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qt4-tqt-theme-engine/lib/tdeqt4painter.cpp

785 lines
24 KiB

/****************************************************************************
**
** Implementation of TDEQt4PaintDevice class
**
** Copyright (C) 2012 Timothy Pearson. All rights reserved.
**
** This file is part of the TDE Qt4 style interface
**
** 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.
**
** 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 "tdeqt4painter.h"
#include "tqpainter.h"
#include "tqpixmap.h"
#include "tqbitmap.h"
#include "tqimage.h"
#include "tqfile.h"
#include "tqpaintdevicemetrics.h"
#undef Qt
#include "tdeqt4converter.h"
#define SET_BIT(x, y) (x |= 1 << y)
#define TEST_BIT(x, y) ((x & (1 << y)) >> y)
// When the time comes that Qt4/Qt5 are no longer able to use X11 data structures, unset this define...
#define USE_QT4_FROM_X11_PIXMAP_FUNCTIONS
/*!
\class TDEQt4PaintDevice tdeqt4painter.h
\brief The TDEQt4PaintDevice class is a paint device that translates
Qt paint events to a TQt painter.
\ingroup graphics
\ingroup shared
*/
inline int qt4PainterRectSubtraction(QPainter* pd) {
QPen pen = pd->pen();
return pen.style() != Qt::NoPen && pen.width() == 0 ? 1 : 0;
}
inline QRect qt4PainterAdjustedRectangle(const QRect &r, QPainter* pd)
{
QRect rect = r.normalized();
int subtract = qt4PainterRectSubtraction(pd);
if (subtract != 0) {
rect.setSize(QSize(rect.width() - subtract, rect.height() - subtract));
}
return rect;
}
/*!
Constructs TDEQt4PaintDevice on an existing QPainter
*/
TDEQt4PaintDevice::TDEQt4PaintDevice( QPainter *qt4painter )
: TQPaintDevice( TQInternal::Picture | TQInternal::ExternalDevice )
{
m_qt4painter = qt4painter;
m_qt4OrigClipping = m_qt4painter->hasClipping();
m_qt4OrigClipRegion = m_qt4painter->clipRegion();
m_qt4OrigWorldTransformEnabled = m_qt4painter->worldMatrixEnabled();
m_qt4OrigWorldTransform = m_qt4painter->worldTransform();
}
/*!
Destroys the TDEQt4PaintDevice.
*/
TDEQt4PaintDevice::~TDEQt4PaintDevice()
{
}
/*!
\internal
Implementation of the function forwarded above to the internal data struct.
*/
bool TDEQt4PaintDevice::cmd( int c, TQPainter *pt, TQPDevCmdParam *p )
{
Q_UNUSED(pt);
unsigned int i;
int x;
int y;
QPen qt4pen;
QRect qt4rect;
QBrush qt4brush;
QPoint qt4point1;
QPoint qt4point2;
QPolygon qt4polygon;
QFont qt4font;
QPixmap qt4pixmap;
QString qt4string;
QMatrix qt4matrix;
QRegion qt4region;
Qt::BGMode qt4bkmode = Qt::TransparentMode;
QPainter::CompositionMode qt4compositionmode = QPainter::CompositionMode_SourceOver;
int qt4formattedtextflags = 0;
if (p) {
if (c == PdcSetClipRegion) {
// FIXME
// Ellipses are not being handle correctly AT ALL
// Look at the Lipstik progress bar for an example of this...
