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/****************************************************************************
* *
* * Copyright ( C ) 2011 Nokia Corporation and / or its subsidiary ( - ies ) .
* * All rights reserved .
* * Contact : Nokia Corporation ( qt - info @ nokia . com )
* *
* * This file is part of the test suite of the Qt Toolkit .
* *
* * $ QT_BEGIN_LICENSE : LGPL $
* * GNU Lesser General Public License Usage
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* * This file may be used under the terms of the GNU Lesser General Public
* * License version 2.1 as published by the Free Software Foundation and
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* * file . Please review the following information to ensure the GNU Lesser
* * General Public License version 2.1 requirements will be met :
* * http : //www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
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* *
* * In addition , as a special exception , Nokia gives you certain additional
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* * rights . These rights are described in the Nokia Qt LGPL Exception
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* * version 1.1 , included in the file LGPL_EXCEPTION . txt in this package .
* *
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* * GNU General Public License Usage
* * Alternatively , this file may be used under the terms of the GNU General
* * Public License version 3.0 as published by the Free Software Foundation
* * and appearing in the file LICENSE . GPL included in the packaging of this
* * file . Please review the following information to ensure the GNU General
* * Public License version 3.0 requirements will be met :
* * http : //www.gnu.org/copyleft/gpl.html.
* *
* * Other Usage
* * Alternatively , this file may be used in accordance with the terms and
* * conditions contained in a signed written agreement between you and Nokia .
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* *
* *
* *
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* * $ QT_END_LICENSE $
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# include <QtTest/QtTest>
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# include "../../../../shared/util.h"
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# include <qpainter.h>
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# include <qdrawutil.h>
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# include <qapplication.h>
# include <qwidget.h>
# include <qfontmetrics.h>
# include <qbitmap.h>
# include <qimage.h>
# include <qthread.h>
# include <limits.h>
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# if !defined(Q_OS_WINCE)
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# include <qprinter.h>
# include <math.h>
# endif
# include <qpaintengine.h>
# include <qdesktopwidget.h>
# include <qpixmap.h>
# include <qpainter.h>
# include <qlabel.h>
# include <qqueue.h>
# include <qgraphicsview.h>
# include <qgraphicsscene.h>
# include <qgraphicsproxywidget.h>
# include <qlayout.h>
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# include <qfontdatabase.h>
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Q_DECLARE_METATYPE ( QGradientStops )
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Q_DECLARE_METATYPE ( QLine )
Q_DECLARE_METATYPE ( QRect )
Q_DECLARE_METATYPE ( QSize )
Q_DECLARE_METATYPE ( QPoint )
Q_DECLARE_METATYPE ( QPainterPath )
//TESTED_CLASS=
//TESTED_FILES=
class tst_QPainter : public QObject
{
Q_OBJECT
public :
tst_QPainter ( ) ;
virtual ~ tst_QPainter ( ) ;
public slots :
void init ( ) ;
void cleanup ( ) ;
private slots :
void getSetCheck ( ) ;
void qt_format_text_clip ( ) ;
void qt_format_text_boundingRect ( ) ;
void drawPixmap_comp_data ( ) ;
void drawPixmap_comp ( ) ;
void saveAndRestore_data ( ) ;
void saveAndRestore ( ) ;
void drawBorderPixmap ( ) ;
void drawPixmapFragments ( ) ;
void drawLine_data ( ) ;
void drawLine ( ) ;
void drawLine_clipped ( ) ;
void drawLine_task121143 ( ) ;
void drawLine_task216948 ( ) ;
void drawLine_task190634 ( ) ;
void drawLine_task229459 ( ) ;
void drawLine_task234891 ( ) ;
void drawRect_data ( ) { fillData ( ) ; }
void drawRect ( ) ;
void drawRect2 ( ) ;
void fillRect ( ) ;
void fillRect2 ( ) ;
void fillRect3 ( ) ;
void fillRect4 ( ) ;
void drawEllipse_data ( ) ;
void drawEllipse ( ) ;
void drawClippedEllipse_data ( ) ;
void drawClippedEllipse ( ) ;
