmap )
+{
+    init( 0, 0, 0, FALSE, defOptim );
+}
+
+/*!
+    Constructs a pixmap from the TQImage \a image.
+
+    \sa convertFromImage()
+*/
+
+TQPixmap::TQPixmap( const TQImage& image )
+    : TQPaintDevice( TQInternal::Pixmap )
+{
+    init( 0, 0, 0, FALSE, defOptim );
+    convertFromImage( image );
+}
+
+/*!
+    Constructs a pixmap with \a w width, \a h height and \a depth bits
+    per pixel. The pixmap is optimized in accordance with the \a
+    optimization value.
+
+    The contents of the pixmap is uninitialized.
+
+    The \a depth can be either 1 (monochrome) or the depth of the
+    current video mode. If \a depth is negative, then the hardware
+    depth of the current video mode will be used.
+
+    If either \a w or \a h is zero, a null pixmap is constructed.
+
+    \sa isNull() TQPixmap::Optimization
+*/
+
+TQPixmap::TQPixmap( int w, int h, int depth, Optimization optimization )
+    : TQPaintDevice( TQInternal::Pixmap )
+{
+    init( w, h, depth, FALSE, optimization );
+}
+
+/*!
+    \overload TQPixmap::TQPixmap( const TQSize &size, int depth, Optimization optimization )
+
+    Constructs a pixmap of size \a size, \a depth bits per pixel,
+    optimized in accordance with the \a optimization value.
+*/
+
+TQPixmap::TQPixmap( const TQSize &size, int depth, Optimization optimization )
+    : TQPaintDevice( TQInternal::Pixmap )
+{
+    init( size.width(), size.height(), depth, FALSE, optimization );
+}
+
+#ifndef QT_NO_IMAGEIO
+/*!
+    Constructs a pixmap from the file \a fileName. If the file does
+    not exist or is of an unknown format, the pixmap becomes a null
+    pixmap.
+
+    The \a fileName, \a format and \a conversion_flags parameters are
+    passed on to load(). This means that the data in \a fileName is
+    not compiled into the binary. If \a fileName contains a relative
+    path (e.g. the filename only) the relevant file must be found
+    relative to the runtime working directory.
+
+    If the image needs to be modified to fit in a lower-resolution
+    result (e.g. converting from 32-bit to 8-bit), use the \a
+    conversion_flags to specify how you'd prefer this to happen.
+
+    \sa TQt::ImageConversionFlags isNull(), load(), loadFromData(), save(), imageFormat()
+*/
+
+TQPixmap::TQPixmap( const TQString& fileName, const char *format,
+	int conversion_flags )
+    : TQPaintDevice( TQInternal::Pixmap )
+{
+    init( 0, 0, 0, FALSE, defOptim );
+    load( fileName, format, conversion_flags );
+}
+
+/*!
+    Constructs a pixmap from the file \a fileName. If the file does
+    not exist or is of an unknown format, the pixmap becomes a null
+    pixmap.
+
+    The \a fileName, \a format and \a mode parameters are passed on to
+    load(). This means that the data in \a fileName is not compiled
+    into the binary. If \a fileName contains a relative path (e.g. the
+    filename only) the relevant file must be found relative to the
+    runtime working directory.
+
+    \sa TQPixmap::ColorMode isNull(), load(), loadFromData(), save(), imageFormat()
+*/
+
+TQPixmap::TQPixmap( const TQString& fileName, const char *format, ColorMode mode )
+    : TQPaintDevice( TQInternal::Pixmap )
+{
+    init( 0, 0, 0, FALSE, defOptim );
+    load( fileName, format, mode );
+}
+
+/*!
+    Constructs a pixmap from \a xpm, which must be a valid XPM image.
+
+    Errors are silently ignored.
+
+    Note that it's possible to squeeze the XPM variable a little bit
+    by using an unusual declaration:
+
+    \code
+	static const char * const start_xpm[]={
+	    "16 15 8 1",
+	    "a c #cec6bd",
+	....
+    \endcode
+
+    The extra \c const makes the entire definition read-only, which is
+    slightly more efficient (for example, when the code is in a shared
+    library) and ROMable when the application is to be stored in ROM.
+
+    In order to use that sort of declaration you must cast the
+    variable back to \c{const char **} when you create the TQPixmap.
+*/
+
+TQPixmap::TQPixmap( const char *xpm[] )
+    : TQPaintDevice( TQInternal::Pixmap )
+{
+    init( 0, 0, 0, FALSE, defOptim );
+    TQImage image( xpm );
+    if ( !image.isNull() )
+	convertFromImage( image );
+}
+
+/*!
+    Constructs a pixmaps by loading from \a img_data. The data can be
+    in any image format supported by TQt.
+
+    \sa loadFromData()
+*/
+
+TQPixmap::TQPixmap( const TQByteArray & img_data )
+    : TQPaintDevice( TQInternal::Pixmap )
+{
+    init( 0, 0, 0, FALSE, defOptim );
+    loadFromData( img_data );
+}
+#endif //QT_NO_IMAGEIO
+
+/*!
+    Constructs a pixmap that is a copy of \a pixmap.