#if 0
// IMPRECISE
const TQMemArray<TQRect> rects = p[0].rgn->rects();
for ( uint i = 0; i < rects.count(); i++ ) {
TQRect r = rects[(int)i];
qt4region = qt4region.united(QRegion(QRect(r.x(), r.y(), r.width(), r.height())));
}
{
#else
// SLOW
TQRect tqt3br = p[0].rgn->boundingRect();
if (!tqt3br.isNull()) {
#ifdef USE_QT4_FROM_X11_PIXMAP_FUNCTIONS
TQBitmap regionMask(tqt3br.x()+tqt3br.width(), tqt3br.y()+tqt3br.height());
regionMask.fill(TQt::color0);
TQPainter tqt3brpainter(&regionMask);
tqt3brpainter.setClipRegion(*p[0].rgn);
tqt3brpainter.fillRect(0,0,regionMask.width(),regionMask.height(),TQt::color1);
tqt3brpainter.end();
QBitmap qt4RegionMask = QPixmap::fromX11Pixmap(regionMask.handle(), QPixmap::ImplicitlyShared);
qt4RegionMask.detach();
#else // USE_QT4_FROM_X11_PIXMAP_FUNCTIONS
TQBitmap regionMask(tqt3br.x()+tqt3br.width(), tqt3br.y()+tqt3br.height(), 32);
int width = regionMask.width();
int height = regionMask.height();
int size = (((width*height)/8)+1);
unsigned char* monoData = (unsigned char*)malloc(size);
memset(monoData, 0, size);
int x;
int y;
int byte = 0;
int bit = 7;
for (x=0; x<width; x++) {
for (y=0; y<height; y++) {
if (p[0].rgn->contains(TQPoint(x,y))) {
SET_BIT(monoData[byte], bit);
}
bit--;
if (bit < 0) {
bit = 7;
byte++;
}
}
}
QBitmap qt4RegionMask = QBitmap::fromData(QSize(width, height), monoData, QImage::Format_Mono);
free(monoData);
#endif // USE_QT4_FROM_X11_PIXMAP_FUNCTIONS
qt4region = QRegion(qt4RegionMask);
#endif
TQPainter::CoordinateMode tqt3coordmode = (TQPainter::CoordinateMode)p[1].ival;
if ( tqt3coordmode == TQPainter::CoordDevice ) {
qt4region = qt4region;
}
else {
qt4region = m_qt4painter->transform().map(qt4region);
}
}
}
if (c == PdcSetWMatrix) {
const TQWMatrix* tqt3matrix = p[0].matrix;
qt4matrix = QMatrix(tqt3matrix->m11(), tqt3matrix->m12(), tqt3matrix->m21(), tqt3matrix->m22(), tqt3matrix->dx(), tqt3matrix->dy());
}
if (c == PdcSetROP) {
TQt::RasterOp rop = (TQt::RasterOp)p[0].ival;
switch (rop) {
case TQPainter::CopyROP:
qt4compositionmode=QPainter::CompositionMode_SourceOver;
break;
case TQPainter::OrROP:
qt4compositionmode=QPainter::RasterOp_SourceOrDestination;
break;
case TQPainter::XorROP:
qt4compositionmode=QPainter::RasterOp_SourceXorDestination;
break;
case TQPainter::NotAndROP:
qt4compositionmode=QPainter::RasterOp_NotSourceAndDestination;
break;
// case TQPainter::EraseROP:
// qt4compositionmode=QPainter::RasterOp_NotSourceAndDestination;
// break;
case TQPainter::NotCopyROP:
qt4compositionmode=QPainter::RasterOp_NotSource;
break;
case TQPainter::NotOrROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n", rop);
break;
case TQPainter::NotXorROP:
qt4compositionmode=QPainter::RasterOp_NotSourceXorDestination;
break;
case TQPainter::AndROP:
qt4compositionmode=QPainter::RasterOp_SourceAndDestination;
break;
// case TQPainter::NotEraseROP:
// qt4compositionmode=QPainter::RasterOp_SourceAndDestination;
// break;
case TQPainter::NotROP:
qt4compositionmode=QPainter::RasterOp_SourceAndNotDestination; // [WARNING] This may not be a correct substitute for NotROP!