void drawPath_data ( ) ;
void drawPath ( ) ;
void drawPath2 ( ) ;
void drawPath3 ( ) ;
void drawRoundRect_data ( ) { fillData ( ) ; }
void drawRoundRect ( ) ;
void qimageFormats_data ( ) ;
void qimageFormats ( ) ;
void textOnTransparentImage ( ) ;
void initFrom ( ) ;
void setWindow ( ) ;
void combinedMatrix ( ) ;
void renderHints ( ) ;
void disableEnableClipping ( ) ;
void setClipRect ( ) ;
void setEqualClipRegionAndPath_data ( ) ;
void setEqualClipRegionAndPath ( ) ;
void clipRectSaveRestore ( ) ;
void clippedFillPath_data ( ) ;
void clippedFillPath ( ) ;
void clippedLines_data ( ) ;
void clippedLines ( ) ;
void clippedPolygon_data ( ) ;
void clippedPolygon ( ) ;
void clippedText ( ) ;
void clipBoundingRect ( ) ;
void setOpacity_data ( ) ;
void setOpacity ( ) ;
void drawhelper_blend_untransformed_data ( ) ;
void drawhelper_blend_untransformed ( ) ;
void drawhelper_blend_tiled_untransformed_data ( ) ;
void drawhelper_blend_tiled_untransformed ( ) ;
void porterDuff_warning ( ) ;
void drawhelper_blend_color ( ) ;
void childWidgetViewport ( ) ;
void fillRect_objectBoundingModeGradient ( ) ;
void fillRect_stretchToDeviceMode ( ) ;
void monoImages ( ) ;
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void linearGradientSymmetry_data ( ) ;
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void linearGradientSymmetry ( ) ;
void gradientInterpolation ( ) ;
void fpe_pixmapTransform ( ) ;
void fpe_zeroLengthLines ( ) ;
void fpe_divByZero ( ) ;
void fpe_steepSlopes_data ( ) ;
void fpe_steepSlopes ( ) ;
void fpe_rasterizeLine_task232012 ( ) ;
void fpe_radialGradients ( ) ;
void rasterizer_asserts ( ) ;
void rasterizer_negativeCoords ( ) ;
void blendOverFlow_data ( ) ;
void blendOverFlow ( ) ;
void largeImagePainting_data ( ) ;
void largeImagePainting ( ) ;
void imageScaling_task206785 ( ) ;
void outlineFillConsistency ( ) ;
void drawImage_task217400_data ( ) ;
void drawImage_task217400 ( ) ;
void drawImage_1x1 ( ) ;
void drawImage_task258776 ( ) ;
void drawRect_task215378 ( ) ;
void drawRect_task247505 ( ) ;
void drawText_subPixelPositionsInRaster_qtbug5053 ( ) ;
void drawImage_data ( ) ;
void drawImage ( ) ;
void clippedImage ( ) ;
void stateResetBetweenQPainters ( ) ;
void imageCoordinateLimit ( ) ;
void imageBlending_data ( ) ;
void imageBlending ( ) ;
void imageBlending_clipped ( ) ;
void paintOnNullPixmap ( ) ;
void checkCompositionMode ( ) ;
void drawPolygon ( ) ;
void inactivePainter ( ) ;
void extendedBlendModes ( ) ;
void zeroOpacity ( ) ;
void clippingBug ( ) ;
void emptyClip ( ) ;
void taskQT4444_dontOverflowDashOffset ( ) ;
void painterBegin ( ) ;
void setPenColorOnImage ( ) ;
void setPenColorOnPixmap ( ) ;
void QTBUG5939_attachPainterPrivate ( ) ;
void drawPointScaled ( ) ;
void QTBUG14614_gradientCacheRaceCondition ( ) ;
void drawTextOpacity ( ) ;
void QTBUG17053_zeroDashPattern ( ) ;
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void drawTextOutsideGuiThread ( ) ;
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private :
void fillData ( ) ;
void setPenColor ( QPainter & p ) ;
QColor baseColor ( int k , int intensity = 255 ) ;
QImage getResImage ( const QString & dir , const QString & addition , const QString & extension ) ;
QBitmap getBitmap ( const QString & dir , const QString & filename , bool mask ) ;
} ;
// Testing get/set functions
void tst_QPainter : : getSetCheck ( )
{
QImage img ( QSize ( 10 , 10 ) , QImage : : Format_ARGB32_Premultiplied ) ;
QPainter obj1 ;
obj1 . begin ( & img ) ;
// CompositionMode QPainter::compositionMode()
// void QPainter::setCompositionMode(CompositionMode)
obj1 . setCompositionMode ( QPainter : : CompositionMode ( QPainter : : CompositionMode_SourceOver ) ) ;
QCOMPARE ( QPainter : : CompositionMode ( QPainter : : CompositionMode_SourceOver ) , obj1 . compositionMode ( ) ) ;
obj1 . setCompositionMode ( QPainter : : CompositionMode ( QPainter : : CompositionMode_DestinationOver ) ) ;
QCOMPARE ( QPainter : : CompositionMode ( QPainter : : CompositionMode_DestinationOver ) , obj1 . compositionMode ( ) ) ;
obj1 . setCompositionMode ( QPainter : : CompositionMode ( QPainter : : CompositionMode_Clear ) ) ;
QCOMPARE ( QPainter : : CompositionMode ( QPainter : : CompositionMode_Clear ) , obj1 . compositionMode ( ) ) ;
obj1 . setCompositionMode ( QPainter : : CompositionMode ( QPainter : : CompositionMode_Source ) ) ;
QCOMPARE ( QPainter : : CompositionMode ( QPainter : : CompositionMode_Source ) , obj1 . compositionMode ( ) ) ;