+*/
+
+TQPixmap::TQPixmap( const TQPixmap &pixmap )
+    : TQPaintDevice( TQInternal::Pixmap )
+{
+    if ( pixmap.paintingActive() ) {		// make a deep copy
+	data = 0;
+	operator=( pixmap.copy() );
+    } else {
+	data = pixmap.data;
+	data->ref();
+	devFlags = pixmap.devFlags;		// copy TQPaintDevice flags
+#if defined(Q_WS_WIN)
+	hdc = pixmap.hdc;			// copy Windows device context
+#elif defined(Q_WS_X11)
+	hd = pixmap.hd;				// copy X11 drawable
+	rendhd = pixmap.rendhd;
+	copyX11Data( &pixmap );			// copy x11Data
+#elif defined(Q_WS_MAC)
+	hd = pixmap.hd;
+#endif
+    }
+}
+
+
+/*!
+    Destroys the pixmap.
+*/
+
+TQPixmap::~TQPixmap()
+{
+    deref();
+}
+
+/*! Convenience function. Gets the data associated with the absolute
+  name \a abs_name from the default mime source factory and decodes it
+  to a pixmap.
+
+  \sa TQMimeSourceFactory, TQImage::fromMimeSource(), TQImageDrag::decode()
+*/
+
+#ifndef QT_NO_MIME
+TQPixmap TQPixmap::fromMimeSource( const TQString &abs_name )
+{
+    const TQMimeSource *m = TQMimeSourceFactory::defaultFactory()->data( abs_name );
+    if ( !m ) {
+	if ( TQFile::exists( abs_name ) )
+	    return TQPixmap( abs_name );
+#if defined(QT_CHECK_STATE)
+	if ( !abs_name.isEmpty() )
+	    qWarning( "TQPixmap::fromMimeSource: Cannot find pixmap \"%s\" in the mime source factory",
+		      abs_name.latin1() );
+#endif
+	return TQPixmap();
+    }
+    TQPixmap pix;
+    TQImageDrag::decode( m, pix );
+    return pix;
+}
+#endif
+
+/*!
+    Returns a \link shclass.html deep copy\endlink of the pixmap using
+    the bitBlt() function to copy the pixels.
+
+    \sa operator=()
+*/
+
+TQPixmap TQPixmap::copy( bool ignoreMask ) const
+{
+#if defined(Q_WS_X11)
+    int old = x11SetDefaultScreen( x11Screen() );
+#endif // Q_WS_X11
+
+    TQPixmap pm( data->w, data->h, data->d, data->bitmap, data->optim );
+
+    if ( !pm.isNull() ) {			// copy the bitmap
+#if defined(Q_WS_X11)
+	pm.cloneX11Data( this );
+#endif // Q_WS_X11
+
+	if ( ignoreMask )
+	    bitBlt( &pm, 0, 0, this, 0, 0, data->w, data->h, TQt::CopyROP, TRUE );
+	else
+	    copyBlt( &pm, 0, 0, this, 0, 0, data->w, data->h );
+    }
+
+#if defined(Q_WS_X11)
+    x11SetDefaultScreen( old );
+#endif // Q_WS_X11
+
+    return pm;
+}
+
+
+/*!
+    Assigns the pixmap \a pixmap to this pixmap and returns a
+    reference to this pixmap.
+*/
+
+TQPixmap &TQPixmap::operator=( const TQPixmap &pixmap )
+{
+    if ( paintingActive() ) {
+#if defined(QT_CHECK_STATE)
+	qWarning("TQPixmap::operator=: Cannot assign to pixmap during painting");
+#endif
+	return *this;
+    }
+    pixmap.data->ref();				// avoid 'x = x'
+    deref();
+    if ( pixmap.paintingActive() ) {		// make a deep copy
+	init( pixmap.width(), pixmap.height(), pixmap.depth(),
+	      pixmap.data->bitmap, pixmap.data->optim );
+	data->uninit = FALSE;
+	if ( !isNull() )
+	    copyBlt( this, 0, 0, &pixmap, 0, 0, pixmap.width(), pixmap.height() );
+	pixmap.data->deref();
+    } else {
+	data = pixmap.data;
+	devFlags = pixmap.devFlags;		// copy TQPaintDevice flags
+#if defined(Q_WS_WIN)
+	hdc = pixmap.hdc;
+#elif defined(Q_WS_X11)
+	hd = pixmap.hd;				// copy TQPaintDevice drawable
+	rendhd = pixmap.rendhd;
+	copyX11Data( &pixmap );			// copy x11Data
+#elif defined(Q_WS_MACX) || defined(Q_OS_MAC9)
+	hd = pixmap.hd;
+#endif
+    }
+    return *this;
+}
+
+
+/*!
+    \overload
+
+    Converts the image \a image to a pixmap that is assigned to this
+    pixmap. Returns a reference to the pixmap.
+
+    \sa convertFromImage().
+*/
+
+TQPixmap &TQPixmap::operator=( const TQImage &image )
+{
+    convertFromImage( image );
+    return *this;
+}
+
+
+/*!
+    \fn bool TQPixmap::isTQBitmap() const
+
+    Returns TRUE if this is a TQBitmap; otherwise returns FALSE.
+*/
+
+/*!
+    \fn bool TQPixmap::isNull() const
+
+    Returns TRUE if this is a null pixmap; otherwise returns FALSE.
+
+    A null pixmap has zero width, zero height and no contents. You
+    cannot draw in a null pixmap or bitBlt() anything to it.
+
+    Resizing an existing pixmap to (0, 0) makes a pixmap into a null
+    pixmap.
+
+    \sa resize()
+*/
+
+/*!
+    \fn int TQPixmap::width() const
+
+    Returns the width of the pixmap.
+
+    \sa height(), size(), rect()
+*/
+
+/*!
+    \fn int TQPixmap::height() const
+
+    Returns the height of the pixmap.