break;
case TQPainter::ClearROP:
qt4compositionmode=QPainter::CompositionMode_Clear;
break;
case TQPainter::SetROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n", rop);
break;
case TQPainter::NopROP:
qt4compositionmode=QPainter::CompositionMode_Destination;
break;
case TQPainter::AndNotROP:
qt4compositionmode=QPainter::RasterOp_SourceAndNotDestination;
break;
case TQPainter::OrNotROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n", rop);
break;
case TQPainter::NandROP:
qt4compositionmode=QPainter::RasterOp_NotSourceOrNotDestination;
break;
case TQPainter::NorROP:
qt4compositionmode=QPainter::RasterOp_NotSourceAndNotDestination;
break;
default:
qt4compositionmode=QPainter::CompositionMode_SourceOver;
#if defined(QT_CHECK_RANGE)
tqWarning( "TDEQt4PaintDevice::cmd: Unhandled raster operation %d", rop );
#endif
}
}
if (( c== PdcDrawTextFormatted) || (c == PdcDrawText2Formatted)) {
qt4rect = QRect(p[0].rect->x(), p[0].rect->y(), p[0].rect->width(), p[0].rect->height());
qt4formattedtextflags = 0;
// if (p[1].ival & TQt::AlignAuto) {
// qt4formattedtextflags = qt4formattedtextflags | Qt::AlignAuto;
// }
if ((p[1].ival & TQt::AlignLeft) == TQt::AlignLeft) {
qt4formattedtextflags = qt4formattedtextflags | Qt::AlignLeft;
}
if ((p[1].ival & TQt::AlignRight) == TQt::AlignRight) {
qt4formattedtextflags = qt4formattedtextflags | Qt::AlignRight;
}
if ((p[1].ival & TQt::AlignHCenter) == TQt::AlignHCenter) {
qt4formattedtextflags = qt4formattedtextflags | Qt::AlignHCenter;
}
if ((p[1].ival & TQt::AlignJustify) == TQt::AlignJustify) {
qt4formattedtextflags = qt4formattedtextflags | Qt::AlignJustify;
}
if ((p[1].ival & TQt::AlignTop) == TQt::AlignTop) {
qt4formattedtextflags = qt4formattedtextflags | Qt::AlignTop;
}
if ((p[1].ival & TQt::AlignBottom) == TQt::AlignBottom) {
qt4formattedtextflags = qt4formattedtextflags | Qt::AlignBottom;
}
if ((p[1].ival & TQt::AlignVCenter) == TQt::AlignVCenter) {
qt4formattedtextflags = qt4formattedtextflags | Qt::AlignVCenter;
}
if ((p[1].ival & TQt::AlignCenter) == TQt::AlignCenter) {
qt4formattedtextflags = qt4formattedtextflags | Qt::AlignCenter;
}
if ((p[1].ival & TQt::SingleLine) == TQt::SingleLine) {
qt4formattedtextflags = qt4formattedtextflags | Qt::TextSingleLine;
}
if ((p[1].ival & TQt::DontClip) == TQt::DontClip) {
qt4formattedtextflags = qt4formattedtextflags | Qt::TextDontClip;
}
if ((p[1].ival & TQt::ExpandTabs) == TQt::ExpandTabs) {
qt4formattedtextflags = qt4formattedtextflags | Qt::TextExpandTabs;
}
if ((p[1].ival & TQt::ShowPrefix) == TQt::ShowPrefix) {
qt4formattedtextflags = qt4formattedtextflags | Qt::TextShowMnemonic;
}
if ((p[1].ival & TQt::WordBreak) == TQt::WordBreak) {
qt4formattedtextflags = qt4formattedtextflags | Qt::TextWordWrap;
}
if ((p[1].ival & TQt::BreakAnywhere) == TQt::BreakAnywhere) {
qt4formattedtextflags = qt4formattedtextflags | Qt::TextWrapAnywhere;
}
if ((p[1].ival & TQt::NoAccel) == TQt::NoAccel) {
qt4formattedtextflags = qt4formattedtextflags | Qt::TextHideMnemonic;
}
qt4string = QString::fromUtf8(p[2].str->utf8().data());
}