obj1 . setCompositionMode ( QPainter : : CompositionMode ( QPainter : : CompositionMode_Destination ) ) ;
QCOMPARE ( QPainter : : CompositionMode ( QPainter : : CompositionMode_Destination ) , obj1 . compositionMode ( ) ) ;
obj1 . setCompositionMode ( QPainter : : CompositionMode ( QPainter : : CompositionMode_SourceIn ) ) ;
QCOMPARE ( QPainter : : CompositionMode ( QPainter : : CompositionMode_SourceIn ) , obj1 . compositionMode ( ) ) ;
obj1 . setCompositionMode ( QPainter : : CompositionMode ( QPainter : : CompositionMode_DestinationIn ) ) ;
QCOMPARE ( QPainter : : CompositionMode ( QPainter : : CompositionMode_DestinationIn ) , obj1 . compositionMode ( ) ) ;
obj1 . setCompositionMode ( QPainter : : CompositionMode ( QPainter : : CompositionMode_SourceOut ) ) ;
QCOMPARE ( QPainter : : CompositionMode ( QPainter : : CompositionMode_SourceOut ) , obj1 . compositionMode ( ) ) ;
obj1 . setCompositionMode ( QPainter : : CompositionMode ( QPainter : : CompositionMode_DestinationOut ) ) ;
QCOMPARE ( QPainter : : CompositionMode ( QPainter : : CompositionMode_DestinationOut ) , obj1 . compositionMode ( ) ) ;
obj1 . setCompositionMode ( QPainter : : CompositionMode ( QPainter : : CompositionMode_SourceAtop ) ) ;
QCOMPARE ( QPainter : : CompositionMode ( QPainter : : CompositionMode_SourceAtop ) , obj1 . compositionMode ( ) ) ;
obj1 . setCompositionMode ( QPainter : : CompositionMode ( QPainter : : CompositionMode_DestinationAtop ) ) ;
QCOMPARE ( QPainter : : CompositionMode ( QPainter : : CompositionMode_DestinationAtop ) , obj1 . compositionMode ( ) ) ;
obj1 . setCompositionMode ( QPainter : : CompositionMode ( QPainter : : CompositionMode_Xor ) ) ;
QCOMPARE ( QPainter : : CompositionMode ( QPainter : : CompositionMode_Xor ) , obj1 . compositionMode ( ) ) ;
// const QPen & QPainter::pen()
// void QPainter::setPen(const QPen &)
QPen var3 ( Qt : : red ) ;
obj1 . setPen ( var3 ) ;
QCOMPARE ( var3 , obj1 . pen ( ) ) ;
obj1 . setPen ( QPen ( ) ) ;
QCOMPARE ( QPen ( ) , obj1 . pen ( ) ) ;
// const QBrush & QPainter::brush()
// void QPainter::setBrush(const QBrush &)
QBrush var4 ( Qt : : red ) ;
obj1 . setBrush ( var4 ) ;
QCOMPARE ( var4 , obj1 . brush ( ) ) ;
obj1 . setBrush ( QBrush ( ) ) ;
QCOMPARE ( QBrush ( ) , obj1 . brush ( ) ) ;
// const QBrush & QPainter::background()
// void QPainter::setBackground(const QBrush &)
QBrush var5 ( Qt : : yellow ) ;
obj1 . setBackground ( var5 ) ;
QCOMPARE ( var5 , obj1 . background ( ) ) ;
obj1 . setBackground ( QBrush ( ) ) ;
QCOMPARE ( QBrush ( ) , obj1 . background ( ) ) ;
// bool QPainter::matrixEnabled()
// void QPainter::setMatrixEnabled(bool)
obj1 . setMatrixEnabled ( false ) ;
QCOMPARE ( false , obj1 . matrixEnabled ( ) ) ;
obj1 . setMatrixEnabled ( true ) ;
QCOMPARE ( true , obj1 . matrixEnabled ( ) ) ;
// bool QPainter::viewTransformEnabled()
// void QPainter::setViewTransformEnabled(bool)
obj1 . setViewTransformEnabled ( false ) ;
QCOMPARE ( false , obj1 . viewTransformEnabled ( ) ) ;
obj1 . setViewTransformEnabled ( true ) ;
QCOMPARE ( true , obj1 . viewTransformEnabled ( ) ) ;
}
Q_DECLARE_METATYPE ( QPixmap )
Q_DECLARE_METATYPE ( QPolygon )
Q_DECLARE_METATYPE ( QBrush )
Q_DECLARE_METATYPE ( QPen )
Q_DECLARE_METATYPE ( QFont )
Q_DECLARE_METATYPE ( QColor )
Q_DECLARE_METATYPE ( QRegion )
tst_QPainter : : tst_QPainter ( )
{
// QtTestCase sets this to false, but this turns off alpha pixmaps on Unix.
QApplication : : setDesktopSettingsAware ( TRUE ) ;
}
tst_QPainter : : ~ tst_QPainter ( )
{
}
void tst_QPainter : : init ( )
{
}
void tst_QPainter : : cleanup ( )
{
}
/* tests the clipping operations in qt_format_text, making sure
the clip rectangle after the call is the same as before
*/
void tst_QPainter : : qt_format_text_clip ( )
{
QVERIFY ( 1 ) ;
QSKIP ( " Needs fixing... " , SkipAll ) ;
QWidget * w = new QWidget ( 0 ) ;
int modes [ ] = { Qt : : AlignVCenter | Qt : : TextSingleLine ,
Qt : : AlignVCenter | Qt : : TextSingleLine | Qt : : TextDontClip ,
Qt : : AlignVCenter | Qt : : TextWordWrap ,
Qt : : AlignVCenter | Qt : : TextWordWrap | Qt : : TextDontClip ,
0
} ;
int * m = modes ;
while ( * m ) {
{
QPainter p ( w ) ;
QRegion clipreg = p . clipRegion ( ) ;
bool hasClipping = p . hasClipping ( ) ;
qreal tx = p . matrix ( ) . dx ( ) ;
qreal ty = p . matrix ( ) . dy ( ) ;
p . drawText ( 10 , 10 , 100 , 100 , * m ,
" fooo " ) ;
QVERIFY ( clipreg = = p . clipRegion ( ) ) ;
QVERIFY ( hasClipping = = p . hasClipping ( ) ) ;
QCOMPARE ( tx , p . matrix ( ) . dx ( ) ) ;