+
+    \sa width(), size(), rect()
+*/
+
+/*!
+    \fn TQSize TQPixmap::size() const
+
+    Returns the size of the pixmap.
+
+    \sa width(), height(), rect()
+*/
+
+/*!
+    \fn TQRect TQPixmap::rect() const
+
+    Returns the enclosing rectangle (0,0,width(),height()) of the pixmap.
+
+    \sa width(), height(), size()
+*/
+
+/*!
+    \fn int TQPixmap::depth() const
+
+    Returns the depth of the pixmap.
+
+    The pixmap depth is also called bits per pixel (bpp) or bit planes
+    of a pixmap. A null pixmap has depth 0.
+
+    \sa defaultDepth(), isNull(), TQImage::convertDepth()
+*/
+
+
+/*!
+    \overload void TQPixmap::fill( const TQWidget *widget, const TQPoint &ofs )
+
+    Fills the pixmap with the \a widget's background color or pixmap.
+    If the background is empty, nothing is done.
+
+    The \a ofs point is an offset in the widget.
+
+    The point \a ofs is a point in the widget's coordinate system. The
+    pixmap's top-left pixel will be mapped to the point \a ofs in the
+    widget. This is significant if the widget has a background pixmap;
+    otherwise the pixmap will simply be filled with the background
+    color of the widget.
+
+    Example:
+    \code
+    void CuteWidget::paintEvent( TQPaintEvent *e )
+    {
+	TQRect ur = e->rect();            // rectangle to update
+	TQPixmap pix( ur.size() );        // Pixmap for double-buffering
+	pix.fill( this, ur.topLeft() );  // fill with widget background
+
+	TQPainter p( &pix );
+	p.translate( -ur.x(), -ur.y() ); // use widget coordinate system
+					 // when drawing on pixmap
+	//    ... draw on pixmap ...
+
+	p.end();
+
+	bitBlt( this, ur.topLeft(), &pix );
+    }
+    \endcode
+*/
+
+/*!
+    \overload void TQPixmap::fill( const TQWidget *widget, int xofs, int yofs )
+
+    Fills the pixmap with the \a widget's background color or pixmap.
+    If the background is empty, nothing is done. \a xofs, \a yofs is
+    an offset in the widget.
+*/
+
+void TQPixmap::fill( const TQWidget *widget, int xofs, int yofs )
+{
+    const TQPixmap* bgpm = widget->backgroundPixmap();
+    fill( widget->backgroundColor() );
+    if ( bgpm ) {
+	if ( !bgpm->isNull() ) {
+	    TQPoint ofs = widget->backgroundOffset();
+	    xofs += ofs.x();
+	    yofs += ofs.y();
+
+	    TQPainter p;
+	    p.begin( this );
+	    p.setPen( NoPen );
+	    p.drawTiledPixmap( 0, 0, width(), height(), *widget->backgroundPixmap(), xofs, yofs );
+	    p.end();
+	}
+    }
+}
+
+
+/*!
+    \overload void TQPixmap::resize( const TQSize &size )
+
+    Resizes the pixmap to size \a size.
+*/
+
+/*!
+    Resizes the pixmap to \a w width and \a h height. If either \a w
+    or \a h is 0, the pixmap becomes a null pixmap.
+
+    If both \a w and \a h are greater than 0, a valid pixmap is
+    created. New pixels will be uninitialized (random) if the pixmap
+    is expanded.
+*/
+
+void TQPixmap::resize( int w, int h )
+{
+    if ( w < 1 || h < 1 ) {			// becomes null
+	TQPixmap pm( 0, 0, 0, data->bitmap, data->optim );
+	*this = pm;
+	return;
+    }
+    int d;
+    if ( depth() > 0 )
+	d = depth();
+    else
+	d = isTQBitmap() ? 1 : -1;
+    // Create new pixmap
+    TQPixmap pm( w, h, d, data->bitmap, data->optim );
+#ifdef Q_WS_X11
+    pm.x11SetScreen( x11Screen() );
+#endif // Q_WS_X11
+    if ( !data->uninit && !isNull() )		// has existing pixmap
+	bitBlt( &pm, 0, 0, this, 0, 0,		// copy old pixmap
+		TQMIN(width(), w),
+		TQMIN(height(),h), CopyROP, TRUE );
+#if defined(Q_WS_MAC)
+    if(data->alphapm) {
+	data->alphapm->resize(w, h);
+    } else
+#elif defined(Q_WS_X11) && !defined(QT_NO_XFTFREETYPE)
+    if (data->alphapm)
+	qWarning("TQPixmap::resize: TODO: resize alpha data");
+    else
+#endif // Q_WS_X11
+	if ( data->mask ) {				// resize mask as well
+	    if ( data->selfmask ) {			// preserve self-mask
+		pm.setMask( *((TQBitmap*)&pm) );
+	    } else {				// independent mask
+		TQBitmap m = *data->mask;
+		m.resize( w, h );
+		pm.setMask( m );
+	    }
+	}
+    *this = pm;
+}
+
+
+/*!
+    \fn const TQBitmap *TQPixmap::mask() const
+
+    Returns the mask bitmap, or 0 if no mask has been set.
+
+    \sa setMask(), TQBitmap, hasAlpha()
+*/
+
+/*!
+    Sets a mask bitmap.
+
+    The \a newmask bitmap defines the clip mask for this pixmap. Every
+    pixel in \a newmask corresponds to a pixel in this pixmap. Pixel
+    value 1 means opaque and pixel value 0 means transparent. The mask
+    must have the same size as this pixmap.