if ((c == PdcDrawPoint) || (c == PdcMoveTo) || (c == PdcLineTo) || (c == PdcSetBrushOrigin)) {
qt4point1 = QPoint(p[0].point->x(), p[0].point->y());
}
if (c == PdcDrawLine) {
qt4point1 = QPoint(p[0].point->x(), p[0].point->y());
qt4point2 = QPoint(p[1].point->x(), p[1].point->y());
}
if ((c == PdcDrawPolyline) || (c == PdcDrawPolygon) || (c == PdcDrawLineSegments) || (c == PdcDrawCubicBezier)) {
TQPointArray qt3parray = *p[0].ptarr;
qt4polygon.resize(qt3parray.count());
for (i=0;i<qt3parray.count();i++) {
qt3parray.point(i, &x, &y );
qt4polygon.setPoint(i, x, y);
}
}
if ((c == PdcDrawRect) || (c == PdcDrawRoundRect) || (c == PdcDrawEllipse) || (c == PdcDrawArc) || (c == PdcDrawPie) || (c == PdcDrawChord)) {
qt4rect = QRect(p[0].rect->x(), p[0].rect->y(), p[0].rect->width(), p[0].rect->height());
}
if (c == PdcSetBrush) {
TQt::BrushStyle tqt3brushstyle = p[0].brush->style();
Qt::BrushStyle qt4brushstyle;
switch ( tqt3brushstyle ) {
case TQt::NoBrush:
qt4brushstyle = Qt::NoBrush;
break;
case TQt::SolidPattern:
qt4brushstyle = Qt::SolidPattern;
break;
case TQt::Dense1Pattern:
qt4brushstyle = Qt::Dense1Pattern;
break;
case TQt::Dense2Pattern:
qt4brushstyle = Qt::Dense2Pattern;
break;
case TQt::Dense3Pattern:
qt4brushstyle = Qt::Dense3Pattern;
break;
case TQt::Dense4Pattern:
qt4brushstyle = Qt::Dense4Pattern;
break;
case TQt::Dense5Pattern:
qt4brushstyle = Qt::Dense5Pattern;
break;
case TQt::Dense6Pattern:
qt4brushstyle = Qt::Dense6Pattern;
break;
case TQt::Dense7Pattern:
qt4brushstyle = Qt::Dense7Pattern;
break;
case TQt::HorPattern:
qt4brushstyle = Qt::HorPattern;
break;
case TQt::VerPattern:
qt4brushstyle = Qt::VerPattern;
break;
case TQt::CrossPattern:
qt4brushstyle = Qt::CrossPattern;
break;
case TQt::BDiagPattern:
qt4brushstyle = Qt::BDiagPattern;
break;
case TQt::FDiagPattern:
qt4brushstyle = Qt::FDiagPattern;
break;
case TQt::DiagCrossPattern:
qt4brushstyle = Qt::DiagCrossPattern;
break;
case TQt::CustomPattern:
qt4brushstyle = Qt::TexturePattern;
break;
default:
qt4brushstyle = Qt::NoBrush;
#if defined(QT_CHECK_RANGE)
tqWarning( "TDEQt4PaintDevice::cmd: Invalid brush style %d", tqt3brushstyle );
#endif
}
qt4brush.setStyle(qt4brushstyle);
TQColor qt3color = p[0].brush->color();
qt4brush.setColor(QColor(qt3color.red(), qt3color.green(), qt3color.blue(), 255));
if (qt4brushstyle == Qt::TexturePattern) {
#ifdef USE_QT4_FROM_X11_PIXMAP_FUNCTIONS
TQPixmap tqtPM = *p[0].brush->pixmap();
QPixmap qtPM = QPixmap::fromX11Pixmap(tqtPM.handle(), QPixmap::ImplicitlyShared);
qtPM.detach();
#else // USE_QT4_FROM_X11_PIXMAP_FUNCTIONS
TQImage qt3image = (*p[0].brush->pixmap()).convertToImage();
qt3image = qt3image.convertDepth(32);
QImage qt4image(qt3image.bits(), qt3image.width(), qt3image.height(), QImage::Format_ARGB32);
QPixmap qtPM = QPixmap::fromImage(qt4image);
#endif // USE_QT4_FROM_X11_PIXMAP_FUNCTIONS
qt4brush.setTexture(qtPM);
}
}
if (c == PdcSetPen) {
bool customPenStyle = false;
TQt::PenStyle tqt3penstyle = p[0].pen->style();
Qt::PenStyle qt4penstyle;
QVector<qreal> dashes;
qreal mark;
qreal space;
switch ( tqt3penstyle ) {
case TQt::NoPen:
qt4penstyle = Qt::NoPen;