QCOMPARE ( ty , p . matrix ( ) . dy ( ) ) ;
p . setClipRect ( QRect ( 5 , 5 , 50 , 50 ) ) ;
clipreg = p . clipRegion ( ) ;
hasClipping = p . hasClipping ( ) ;
p . drawText ( 10 , 10 , 100 , 100 , * m ,
" fooo " ) ;
QVERIFY ( clipreg = = p . clipRegion ( ) ) ;
QVERIFY ( hasClipping = = p . hasClipping ( ) ) ;
QCOMPARE ( tx , p . matrix ( ) . dx ( ) ) ;
QCOMPARE ( ty , p . matrix ( ) . dy ( ) ) ;
}
{
QPainter p ( w ) ;
p . setMatrix ( QMatrix ( 2 , 1 , 3 , 4 , 5 , 6 ) ) ;
QRegion clipreg = p . clipRegion ( ) ;
bool hasClipping = p . hasClipping ( ) ;
qreal tx = p . matrix ( ) . dx ( ) ;
qreal ty = p . matrix ( ) . dy ( ) ;
p . drawText ( 10 , 10 , 100 , 100 , * m ,
" fooo " ) ;
QVERIFY ( clipreg = = p . clipRegion ( ) ) ;
QVERIFY ( hasClipping = = p . hasClipping ( ) ) ;
QCOMPARE ( tx , p . matrix ( ) . dx ( ) ) ;
QCOMPARE ( ty , p . matrix ( ) . dy ( ) ) ;
p . setClipRect ( QRect ( 5 , 5 , 50 , 50 ) ) ;
clipreg = p . clipRegion ( ) ;
hasClipping = p . hasClipping ( ) ;
p . drawText ( 10 , 10 , 100 , 100 , * m ,
" fooo " ) ;
QVERIFY ( clipreg = = p . clipRegion ( ) ) ;
QVERIFY ( hasClipping = = p . hasClipping ( ) ) ;
QCOMPARE ( tx , p . matrix ( ) . dx ( ) ) ;
QCOMPARE ( ty , p . matrix ( ) . dy ( ) ) ;
}
{
QPainter p ( w ) ;
QRegion clipreg = p . clipRegion ( ) ;
bool hasClipping = p . hasClipping ( ) ;
qreal tx = p . matrix ( ) . dx ( ) ;
qreal ty = p . matrix ( ) . dy ( ) ;
p . drawText ( 10 , 10 , 100 , 100 , * m ,
" fooo " ) ;
QVERIFY ( clipreg = = p . clipRegion ( ) ) ;
QVERIFY ( hasClipping = = p . hasClipping ( ) ) ;
QCOMPARE ( tx , p . matrix ( ) . dx ( ) ) ;
QCOMPARE ( ty , p . matrix ( ) . dy ( ) ) ;
p . setClipRect ( QRect ( 5 , 5 , 50 , 50 ) ) ;
clipreg = p . clipRegion ( ) ;
hasClipping = p . hasClipping ( ) ;
p . drawText ( 10 , 10 , 100 , 100 , * m ,
" fooo " ) ;
QVERIFY ( clipreg = = p . clipRegion ( ) ) ;
QVERIFY ( hasClipping = = p . hasClipping ( ) ) ;
QCOMPARE ( tx , p . matrix ( ) . dx ( ) ) ;
QCOMPARE ( ty , p . matrix ( ) . dy ( ) ) ;
}
{
QPainter p ( w ) ;
p . setMatrix ( QMatrix ( 2 , 1 , 3 , 4 , 5 , 6 ) ) ;
QRegion clipreg = p . clipRegion ( ) ;
bool hasClipping = p . hasClipping ( ) ;
qreal tx = p . matrix ( ) . dx ( ) ;
qreal ty = p . matrix ( ) . dy ( ) ;
p . drawText ( 10 , 10 , 100 , 100 , * m ,
" fooo " ) ;
QVERIFY ( clipreg = = p . clipRegion ( ) ) ;
QVERIFY ( hasClipping = = p . hasClipping ( ) ) ;
QCOMPARE ( tx , p . matrix ( ) . dx ( ) ) ;
QCOMPARE ( ty , p . matrix ( ) . dy ( ) ) ;
p . setClipRect ( QRect ( 5 , 5 , 50 , 50 ) ) ;
clipreg = p . clipRegion ( ) ;
hasClipping = p . hasClipping ( ) ;
p . drawText ( 10 , 10 , 100 , 100 , * m ,
" fooo " ) ;
QVERIFY ( clipreg = = p . clipRegion ( ) ) ;
QVERIFY ( hasClipping = = p . hasClipping ( ) ) ;
QCOMPARE ( tx , p . matrix ( ) . dx ( ) ) ;
QCOMPARE ( ty , p . matrix ( ) . dy ( ) ) ;
}
+ + m ;
}
delete w ;
}
/* tests the bounding rect calculations in qt_format_text, making sure
the bounding rect has a reasonable value .
*/
void tst_QPainter : : qt_format_text_boundingRect ( )
{
QVERIFY ( 1 ) ;
QSKIP ( " Needs fixing... " , SkipAll ) ;
{
const char * strings [ ] = {
" a \n \n b " ,
" abc " ,
" a \n \n b " ,
" this is a longer string " ,
" \327 \222 \327 \223 \327 \233 \327 \223 \327 \222 \327 \233 \327 \222 \327 \223 \327 \233 " ,
" aa \327 \222 \327 \233 aa " ,
" \327 \222 \327 \223 \327 \233 \327 \223 \327 \222 \327 \233 \327 \222 \327 \223 \327 \233 " ,
" \327 \222 \327 \233 aa " ,
" linebreakatend \n " ,
" some text longer than 30 chars with a line break at the end \n " ,
" some text \n with line breaks \n in the middle \n and at the end \n " ,
" foo \n \n \n foo " ,
0
} ;
int modes [ ] = { Qt : : AlignVCenter | Qt : : TextSingleLine ,
Qt : : AlignVCenter | Qt : : TextSingleLine | Qt : : TextDontClip ,
Qt : : AlignVCenter | Qt : : TextWordWrap ,
Qt : : AlignVCenter | Qt : : TextWordWrap | Qt : : TextDontClip ,
Qt : : AlignLeft ,
Qt : : AlignCenter ,
Qt : : AlignRight ,
0
} ;
QFont f ;
for ( int i = 5 ; i < 15 ; + + i ) {
f . setPointSize ( i ) ;
QFontMetrics fm ( f ) ;
const char * * str = strings ;
while ( * str ) {
int * m = modes ;
while ( * m ) {
QRect br = fm . boundingRect ( 0 , 0 , 2000 , 100 , * m , QString : : fromUtf8 ( * str ) ) ;
QVERIFY ( br . width ( ) < 800 ) ;
QRect br2 = fm . boundingRect ( br . x ( ) , br . y ( ) , br . width ( ) , br . height ( ) , * m , QString : : fromUtf8 ( * str ) ) ;
QCOMPARE ( br , br2 ) ;
#if 0
{
QPrinter printer ;
printer . setOutputToFile ( TRUE ) ;