+
+    \warning Setting the mask on a pixmap will cause any alpha channel
+    data to be cleared. For example:
+    \code
+	TQPixmap alpha( "image-with-alpha.png" );
+	TQPixmap alphacopy = alpha;
+	alphacopy.setMask( *alphacopy.mask() );
+    \endcode
+    Now, alpha and alphacopy are visually different.
+
+    Setting a \link isNull() null\endlink mask resets the mask.
+
+    \sa mask(), createHeuristicMask(), TQBitmap
+*/
+
+void TQPixmap::setMask( const TQBitmap &newmask )
+{
+    const TQPixmap *tmp = &newmask;		// dec cxx bug
+    if ( (data == tmp->data) ||
+	 ( newmask.handle() && newmask.handle() == handle() ) ) {
+	TQPixmap m = tmp->copy( TRUE );
+	setMask( *((TQBitmap*)&m) );
+	data->selfmask = TRUE;			// mask == pixmap
+	return;
+    }
+
+    if ( newmask.isNull() ) {			// reset the mask
+	if (data->mask) {
+	    detach();
+	    data->selfmask = FALSE;
+
+	    delete data->mask;
+	    data->mask = 0;
+	}
+	return;
+    }
+
+    detach();
+    data->selfmask = FALSE;
+
+    if ( newmask.width() != width() || newmask.height() != height() ) {
+#if defined(QT_CHECK_RANGE)
+	qWarning( "TQPixmap::setMask: The pixmap and the mask must have "
+		  "the same size" );
+#endif
+	return;
+    }
+#if defined(Q_WS_MAC) || (defined(Q_WS_X11) && !defined(QT_NO_XFTFREETYPE))
+    // when setting the mask, we get rid of the alpha channel completely
+    delete data->alphapm;
+    data->alphapm = 0;
+#endif // Q_WS_X11 && !QT_NO_XFTFREETYPE
+
+    delete data->mask;
+    TQBitmap* newmaskcopy;
+    if ( newmask.mask() )
+	newmaskcopy = (TQBitmap*)new TQPixmap( tmp->copy( TRUE ) );
+    else
+	newmaskcopy = new TQBitmap( newmask );
+#ifdef Q_WS_X11
+    newmaskcopy->x11SetScreen( x11Screen() );
+#endif
+    data->mask = newmaskcopy;
+}
+
+
+/*!
+    \fn bool TQPixmap::selfMask() const
+
+    Returns TRUE if the pixmap's mask is identical to the pixmap
+    itself; otherwise returns FALSE.
+
+    \sa mask()
+*/
+
+#ifndef QT_NO_IMAGE_HEURISTIC_MASK
+/*!
+    Creates and returns a heuristic mask for this pixmap. It works by
+    selecting a color from one of the corners and then chipping away
+    pixels of that color, starting at all the edges.
+
+    The mask may not be perfect but it should be reasonable, so you
+    can do things such as the following:
+    \code
+    pm->setMask( pm->createHeuristicMask() );
+    \endcode
+
+    This function is slow because it involves transformation to a
+    TQImage, non-trivial computations and a transformation back to a
+    TQBitmap.
+
+    If \a clipTight is TRUE the mask is just large enough to cover the
+    pixels; otherwise, the mask is larger than the data pixels.
+
+    \sa TQImage::createHeuristicMask()
+*/
+
+TQBitmap TQPixmap::createHeuristicMask( bool clipTight ) const
+{
+    TQBitmap m;
+    m.convertFromImage( convertToImage().createHeuristicMask(clipTight) );
+    return m;
+}
+#endif
+#ifndef QT_NO_IMAGEIO
+/*!
+    Returns a string that specifies the image format of the file \a
+    fileName, or 0 if the file cannot be read or if the format cannot
+    be recognized.
+
+    The TQImageIO documentation lists the supported image formats.
+
+    \sa load(), save()
+*/
+
+const char* TQPixmap::imageFormat( const TQString &fileName )
+{
+    return TQImageIO::imageFormat(fileName);
+}
+
+/*!
+    Loads a pixmap from the file \a fileName at runtime. Returns TRUE
+    if successful; otherwise returns FALSE.
+
+    If \a format is specified, the loader attempts to read the pixmap
+    using the specified format. If \a format is not specified
+    (default), the loader reads a few bytes from the header to guess
+    the file's format.
+
+    See the convertFromImage() documentation for a description of the
+    \a conversion_flags argument.
+
+    The TQImageIO documentation lists the supported image formats and
+    explains how to add extra formats.
+
+    \sa loadFromData(), save(), imageFormat(), TQImage::load(),
+    TQImageIO
+*/
+
+bool TQPixmap::load( const TQString &fileName, const char *format,
+		    int conversion_flags )
+{
+    TQImageIO io( fileName, format );
+    bool result = io.read();
+    if ( result ) {
+	detach(); // ###hanord: Why detach here, convertFromImage does it
+	result = convertFromImage( io.image(), conversion_flags );
+    }
+    return result;
+}
+
+/*!
+    \overload
+
+    Loads a pixmap from the file \a fileName at runtime.
+
+    If \a format is specified, the loader attempts to read the pixmap
+    using the specified format. If \a format is not specified
+    (default), the loader reads a few bytes from the header to guess
+    the file's format.
+
+    The \a mode is used to specify the color mode of the pixmap.