break;
case TQt::SolidLine:
qt4penstyle = Qt::SolidLine;
break;
case TQt::DashLine:
qt4penstyle = Qt::DashLine;
break;
case TQt::DotLine:
qt4penstyle = Qt::DotLine;
break;
case TQt::DashDotLine:
qt4penstyle = Qt::DashDotLine;
break;
case TQt::DashDotDotLine:
qt4penstyle = Qt::DashDotDotLine;
break;
case TQt::FineDotLine:
customPenStyle = true;
mark = 1;
space = 1;
dashes << mark << space;
qt4pen.setDashPattern(dashes);
break;
case TQt::MPenStyle:
qt4penstyle = Qt::MPenStyle;
break;
default:
qt4penstyle = Qt::NoPen;
#if defined(QT_CHECK_RANGE)
tqWarning( "TDEQt4PaintDevice::cmd: Invalid pen style %d", tqt3penstyle );
#endif
}
if (customPenStyle == false) {
qt4pen.setStyle(qt4penstyle);
}
TQt::PenCapStyle tqt3pencapstyle = p[0].pen->capStyle();
Qt::PenCapStyle qt4pencapstyle;
switch ( tqt3pencapstyle ) {
case TQt::FlatCap:
qt4pencapstyle = Qt::FlatCap;
break;
case TQt::SquareCap:
qt4pencapstyle = Qt::SquareCap;
break;
case TQt::RoundCap:
qt4pencapstyle = Qt::RoundCap;
break;
case TQt::MPenCapStyle:
qt4pencapstyle = Qt::MPenCapStyle;
default:
qt4pencapstyle = Qt::FlatCap;
#if defined(QT_CHECK_RANGE)
tqWarning( "TDEQt4PaintDevice::cmd: Invalid pen cap style %d", tqt3pencapstyle );
#endif
}
qt4pen.setCapStyle(qt4pencapstyle);
TQt::PenJoinStyle tqt3penjoinstyle = p[0].pen->joinStyle();
Qt::PenJoinStyle qt4penjoinstyle;
switch ( tqt3penjoinstyle ) {
case TQt::MiterJoin:
qt4penjoinstyle = Qt::MiterJoin;
break;
case TQt::BevelJoin:
qt4penjoinstyle = Qt::BevelJoin;
break;
case TQt::RoundJoin:
qt4penjoinstyle = Qt::RoundJoin;
break;
case TQt::MPenJoinStyle:
qt4penjoinstyle = Qt::MPenJoinStyle;
default:
qt4penjoinstyle = Qt::MiterJoin;
#if defined(QT_CHECK_RANGE)
tqWarning( "TDEQt4PaintDevice::cmd: Invalid pen join style %d", tqt3penjoinstyle );
#endif
}
qt4pen.setJoinStyle(qt4penjoinstyle);
TQColor qt3color = p[0].pen->color();
qt4pen.setColor(QColor(qt3color.red(), qt3color.green(), qt3color.blue(), 255));
qt4pen.setWidth(p[0].pen->width());
}
if (c == PdcSetBkMode) {
TQt::BGMode qt3bkmode = (TQt::BGMode)p[0].ival;
switch ( qt3bkmode ) {
case TQt::TransparentMode:
qt4bkmode = Qt::TransparentMode;
break;
case TQt::OpaqueMode:
qt4bkmode = Qt::OpaqueMode;
break;
default:
qt4bkmode = Qt::TransparentMode;
#if defined(QT_CHECK_RANGE)
tqWarning( "TDEQt4PaintDevice::cmd: Invalid background mode %d", qt3bkmode );
#endif
}
}
if (c == PdcSetFont) {
TQFont qt3font = *p[0].font;
qt4font = convertTQt3ToQt4Font(qt3font);
}
if (c == PdcDrawPixmap) {
qt4rect = QRect(p[0].rect->x(), p[0].rect->y(), p[0].rect->width(), p[0].rect->height());
TQPixmap qt3pixmap = *p[1].pixmap;
#ifdef USE_QT4_FROM_X11_PIXMAP_FUNCTIONS
qt4pixmap = QPixmap::fromX11Pixmap(qt3pixmap.handle(), QPixmap::ImplicitlyShared);
qt4pixmap.detach();
#else // USE_QT4_FROM_X11_PIXMAP_FUNCTIONS
TQImage qt3image = qt3pixmap.convertToImage();
qt3image = qt3image.convertDepth(32);
QImage qt4image(qt3image.bits(), qt3image.width(), qt3image.height(), QImage::Format_ARGB32);
qt4pixmap = QPixmap::fromImage(qt4image);
#endif // USE_QT4_FROM_X11_PIXMAP_FUNCTIONS
}
if (c == PdcDrawText2) {