printer . setOutputFileName ( " tmp.prn " ) ;
QPainter p ( & printer ) ;
QRect pbr = p . fontMetrics ( ) . boundingRect ( 0 , 0 , 2000 , 100 , * m , QString : : fromUtf8 ( * str ) ) ;
QCOMPARE ( pbr , br ) ;
}
# endif
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# if !defined(QT_NO_PRINTER) && !defined(Q_OS_WINCE)
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{
QPrinter printer ( QPrinter : : HighResolution ) ;
if ( printer . printerName ( ) . isEmpty ( ) ) {
QSKIP ( " No printers installed, skipping bounding rect test " ,
SkipSingle ) ;
break ;
}
printer . setOutputFileName ( " tmp.prn " ) ;
QPainter p ( & printer ) ;
QRect pbr = p . fontMetrics ( ) . boundingRect ( 0 , 0 , 12000 , 600 , * m , QString : : fromUtf8 ( * str ) ) ;
QVERIFY ( pbr . width ( ) > 2 * br . width ( ) ) ;
QVERIFY ( pbr . height ( ) > 2 * br . height ( ) ) ;
}
# endif
+ + m ;
}
+ + str ;
}
}
}
{
const char * strings [ ] = {
" a " ,
" a \n b " ,
" a \n \n b " ,
" abc " ,
// "a\n \nb",
" this is a longer string " ,
// "\327\222\327\223\327\233\327\223\327\222\327\233\327\222\327\223\327\233",
// "aa\327\222\327\233aa",
// "\327\222\327\223\327\233\327\223\327\222\327\233\327\222\327\223\327\233",
// "\327\222\327\233aa",
// "linebreakatend\n",
// "some text longer than 30 chars with a line break at the end\n",
// "some text\nwith line breaks\nin the middle\nand at the end\n",
" foo \n \n \n foo " ,
" a \n \n \n \n \n b " ,
" a \n \n \n \n \n \n b " ,
// "\347\231\273\351\214\262\346\203\205\345\240\261\343\201\214\350\246\213\343\201\244\343\201\213\343\202\211\343\201\252\343\201\204\343\201\213\347\204\241\345\212\271\343\201\252\343\201\237\343\202\201\343\200\201\nPhotoshop Album \343\202\222\350\265\267\345\213\225\343\201\247\343\201\215\343\201\276\343\201\233\343\202\223\343\200\202\345\206\215\343\202\244\343\203\263\343\202\271\343\203\210\343\203\274\343\203\253\343\201\227\343\201\246\343\201\217\343\201\240\343\201\225\343\201\204\343\200\202"
// "\347\231\273\351\214\262\346\203\205\345\240\261\343\201\214\350\246\213\343\201\244\343\201\213\343\202\211\343\201\252\343\201\204\343\201\213\347\204\241\345\212\271\343\201\252\343\201\237\343\202\201\343\200\201\n\343\202\222\350\265\267\345\213\225\343\201\247\343\201\215\343\201\276\343\201\233\343\202\223\343\200\202\345\206\215\343\202\244\343\203\263\343\202\271\343\203\210\343\203\274\343\203\253\343\201\227\343\201\246\343\201\217\343\201\240\343\201\225\343\201\204\343\200\202",
0
} ;
int modes [ ] = { Qt : : AlignVCenter ,
Qt : : AlignLeft ,
Qt : : AlignCenter ,
Qt : : AlignRight ,
0
} ;
QFont f ;
for ( int i = 5 ; i < 15 ; + + i ) {
f . setPointSize ( i ) ;
QFontMetrics fm ( f ) ;
const char * * str = strings ;
while ( * str ) {
int * m = modes ;
while ( * m ) {
QString s = QString : : fromUtf8 ( * str ) ;
QRect br = fm . boundingRect ( 0 , 0 , 1000 , 1000 , * m , s ) ;
int lines =
s . count ( " \n " ) ;
int expectedHeight = fm . height ( ) + lines * fm . lineSpacing ( ) ;
QCOMPARE ( br . height ( ) , expectedHeight ) ;
+ + m ;
}
+ + str ;
}
QRect br = fm . boundingRect ( 0 , 0 , 100 , 0 , Qt : : TextWordWrap ,
" A paragraph with gggggggggggggggggggggggggggggggggggg in the middle. " ) ;
QVERIFY ( br . height ( ) > = fm . height ( ) + 2 * fm . lineSpacing ( ) ) ;
}
}
}
static const char * const maskSource_data [ ] = {
" 16 13 6 1 " ,
" . c None " ,
" d c #000000 " ,
" # c #999999 " ,
" c c #cccccc " ,
" b c #ffff00 " ,
" a c #ffffff " ,
" ...#####........ " ,
" ..#aaaaa#....... " ,
" .#abcbcba######. " ,
" .#acbcbcaaaaaa#d " ,
" .#abcbcbcbcbcb#d " ,
" #############b#d " ,
" #aaaaaaaaaa##c#d " ,
" #abcbcbcbcbbd##d " ,
" .#abcbcbcbcbcd#d " ,
" .#acbcbcbcbcbd#d " ,
" ..#acbcbcbcbb#dd " ,
" ..#############d " ,
" ...ddddddddddddd " } ;
static const char * const maskResult_data [ ] = {
" 16 13 6 1 " ,
" . c #ff0000 " ,
" d c #000000 " ,
" # c #999999 " ,
" c c #cccccc " ,
" b c #ffff00 " ,
" a c #ffffff " ,
" ...#####........ " ,
" ..#aaaaa#....... " ,
" .#abcbcba######. " ,
" .#acbcbcaaaaaa#d " ,
" .#abcbcbcbcbcb#d " ,
" #############b#d " ,
" #aaaaaaaaaa##c#d " ,
" #abcbcbcbcbbd##d " ,
" .#abcbcbcbcbcd#d " ,
" .#acbcbcbcbcbd#d " ,
" ..#acbcbcbcbb#dd " ,
" ..#############d " ,
" ...ddddddddddddd " } ;
void tst_QPainter : : drawPixmap_comp_data ( )
{
if ( qApp - > desktop ( ) - > depth ( ) < 24 ) {
QSKIP ( " Test only works on 32 bit displays " , SkipAll ) ;
return ;
}
QTest : : addColumn < uint > ( " dest " ) ;