+
+    \sa TQPixmap::ColorMode
+*/
+
+bool TQPixmap::load( const TQString &fileName, const char *format,
+		    ColorMode mode )
+{
+    int conversion_flags = 0;
+    switch (mode) {
+      case Color:
+	conversion_flags |= ColorOnly;
+	break;
+      case Mono:
+	conversion_flags |= MonoOnly;
+	break;
+      default:
+	break;// Nothing.
+    }
+    return load( fileName, format, conversion_flags );
+}
+#endif //QT_NO_IMAGEIO
+
+/*!
+    \overload
+
+    Converts \a image and sets this pixmap using color mode \a mode.
+    Returns TRUE if successful; otherwise returns FALSE.
+
+    \sa TQPixmap::ColorMode
+*/
+
+bool TQPixmap::convertFromImage( const TQImage &image, ColorMode mode )
+{
+    if ( image.isNull() ) {
+	// convert null image to null pixmap
+	*this = TQPixmap();
+	return TRUE;
+    }
+
+    int conversion_flags = 0;
+    switch (mode) {
+      case Color:
+	conversion_flags |= ColorOnly;
+	break;
+      case Mono:
+	conversion_flags |= MonoOnly;
+	break;
+      default:
+	break;// Nothing.
+    }
+    return convertFromImage( image, conversion_flags );
+}
+
+#ifndef QT_NO_IMAGEIO
+/*!
+    Loads a pixmap from the binary data in \a buf (\a len bytes).
+    Returns TRUE if successful; otherwise returns FALSE.
+
+    If \a format is specified, the loader attempts to read the pixmap
+    using the specified format. If \a format is not specified
+    (default), the loader reads a few bytes from the header to guess
+    the file's format.
+
+    See the convertFromImage() documentation for a description of the
+    \a conversion_flags argument.
+
+    The TQImageIO documentation lists the supported image formats and
+    explains how to add extra formats.
+
+    \sa load(), save(), imageFormat(), TQImage::loadFromData(),
+    TQImageIO
+*/
+
+bool TQPixmap::loadFromData( const uchar *buf, uint len, const char *format,
+			    int conversion_flags )
+{
+    TQByteArray a;
+    a.setRawData( (char *)buf, len );
+    TQBuffer b( a );
+    b.open( IO_ReadOnly );
+    TQImageIO io( &b, format );
+    bool result = io.read();
+    b.close();
+    a.resetRawData( (char *)buf, len );
+    if ( result ) {
+	detach();
+	result = convertFromImage( io.image(), conversion_flags );
+    }
+    return result;
+}
+
+/*!
+    \overload
+
+    Loads a pixmap from the binary data in \a buf (\a len bytes) using
+    color mode \a mode. Returns TRUE if successful; otherwise returns
+    FALSE.
+
+    If \a format is specified, the loader attempts to read the pixmap
+    using the specified format. If \a format is not specified
+    (default), the loader reads a few bytes from the header to guess
+    the file's format.
+
+    \sa TQPixmap::ColorMode
+*/
+
+bool TQPixmap::loadFromData( const uchar *buf, uint len, const char *format,
+			    ColorMode mode )
+{
+    int conversion_flags = 0;
+    switch (mode) {
+      case Color:
+	conversion_flags |= ColorOnly;
+	break;
+      case Mono:
+	conversion_flags |= MonoOnly;
+	break;
+      default:
+	break;// Nothing.
+    }
+    return loadFromData( buf, len, format, conversion_flags );
+}
+
+/*!
+    \overload
+*/
+
+bool TQPixmap::loadFromData( const TQByteArray &buf, const char *format,
+			    int conversion_flags )
+{
+    return loadFromData( (const uchar *)(buf.data()), buf.size(),
+			 format, conversion_flags );
+}
+
+
+/*!
+    Saves the pixmap to the file \a fileName using the image file
+    format \a format and a quality factor \a quality. \a quality must
+    be in the range [0,100] or -1. Specify 0 to obtain small
+    compressed files, 100 for large uncompressed files, and -1 to use
+    the default settings. Returns TRUE if successful; otherwise
+    returns FALSE.
+
+    \sa load(), loadFromData(), imageFormat(), TQImage::save(),
+    TQImageIO
+*/
+
+bool TQPixmap::save( const TQString &fileName, const char *format, int quality ) const
+{
+    if ( isNull() )
+	return FALSE;				// nothing to save
+    TQImageIO io( fileName, format );
+    return doImageIO( &io, quality );
+}
+
+/*!
+    \overload
+
+    This function writes a TQPixmap to the TQIODevice, \a device. This
+    can be used, for example, to save a pixmap directly into a
+    TQByteArray:
+    \code
+    TQPixmap pixmap;
+    TQByteArray ba;
+    TQBuffer buffer( ba );
+    buffer.open( IO_WriteOnly );
+    pixmap.save( &buffer, "PNG" ); // writes pixmap into ba in PNG format
+    \endcode
+*/
+
+bool TQPixmap::save( TQIODevice* device, const char* format, int quality ) const
+{
+    if ( isNull() )
+	return FALSE;				// nothing to save
+    TQImageIO io( device, format );
+    return doImageIO( &io, quality );
+}
+
+/*! \internal
+*/
+
+bool TQPixmap::doImageIO( TQImageIO* io, int quality ) const
+{
+    if ( !io )
+	return FALSE;
+    io->setImage( convertToImage() );
+#if defined(QT_CHECK_RANGE)
+    if ( quality > 100  || quality < -1 )
+	qWarning( "TQPixmap::save: quality out of range [-1,100]" );
+#endif
+    if ( quality >= 0 )
+	io->setQuality( TQMIN(quality,100) );
+    return io->write();
+}
+
+#endif //QT_NO_IMAGEIO
+
+/*!