qt4point1 = QPoint(p[0].point->x(), p[0].point->y());
qt4string = QString::fromUtf8(p[1].str->utf8().data());
}
}
int index;
int count;
int lineCount;
QPainterPath path;
switch ( c ) { // exec cmd
case PdcNOP:
break;
case PdcDrawPoint:
m_qt4painter->drawPoint( qt4point1 );
break;
case PdcMoveTo:
curPt = qt4point1;
break;
case PdcLineTo:
prevPt = curPt;
curPt = qt4point1;
m_qt4painter->drawLine( prevPt, curPt );
break;
case PdcDrawLine:
m_qt4painter->drawLine( qt4point1, qt4point2 );
break;
case PdcDrawRect:
m_qt4painter->drawRect( qt4PainterAdjustedRectangle(qt4rect, m_qt4painter) );
break;
case PdcDrawRoundRect:
m_qt4painter->drawRoundedRect( qt4PainterAdjustedRectangle(qt4rect, m_qt4painter), p[1].ival, p[2].ival );
break;
case PdcDrawEllipse:
m_qt4painter->drawEllipse( qt4PainterAdjustedRectangle(qt4rect, m_qt4painter) );
break;
case PdcDrawArc:
m_qt4painter->drawArc( qt4PainterAdjustedRectangle(qt4rect, m_qt4painter), p[1].ival, p[2].ival );
break;
case PdcDrawPie:
m_qt4painter->drawPie( qt4PainterAdjustedRectangle(qt4rect, m_qt4painter), p[1].ival, p[2].ival );
break;
case PdcDrawChord:
m_qt4painter->drawChord( qt4PainterAdjustedRectangle(qt4rect, m_qt4painter), p[1].ival, p[2].ival );
break;
case PdcDrawLineSegments:
index = 0;
count = -1;
lineCount = (count == -1) ? (qt4polygon.size() - index) / 2 : count;
m_qt4painter->drawLines(qt4polygon.constData() + index * 2, lineCount);
break;
case PdcDrawPolyline:
m_qt4painter->drawPolyline( qt4polygon );
break;
case PdcDrawPolygon:
m_qt4painter->drawPolygon( qt4polygon, (p[1].ival == 0)?Qt::OddEvenFill:Qt::WindingFill );
break;
case PdcDrawCubicBezier:
index = 0;
path.moveTo(qt4polygon.at(index));
path.cubicTo(qt4polygon.at(index+1), qt4polygon.at(index+2), qt4polygon.at(index+3));
m_qt4painter->strokePath(path, m_qt4painter->pen());
break;
case PdcDrawText:
m_qt4painter->drawText( qt4point1, qt4string );
break;
case PdcDrawTextFormatted:
m_qt4painter->drawText( qt4rect, qt4formattedtextflags, qt4string );
break;
case PdcDrawText2:
m_qt4painter->drawText( qt4point1, qt4string );
break;
case PdcDrawText2Formatted:
m_qt4painter->drawText( qt4rect, qt4formattedtextflags, qt4string );
break;
case PdcDrawPixmap:
m_qt4painter->drawPixmap( qt4rect, qt4pixmap );
break;
#if 0
case PdcDrawImage: {
TQImage image;
if ( d->formatMajor < 4 ) {
s >> p >> image;
painter->drawImage( p, image );
} else {
s >> r >> image;
painter->drawImage( r, image );
}
}
break;
#endif
case PdcBegin:
if (m_qt4painter->isActive()) {
// KEEP THIS DEACTIVATED
// QPaintDevice* pd = m_qt4painter->device();
// m_qt4painter->end();
// m_qt4painter->begin(pd);
}
#if defined(QT_CHECK_RANGE)
else {
tqWarning( "TDEQt4PaintDevice::cmd: Painter has no paint device available" );
}
#endif
break;
case PdcEnd:
// KEEP THIS DEACTIVATED
// m_qt4painter->end();
break;
case PdcSave:
m_qt4painter->save();
break;
case PdcRestore:
m_qt4painter->restore();
break;
case PdcSetBkColor:
m_qt4painter->setBackground( QBrush(QColor(p[0].color->red(), p[0].color->green(), p[0].color->blue())) );
break;
case PdcSetBkMode:
m_qt4painter->setBackgroundMode( qt4bkmode );