QTest : : addColumn < uint > ( " source " ) ;
QTest : : newRow ( " 0% on 0%, 1 " ) < < 0x00000000u < < 0x00000000u ;
QTest : : newRow ( " 0% on 0%, 2 " ) < < 0x00007fffu < < 0x00ff007fu ;
QTest : : newRow ( " 50% on a=0% " ) < < 0x00000000u < < 0x7fff0000u ;
QTest : : newRow ( " 50% on a=50% " ) < < 0x7f000000u < < 0x7fff0000u ;
QTest : : newRow ( " 50% on deadbeef " ) < < 0xdeafbeefu < < 0x7fff0000u ;
QTest : : newRow ( " deadbeef on a=0% " ) < < 0x00000000u < < 0xdeadbeefu ;
QTest : : newRow ( " deadbeef on a=50% " ) < < 0x7f000000u < < 0xdeadbeefu ;
QTest : : newRow ( " 50% blue on 50% red " ) < < 0x7fff0000u < < 0x7f0000ffu ;
QTest : : newRow ( " 50% blue on 50% green " ) < < 0x7f00ff00u < < 0x7f0000ffu ;
QTest : : newRow ( " 50% red on 50% green " ) < < 0x7f00ff00u < < 0x7fff0000u ;
QTest : : newRow ( " 0% on 50% " ) < < 0x7fff00ffu < < 0x00ffffffu ;
QTest : : newRow ( " 100% on deadbeef " ) < < 0xdeafbeefu < < 0xffabcdefu ;
QTest : : newRow ( " 100% on a=0% " ) < < 0x00000000u < < 0xffabcdefu ;
}
QRgb qt_compose_alpha ( QRgb source , QRgb dest )
{
int r1 = qRed ( dest ) , g1 = qGreen ( dest ) , b1 = qBlue ( dest ) , a1 = qAlpha ( dest ) ;
int r2 = qRed ( source ) , g2 = qGreen ( source ) , b2 = qBlue ( source ) , a2 = qAlpha ( source ) ;
int alpha = qMin ( a2 + ( ( 255 - a2 ) * a1 + 127 ) / 255 , 255 ) ;
if ( alpha = = 0 )
return qRgba ( 0 , 0 , 0 , 0 ) ;
return qRgba (
qMin ( ( r2 * a2 + ( 255 - a2 ) * r1 * a1 / 255 ) / alpha , 255 ) ,
qMin ( ( g2 * a2 + ( 255 - a2 ) * g1 * a1 / 255 ) / alpha , 255 ) ,
qMin ( ( b2 * a2 + ( 255 - a2 ) * b1 * a1 / 255 ) / alpha , 255 ) ,
alpha ) ;
}
/* Tests that drawing masked pixmaps works
*/
void tst_QPainter : : drawPixmap_comp ( )
{
# ifdef Q_WS_MAC
QSKIP ( " Mac has other ideas about alpha composition " , SkipAll ) ;
# endif
QFETCH ( uint , dest ) ;
QFETCH ( uint , source ) ;
QRgb expected = qt_compose_alpha ( source , dest ) ;
QColor c1 ( qRed ( dest ) , qGreen ( dest ) , qBlue ( dest ) , qAlpha ( dest ) ) ;
QColor c2 ( qRed ( source ) , qGreen ( source ) , qBlue ( source ) , qAlpha ( source ) ) ;
QPixmap destPm ( 10 , 10 ) , srcPm ( 10 , 10 ) ;
destPm . fill ( c1 ) ;
srcPm . fill ( c2 ) ;
# if defined(Q_WS_X11)
if ( ! destPm . x11PictureHandle ( ) )
QSKIP ( " Requires XRender support " , SkipAll ) ;
# endif
QPainter p ( & destPm ) ;
p . drawPixmap ( 0 , 0 , srcPm ) ;
p . end ( ) ;
QImage result = destPm . toImage ( ) . convertToFormat ( QImage : : Format_ARGB32 ) ;
bool different = false ;
for ( int y = 0 ; y < result . height ( ) ; + + y )
for ( int x = 0 ; x < result . width ( ) ; + + x ) {
bool diff ;
if ( qAlpha ( expected ) = = 0 ) {
diff = qAlpha ( result . pixel ( x , y ) ) ! = 0 ;
} else {
// Compensate for possible roundoff / platform fudge
int off = 1 ;
QRgb pix = result . pixel ( x , y ) ;
diff = ( qAbs ( qRed ( pix ) - qRed ( expected ) ) > off )
| | ( qAbs ( qGreen ( pix ) - qGreen ( expected ) ) > off )
| | ( qAbs ( qBlue ( pix ) - qBlue ( expected ) ) > off )
| | ( qAbs ( qAlpha ( pix ) - qAlpha ( expected ) ) > off ) ;
}
if ( diff & & ! different )
qDebug ( " Different at %d,%d pixel [%d,%d,%d,%d] expected [%d,%d,%d,%d] " , x , y ,
qRed ( result . pixel ( x , y ) ) , qGreen ( result . pixel ( x , y ) ) ,
qBlue ( result . pixel ( x , y ) ) , qAlpha ( result . pixel ( x , y ) ) ,
qRed ( expected ) , qGreen ( expected ) , qBlue ( expected ) , qAlpha ( expected ) ) ;
different | = diff ;
}
QVERIFY ( ! different ) ;
}
void tst_QPainter : : saveAndRestore_data ( )
{
QVERIFY ( 1 ) ;
QTest : : addColumn < QFont > ( " font " ) ;
QTest : : addColumn < QPen > ( " pen " ) ;
QTest : : addColumn < QBrush > ( " brush " ) ;
QTest : : addColumn < QColor > ( " backgroundColor " ) ;
QTest : : addColumn < int > ( " backgroundMode " ) ;
QTest : : addColumn < QPoint > ( " brushOrigin " ) ;
QTest : : addColumn < QRegion > ( " clipRegion " ) ;
QTest : : addColumn < QRect > ( " window " ) ;
QTest : : addColumn < QRect > ( " viewport " ) ;
QPixmap pixmap ( 1 , 1 ) ;
QPainter p ( & pixmap ) ;
QFont font = p . font ( ) ;
QPen pen = p . pen ( ) ;
QBrush brush = p . brush ( ) ;
QColor backgroundColor = p . background ( ) . color ( ) ;
Qt : : BGMode backgroundMode = p . backgroundMode ( ) ;
QPoint brushOrigin = p . brushOrigin ( ) ;
QRegion clipRegion = p . clipRegion ( ) ;
QRect window = p . window ( ) ;
QRect viewport = p . viewport ( ) ;
QTest : : newRow ( " Original " ) < < font < < pen < < brush < < backgroundColor < < int ( backgroundMode )