+    \fn int TQPixmap::serialNumber() const
+
+    Returns a number that uniquely identifies the contents of this
+    TQPixmap object. This means that multiple TQPixmap objects can have
+    the same serial number as long as they refer to the same contents.
+
+    An example of where this is useful is for caching TQPixmaps.
+
+    \sa TQPixmapCache
+*/
+
+
+/*!
+    Returns the default pixmap optimization setting.
+
+    \sa setDefaultOptimization(), setOptimization(), optimization()
+*/
+
+TQPixmap::Optimization TQPixmap::defaultOptimization()
+{
+    return defOptim;
+}
+
+/*!
+    Sets the default pixmap optimization.
+
+    All \e new pixmaps that are created will use this default
+    optimization. You may also set optimization for individual pixmaps
+    using the setOptimization() function.
+
+    The initial default \a optimization setting is \c TQPixmap::Normal.
+
+    \sa defaultOptimization(), setOptimization(), optimization()
+*/
+
+void TQPixmap::setDefaultOptimization( Optimization optimization )
+{
+    if ( optimization != DefaultOptim )
+	defOptim = optimization;
+}
+
+
+// helper for next function.
+static TQPixmap grabChildWidgets( TQWidget * w )
+{
+    TQPixmap res( w->width(), w->height() );
+    if ( res.isNull() && w->width() )
+	return res;
+    res.fill( w, TQPoint( 0, 0 ) );
+    TQPaintDevice *oldRedirect = TQPainter::redirect( w );
+    TQPainter::redirect( w, &res );
+    bool dblbfr = TQSharedDoubleBuffer::isDisabled();
+    TQSharedDoubleBuffer::setDisabled( TRUE );
+    TQPaintEvent e( w->rect(), FALSE );
+    TQApplication::sendEvent( w, &e );
+    TQSharedDoubleBuffer::setDisabled( dblbfr );
+    TQPainter::redirect( w, oldRedirect );
+
+    const TQObjectList * children = w->children();
+    if ( children ) {
+	TQPainter p( &res );
+	TQObjectListIt it( *children );
+	TQObject * child;
+	while( (child=it.current()) != 0 ) {
+	    ++it;
+	    if ( child->isWidgetType() &&
+		 !((TQWidget *)child)->isHidden() &&
+                 !((TQWidget *)child)->isTopLevel() &&
+		 ((TQWidget *)child)->geometry().intersects( w->rect() ) ) {
+		// those conditions aren't tquite right, it's possible
+		// to have a grandchild completely outside its
+		// grandparent, but partially inside its parent.  no
+		// point in optimizing for that.
+
+		// make sure to evaluate pos() first - who knows what
+		// the paint event(s) inside grabChildWidgets() will do.
+		TQPoint childpos = ((TQWidget *)child)->pos();
+		TQPixmap cpm = grabChildWidgets( (TQWidget *)child );
+		if ( cpm.isNull() ) {
+		    // Some child pixmap failed - abort and reset
+		    res.resize( 0, 0 );
+		    break;
+		}
+		p.drawPixmap( childpos, cpm);
+	    }
+	}
+    }
+    return res;
+}
+
+
+/*!
+    Creates a pixmap and paints \a widget in it.
+
+    If the \a widget has any children, then they are also painted in
+    the appropriate positions.
+
+    If you specify \a x, \a y, \a w or \a h, only the rectangle you
+    specify is painted. The defaults are 0, 0 (top-left corner) and
+    -1,-1 (which means the entire widget).
+
+    (If \a w is negative, the function copies everything to the right
+    border of the window. If \a h is negative, the function copies
+    everything to the bottom of the window.)
+
+    If \a widget is 0, or if the rectangle defined by \a x, \a y, the
+    modified \a w and the modified \a h does not overlap the \a
+    {widget}->rect(), this function will return a null TQPixmap.
+
+    This function actually asks \a widget to paint itself (and its
+    children to paint themselves). TQPixmap::grabWindow() grabs pixels
+    off the screen, which is a bit faster and picks up \e exactly
+    what's on-screen. This function works by calling paintEvent() with
+    painter redirection turned on. If there are overlaying windows,
+    grabWindow() will see them, but not this function.
+
+    If there is overlap, it returns a pixmap of the size you want,
+    containing a rendering of \a widget. If the rectangle you ask for
+    is a superset of \a widget, the areas outside \a widget are
+    covered with the widget's background.
+
+    If an error occurs when trying to grab the widget, such as the
+    size of the widget being too large to fit in memory, an isNull()
+    pixmap is returned.
+
+    \sa grabWindow() TQPainter::redirect() TQWidget::paintEvent()
+*/
+
+TQPixmap TQPixmap::grabWidget( TQWidget * widget, int x, int y, int w, int h )
+{
+    TQPixmap res;
+    if ( !widget )
+	return res;
+
+    if ( w < 0 )
+	w = widget->width() - x;
+    if ( h < 0 )
+	h = widget->height() - y;
+
+    TQRect wr( x, y, w, h );
+    if ( wr == widget->rect() )
+	return grabChildWidgets( widget );
+    if ( !wr.intersects( widget->rect() ) )
+	return res;
+
+    res.resize( w, h );
+    if( res.isNull() )
+	return res;
+    res.fill( widget, TQPoint( w,h ) );
+    TQPixmap tmp( grabChildWidgets( widget ) );
+    if( tmp.isNull() )
+	return tmp;
+    ::bitBlt( &res, 0, 0, &tmp, x, y, w, h );
+    return res;
+}
+
+/*!