break;
case PdcSetROP:
m_qt4painter->setCompositionMode(qt4compositionmode);
break;
case PdcSetBrushOrigin:
m_qt4painter->setBrushOrigin( qt4point1 );
break;
case PdcSetFont:
m_qt4painter->setFont( qt4font );
break;
case PdcSetPen:
m_qt4painter->setPen( qt4pen );
break;
case PdcSetBrush:
m_qt4painter->setBrush( qt4brush );
break;
#if 0
case PdcSetTabStops:
s >> i_16;
painter->setTabStops( i_16 );
break;
case PdcSetTabArray:
s >> i_16;
if ( i_16 == 0 ) {
painter->setTabArray( 0 );
} else {
int *ta = new int[i_16];
TQ_CHECK_PTR( ta );
for ( int i=0; i<i_16; i++ ) {
s >> i1_16;
ta[i] = i1_16;
}
painter->setTabArray( ta );
delete [] ta;
}
break;
case PdcSetVXform:
s >> i_8;
#ifndef TQT_NO_TRANSFORMATIONS
painter->setViewXForm( i_8 );
#endif
break;
case PdcSetWindow:
s >> r;
#ifndef TQT_NO_TRANSFORMATIONS
painter->setWindow( r );
#endif
break;
case PdcSetViewport:
s >> r;
#ifndef TQT_NO_TRANSFORMATIONS
painter->setViewport( r );
#endif
break;
#endif
case PdcSetWXform:
m_qt4painter->setWorldMatrixEnabled( (m_qt4OrigWorldTransformEnabled)?true:p[0].ival );
break;
case PdcSetWMatrix:
m_qt4painter->setWorldMatrix( qt4matrix, p[1].ival );
break;
#if 0
#ifndef TQT_NO_TRANSFORMATIONS
case PdcSaveWMatrix:
painter->saveWorldMatrix();
break;
case PdcRestoreWMatrix:
painter->restoreWorldMatrix();
break;
#endif
#endif
case PdcSetClip:
m_qt4painter->setClipping( (m_qt4OrigClipping)?true:p[0].ival );
break;
case PdcSetClipRegion:
m_qt4painter->setClipRegion( (m_qt4OrigClipping)?qt4region.intersected(m_qt4OrigClipRegion):qt4region, Qt::ReplaceClip );
break;
default:
#if defined(QT_CHECK_RANGE)
tqWarning( "TDEQt4PaintDevice::cmd: Invalid command %d", c );
#endif
}
return TRUE;
}
/*!
Internal implementation of the virtual TQPaintDevice::metric()
function.
Use the TQPaintDeviceMetrics class instead.
A picture has the following hard-coded values: dpi=72,
numcolors=16777216 and depth=24.
\a m is the metric to get.
*/
int TDEQt4PaintDevice::metric( int m ) const
{
int val;
QPaintDevice* qt4pd = m_qt4painter->device();
if (qt4pd) {
switch ( m ) {
// ### hard coded dpi and color depth values !
case TQPaintDeviceMetrics::PdmWidth:
val = qt4pd->width();
break;
case TQPaintDeviceMetrics::PdmHeight:
val = qt4pd->height();
break;
case TQPaintDeviceMetrics::PdmWidthMM:
val = qt4pd->widthMM();
break;
case TQPaintDeviceMetrics::PdmHeightMM:
val = qt4pd->heightMM();
break;
case TQPaintDeviceMetrics::PdmDpiX:
val = qt4pd->logicalDpiX();
break;
case TQPaintDeviceMetrics::PdmPhysicalDpiX:
val = qt4pd->physicalDpiX();
break;
case TQPaintDeviceMetrics::PdmDpiY:
val = qt4pd->logicalDpiY();
break;
case TQPaintDeviceMetrics::PdmPhysicalDpiY:
val = qt4pd->physicalDpiY();
break;
case TQPaintDeviceMetrics::PdmNumColors:
val = qt4pd->colorCount();
break;
case TQPaintDeviceMetrics::PdmDepth:
val = qt4pd->depth();
break;
default:
val = 0;
#if defined(QT_CHECK_RANGE)
tqWarning( "TDEQt4PaintDevice::metric: Invalid metric command" );
#endif
}
}
else {
val = 0;
#if defined(QT_CHECK_RANGE)
tqWarning( "TDEQt4PaintDevice::metric: No Qt4 paint device available" );
#endif
}
return val;
}