< < brushOrigin < < clipRegion < < window < < viewport ;
QFont font2 = font ;
font2 . setPointSize ( 24 ) ;
QTest : : newRow ( " Modified font.pointSize, brush, backgroundColor, backgroundMode " )
< < font2 < < pen < < QBrush ( Qt : : red ) < < QColor ( Qt : : blue ) < < int ( Qt : : TransparentMode )
< < brushOrigin < < clipRegion < < window < < viewport ;
font2 = font ;
font2 . setPixelSize ( 20 ) ;
QTest : : newRow ( " Modified font.pixelSize, brushOrigin, pos " )
< < font2 < < pen < < brush < < backgroundColor < < int ( backgroundMode )
< < QPoint ( 50 , 32 ) < < clipRegion < < window < < viewport ;
QTest : : newRow ( " Modified clipRegion, window, viewport " )
< < font < < pen < < brush < < backgroundColor < < int ( backgroundMode )
< < brushOrigin < < clipRegion . subtracted ( QRect ( 10 , 10 , 50 , 30 ) )
< < QRect ( - 500 , - 500 , 500 , 500 ) < < QRect ( 0 , 0 , 50 , 50 ) ;
}
void tst_QPainter : : saveAndRestore ( )
{
QFETCH ( QFont , font ) ;
QFETCH ( QPen , pen ) ;
QFETCH ( QBrush , brush ) ;
QFETCH ( QColor , backgroundColor ) ;
QFETCH ( int , backgroundMode ) ;
QFETCH ( QPoint , brushOrigin ) ;
QFETCH ( QRegion , clipRegion ) ;
QFETCH ( QRect , window ) ;
QFETCH ( QRect , viewport ) ;
QPixmap pixmap ( 1 , 1 ) ;
QPainter painter ( & pixmap ) ;
QFont font_org = painter . font ( ) ;
QPen pen_org = painter . pen ( ) ;
QBrush brush_org = painter . brush ( ) ;
QColor backgroundColor_org = painter . background ( ) . color ( ) ;
Qt : : BGMode backgroundMode_org = painter . backgroundMode ( ) ;
QPoint brushOrigin_org = painter . brushOrigin ( ) ;
QRegion clipRegion_org = painter . clipRegion ( ) ;
QRect window_org = painter . window ( ) ;
QRect viewport_org = painter . viewport ( ) ;
painter . save ( ) ;
painter . setFont ( font ) ;
painter . setPen ( QPen ( pen ) ) ;
painter . setBrush ( brush ) ;
painter . setBackground ( backgroundColor ) ;
painter . setBackgroundMode ( ( Qt : : BGMode ) backgroundMode ) ;
painter . setBrushOrigin ( brushOrigin ) ;
painter . setClipRegion ( clipRegion ) ;
painter . setWindow ( window ) ;
painter . setViewport ( viewport ) ;
painter . restore ( ) ;
QCOMPARE ( painter . font ( ) , font_org ) ;
QCOMPARE ( painter . font ( ) . pointSize ( ) , font_org . pointSize ( ) ) ;
QCOMPARE ( painter . font ( ) . pixelSize ( ) , font_org . pixelSize ( ) ) ;
QCOMPARE ( painter . pen ( ) , pen_org ) ;
QCOMPARE ( painter . brush ( ) , brush_org ) ;
QCOMPARE ( painter . background ( ) . color ( ) , backgroundColor_org ) ;
QCOMPARE ( painter . backgroundMode ( ) , backgroundMode_org ) ;
QCOMPARE ( painter . brushOrigin ( ) , brushOrigin_org ) ;
QCOMPARE ( painter . clipRegion ( ) , clipRegion_org ) ;
QCOMPARE ( painter . window ( ) , window_org ) ;
QCOMPARE ( painter . viewport ( ) , viewport_org ) ;
}
/*
Helper functions
*/
QColor tst_QPainter : : baseColor ( int k , int intensity )
{
int r = ( k & 1 ) * intensity ;
int g = ( ( k > > 1 ) & 1 ) * intensity ;
int b = ( ( k > > 2 ) & 1 ) * intensity ;
return QColor ( r , g , b ) ;
}
QImage tst_QPainter : : getResImage ( const QString & dir , const QString & addition , const QString & extension )
{
QImage res ;
QString resFilename = dir + QString ( " /res_%1. " ) . arg ( addition ) + extension ;
if ( ! res . load ( resFilename ) ) {
QWARN ( QString ( " Could not load result data %s %1 " ) . arg ( resFilename ) . toLatin1 ( ) ) ;
return QImage ( ) ;
}
return res ;
}
QBitmap tst_QPainter : : getBitmap ( const QString & dir , const QString & filename , bool mask )
{
QBitmap bm ;
QString bmFilename = dir + QString ( " /%1.xbm " ) . arg ( filename ) ;
if ( ! bm . load ( bmFilename ) ) {
QWARN ( QString ( " Could not load bitmap '%1' " ) . arg ( bmFilename ) . toLatin1 ( ) ) ;
return QBitmap ( ) ;
}
if ( mask ) {
QBitmap mask ;
QString maskFilename = dir + QString ( " /%1-mask.xbm " ) . arg ( filename ) ;
if ( ! mask . load ( maskFilename ) ) {
QWARN ( QString ( " Could not load mask '%1' " ) . arg ( maskFilename ) . toLatin1 ( ) ) ;
return QBitmap ( ) ;
}
bm . setMask ( mask ) ;
}
return bm ;
}
static int getPaintedPixels ( const QImage & image , const QColor & background )
{
uint color = background . rgba ( ) ;
int pixels = 0 ;
for ( int y = 0 ; y < image . height ( ) ; + + y )
for ( int x = 0 ; x < image . width ( ) ; + + x )
if ( image . pixel ( x , y ) ! = color )
+ + pixels ;
return pixels ;
}
static QRect getPaintedSize ( const QImage & image , const QColor & background )
{
// not the fastest but at least it works..