+    Returns the actual matrix used for transforming a pixmap with \a w
+    width and \a h height and matrix \a matrix.
+
+    When transforming a pixmap with xForm(), the transformation matrix
+    is internally adjusted to compensate for unwanted translation,
+    i.e. xForm() returns the smallest pixmap containing all
+    transformed points of the original pixmap.
+
+    This function returns the modified matrix, which maps points
+    correctly from the original pixmap into the new pixmap.
+
+    \sa xForm(), TQWMatrix
+*/
+#ifndef QT_NO_PIXMAP_TRANSFORMATION
+TQWMatrix TQPixmap::trueMatrix( const TQWMatrix &matrix, int w, int h )
+{
+    const double dt = (double)0.;
+    double x1,y1, x2,y2, x3,y3, x4,y4;		// get corners
+    double xx = (double)w;
+    double yy = (double)h;
+
+    TQWMatrix mat( matrix.m11(), matrix.m12(), matrix.m21(), matrix.m22(), 0., 0. );
+
+    mat.map( dt, dt, &x1, &y1 );
+    mat.map( xx, dt, &x2, &y2 );
+    mat.map( xx, yy, &x3, &y3 );
+    mat.map( dt, yy, &x4, &y4 );
+
+    double ymin = y1;				// lowest y value
+    if ( y2 < ymin ) ymin = y2;
+    if ( y3 < ymin ) ymin = y3;
+    if ( y4 < ymin ) ymin = y4;
+    double xmin = x1;				// lowest x value
+    if ( x2 < xmin ) xmin = x2;
+    if ( x3 < xmin ) xmin = x3;
+    if ( x4 < xmin ) xmin = x4;
+
+    double ymax = y1;				// lowest y value
+    if ( y2 > ymax ) ymax = y2;
+    if ( y3 > ymax ) ymax = y3;
+    if ( y4 > ymax ) ymax = y4;
+    double xmax = x1;				// lowest x value
+    if ( x2 > xmax ) xmax = x2;
+    if ( x3 > xmax ) xmax = x3;
+    if ( x4 > xmax ) xmax = x4;
+
+    if ( xmax-xmin > 1.0 )
+	xmin -= xmin/(xmax-xmin);
+    if ( ymax-ymin > 1.0 )
+	ymin -= ymin/(ymax-ymin);
+
+    mat.setMatrix( matrix.m11(), matrix.m12(), matrix.m21(), matrix.m22(), -xmin, -ymin );
+    return mat;
+}
+#endif // QT_NO_WMATRIX
+
+
+
+
+
+/*****************************************************************************
+  TQPixmap stream functions
+ *****************************************************************************/
+#if !defined(QT_NO_DATASTREAM) && !defined(QT_NO_IMAGEIO)
+/*!
+    \relates TQPixmap
+
+    Writes the pixmap \a pixmap to the stream \a s as a PNG image.
+
+    Note that writing the stream to a file will not produce a valid image file.
+
+    \sa TQPixmap::save()
+    \link datastreamformat.html Format of the TQDataStream operators \endlink
+*/
+
+TQDataStream &operator<<( TQDataStream &s, const TQPixmap &pixmap )
+{
+    s << pixmap.convertToImage();
+    return s;
+}
+
+/*!
+    \relates TQPixmap
+
+    Reads a pixmap from the stream \a s into the pixmap \a pixmap.
+
+    \sa TQPixmap::load()
+    \link datastreamformat.html Format of the TQDataStream operators \endlink
+*/
+
+TQDataStream &operator>>( TQDataStream &s, TQPixmap &pixmap )
+{
+    TQImage img;
+    s >> img;
+    pixmap.convertFromImage( img );
+    return s;
+}
+
+#endif //QT_NO_DATASTREAM
+
+
+
+
+/*****************************************************************************
+  TQPixmap (and TQImage) helper functions
+ *****************************************************************************/
+/*
+  This internal function contains the common (i.e. platform independent) code
+  to do a transformation of pixel data. It is used by TQPixmap::xForm() and by
+  TQImage::xForm().
+
+  \a trueMat is the true transformation matrix (see TQPixmap::trueMatrix()) and
+  \a xoffset is an offset to the matrix.
+
+  \a msbfirst specifies for 1bpp images, if the MSB or LSB comes first and \a
+  depth specifies the colordepth of the data.
+
+  \a dptr is a pointer to the destination data, \a dbpl specifies the bits per
+  line for the destination data, \a p_inc is the offset that we advance for
+  every scanline and \a dHeight is the height of the destination image.
+
+  \a sprt is the pointer to the source data, \a sbpl specifies the bits per
+  line of the source data, \a sWidth and \a sHeight are the width and height of
+  the source data.
+*/
+#ifndef QT_NO_PIXMAP_TRANSFORMATION
+#undef IWX_MSB
+#define IWX_MSB(b)	if ( trigx < maxws && trigy < maxhs ) {			      \
+			    if ( *(sptr+sbpl*(trigy>>16)+(trigx>>19)) &		      \
+				 (1 << (7-((trigx>>16)&7))) )			      \
+				*dptr |= b;					      \
+			}							      \
+			trigx += m11;						      \
+			trigy += m12;
+	// END OF MACRO
+#undef IWX_LSB
+#define IWX_LSB(b)	if ( trigx < maxws && trigy < maxhs ) {			      \
+			    if ( *(sptr+sbpl*(trigy>>16)+(trigx>>19)) &		      \
+				 (1 << ((trigx>>16)&7)) )			      \
+				*dptr |= b;					      \
+			}							      \
+			trigx += m11;						      \
+			trigy += m12;
+	// END OF MACRO
+#undef IWX_PIX
+#define IWX_PIX(b)	if ( trigx < maxws && trigy < maxhs ) {			      \
+			    if ( (*(sptr+sbpl*(trigy>>16)+(trigx>>19)) &	      \
+				 (1 << (7-((trigx>>16)&7)))) == 0 )		      \
+				*dptr &= ~b;					      \
+			}							      \
+			trigx += m11;						      \
+			trigy += m12;
+	// END OF MACRO
+bool qt_xForm_helper( const TQWMatrix &trueMat, int xoffset,
+	int type, int depth,
+	uchar *dptr, int dbpl, int p_inc, int dHeight,
+	uchar *sptr, int sbpl, int sWidth, int sHeight
+	)
+{
+    int m11 = int(trueMat.m11()*65536.0 + 1.);
+    int m12 = int(trueMat.m12()*65536.0 + 1.);
+    int m21 = int(trueMat.m21()*65536.0 + 1.);
+    int m22 = int(trueMat.m22()*65536.0 + 1.);
+    int dx  = qRound(trueMat.dx() *65536.0);
+    int dy  = qRound(trueMat.dy() *65536.0);
+
+    int m21ydx = dx + (xoffset<<16);
+    int m22ydy = dy;
+    uint trigx;
+    uint trigy;
+    uint maxws = sWidth<<16;
+    uint maxhs = sHeight<<16;
+
+    for ( int y=0; y<dHeight; y++ ) {		// for each target scanline
+	trigx = m21ydx;
+	trigy = m22ydy;
+	uchar *maxp = dptr + dbpl;
+	if ( depth != 1 ) {
+	    switch ( depth ) {
+		case 8:				// 8 bpp transform
+		while ( dptr < maxp ) {
+		    if ( trigx < maxws && trigy < maxhs )
+			*dptr = *(sptr+sbpl*(trigy>>16)+(trigx>>16));
+		    trigx += m11;
+		    trigy += m12;
+		    dptr++;
+		}
+		break;
+
+		case 16:			// 16 bpp transform
+		while ( dptr < maxp ) {
+		    if ( trigx < maxws && trigy < maxhs )
+			*((ushort*)dptr) = *((ushort *)(sptr+sbpl*(trigy>>16) +
+						     ((trigx>>16)<<1)));
+		    trigx += m11;
+		    trigy += m12;
+		    dptr++;
+		    dptr++;
+		}
+		break;
+
+		case 24: {			// 24 bpp transform
+		uchar *p2;
+		while ( dptr < maxp ) {
+		    if ( trigx < maxws && trigy < maxhs ) {
+			p2 = sptr+sbpl*(trigy>>16) + ((trigx>>16)*3);
+			dptr[0] = p2[0];
+			dptr[1] = p2[1];
+			dptr[2] = p2[2];
+		    }
+		    trigx += m11;
+		    trigy += m12;
+		    dptr += 3;
+		}
+		}
+		break;
+
+		case 32:			// 32 bpp transform
+		while ( dptr < maxp ) {
+		    if ( trigx < maxws && trigy < maxhs )
+			*((uint*)dptr) = *((uint *)(sptr+sbpl*(trigy>>16) +
+						   ((trigx>>16)<<2)));
+		    trigx += m11;
+		    trigy += m12;
+		    dptr += 4;
+		}
+		break;
+
+		default: {
+		return FALSE;
+		}
+	    }
+	} else  {
+	    switch ( type ) {
+		case QT_XFORM_TYPE_MSBFIRST:
+		    while ( dptr < maxp ) {
+			IWX_MSB(128);
+			IWX_MSB(64);
+			IWX_MSB(32);
+			IWX_MSB(16);
+			IWX_MSB(8);
+			IWX_MSB(4);
+			IWX_MSB(2);
+			IWX_MSB(1);
+			dptr++;
+		    }
+		    break;
+		case QT_XFORM_TYPE_LSBFIRST:
+		    while ( dptr < maxp ) {
+			IWX_LSB(1);
+			IWX_LSB(2);
+			IWX_LSB(4);
+			IWX_LSB(8);
+			IWX_LSB(16);
+			IWX_LSB(32);
+			IWX_LSB(64);
+			IWX_LSB(128);
+			dptr++;
+		    }
+		    break;
+#  if defined(Q_WS_WIN)
+		case QT_XFORM_TYPE_WINDOWSPIXMAP:
+		    while ( dptr < maxp ) {
+			IWX_PIX(128);
+			IWX_PIX(64);
+			IWX_PIX(32);
+			IWX_PIX(16);
+			IWX_PIX(8);
+			IWX_PIX(4);
+			IWX_PIX(2);
+			IWX_PIX(1);
+			dptr++;
+		    }
+		    break;
+#  endif
+	    }
+	}
+	m21ydx += m21;
+	m22ydy += m22;
+	dptr += p_inc;
+    }
+    return TRUE;
+}
+#undef IWX_MSB
+#undef IWX_LSB
+#undef IWX_PIX
+#endif // QT_NO_PIXMAP_TRANSFORMATION