int xmin = image . width ( ) + 1 ;
int xmax = - 1 ;
int ymin = image . height ( ) + 1 ;
int ymax = - 1 ;
uint color = background . rgba ( ) ;
for ( int y = 0 ; y < image . height ( ) ; + + y ) {
for ( int x = 0 ; x < image . width ( ) ; + + x ) {
QRgb pixel = image . pixel ( x , y ) ;
if ( pixel ! = color & & x < xmin )
xmin = x ;
if ( pixel ! = color & & x > xmax )
xmax = x ;
if ( pixel ! = color & & y < ymin )
ymin = y ;
if ( pixel ! = color & & y > ymax )
ymax = y ;
}
}
return QRect ( xmin , ymin , xmax - xmin + 1 , ymax - ymin + 1 ) ;
}
static QRect getPaintedSize ( const QPixmap & pm , const QColor & background )
{
return getPaintedSize ( pm . toImage ( ) , background ) ;
}
void tst_QPainter : : initFrom ( )
{
QWidget * widget = new QWidget ( ) ;
QPalette pal = widget - > palette ( ) ;
pal . setColor ( QPalette : : Foreground , QColor ( 255 , 0 , 0 ) ) ;
pal . setBrush ( QPalette : : Background , QColor ( 0 , 255 , 0 ) ) ;
widget - > setPalette ( pal ) ;
QFont font = widget - > font ( ) ;
font . setPointSize ( 26 ) ;
font . setItalic ( true ) ;
widget - > setFont ( font ) ;
QPixmap pm ( 100 , 100 ) ;
QPainter p ( & pm ) ;
p . initFrom ( widget ) ;
QCOMPARE ( p . font ( ) , font ) ;
QCOMPARE ( p . pen ( ) . color ( ) , pal . color ( QPalette : : Foreground ) ) ;
QCOMPARE ( p . background ( ) , pal . background ( ) ) ;
delete widget ;
}
void tst_QPainter : : drawBorderPixmap ( )
{
QPixmap src ( 79 , 79 ) ;
src . fill ( Qt : : transparent ) ;
QImage pm ( 200 , 200 , QImage : : Format_RGB32 ) ;
QPainter p ( & pm ) ;
p . setTransform ( QTransform ( - 1 , 0 , 0 , - 1 , 173.5 , 153.5 ) ) ;
qDrawBorderPixmap ( & p , QRect ( 0 , 0 , 75 , 105 ) , QMargins ( 39 , 39 , 39 , 39 ) , src , QRect ( 0 , 0 , 79 , 79 ) , QMargins ( 39 , 39 , 39 , 39 ) ,
QTileRules ( Qt : : StretchTile , Qt : : StretchTile ) , 0 ) ;
}
void tst_QPainter : : drawPixmapFragments ( )
{
QPixmap origPixmap ( 20 , 20 ) ;
QPixmap resPixmap ( 20 , 20 ) ;
QPainter : : PixmapFragment fragments [ 4 ] = { { 15 , 15 , 0 , 0 , 10 , 10 , 1 , 1 , 0 , 1 } ,
{ 5 , 15 , 10 , 0 , 10 , 10 , 1 , 1 , 0 , 1 } ,
{ 15 , 5 , 0 , 10 , 10 , 10 , 1 , 1 , 0 , 1 } ,
{ 5 , 5 , 10 , 10 , 10 , 10 , 1 , 1 , 0 , 1 } } ;
{
QPainter p ( & origPixmap ) ;
p . fillRect ( 0 , 0 , 10 , 10 , Qt : : red ) ;
p . fillRect ( 10 , 0 , 10 , 10 , Qt : : green ) ;
p . fillRect ( 0 , 10 , 10 , 10 , Qt : : blue ) ;
p . fillRect ( 10 , 10 , 10 , 10 , Qt : : yellow ) ;
}
{
QPainter p ( & resPixmap ) ;
p . drawPixmapFragments ( fragments , 4 , origPixmap ) ;
}
QImage origImage = origPixmap . toImage ( ) . convertToFormat ( QImage : : Format_ARGB32 ) ;
QImage resImage = resPixmap . toImage ( ) . convertToFormat ( QImage : : Format_ARGB32 ) ;
QVERIFY ( resImage . size ( ) = = resPixmap . size ( ) ) ;
QVERIFY ( resImage . pixel ( 5 , 5 ) = = origImage . pixel ( 15 , 15 ) ) ;
QVERIFY ( resImage . pixel ( 5 , 15 ) = = origImage . pixel ( 15 , 5 ) ) ;
QVERIFY ( resImage . pixel ( 15 , 5 ) = = origImage . pixel ( 5 , 15 ) ) ;
QVERIFY ( resImage . pixel ( 15 , 15 ) = = origImage . pixel ( 5 , 5 ) ) ;
QPainter : : PixmapFragment fragment = QPainter : : PixmapFragment : : create ( QPointF ( 20 , 20 ) , QRectF ( 30 , 30 , 2 , 2 ) ) ;
QVERIFY ( fragment . x = = 20 ) ;
QVERIFY ( fragment . y = = 20 ) ;
QVERIFY ( fragment . sourceLeft = = 30 ) ;
QVERIFY ( fragment . sourceTop = = 30 ) ;
QVERIFY ( fragment . width = = 2 ) ;
QVERIFY ( fragment . height = = 2 ) ;
QVERIFY ( fragment . scaleX = = 1 ) ;
QVERIFY ( fragment . scaleY = = 1 ) ;
QVERIFY ( fragment . rotation = = 0 ) ;
QVERIFY ( fragment . opacity = = 1 ) ;
}
void tst_QPainter : : drawLine_data ( )
{
QTest : : addColumn < QLine > ( " line " ) ;
QTest : : newRow ( " 0-45 " ) < < QLine ( 0 , 20 , 100 , 0 ) ;
QTest : : newRow ( " 45-90 " ) < < QLine ( 0 , 100 , 20 , 0 ) ;
QTest : : newRow ( " 90-135 " ) < < QLine ( 20 , 100 , 0 , 0 ) ;
QTest : : newRow ( " 135-180 " ) < < QLine ( 100 , 20 , 0 , 0 ) ;
QTest : : newRow ( " 180-225 " ) < < QLine ( 100 , 0 , 0 , 20 ) ;
QTest : : newRow ( " 225-270 " ) < < QLine ( 20 , 0 , 0 , 100 ) ;
QTest : : newRow ( " 270-315 " ) < < QLine ( 0 , 0 , 20 , 100 ) ;
QTest : : newRow ( " 315-360 " ) < < QLine ( 0 , 0 , 100 , 20 ) ;
}
void tst_QPainter : : drawLine ( )
{
const int offset = 5 ;
const int epsilon = 1 ; // allow for one pixel difference
QFETCH ( QLine , line ) ;
QPixmap pixmapUnclipped ( qMin ( line . x1 ( ) , line . x2 ( ) )
+ 2 * offset + qAbs ( line . dx ( ) ) ,
qMin ( line . y1 ( ) , line . y2 ( ) )
+ 2 * offset + qAbs ( line . dy ( ) ) ) ;
{ // unclipped
pixmapUnclipped . fill ( Qt : : white ) ;
QPainter p ( & pixmapUnclipped ) ;
p . translate ( offset , offset ) ;
p . setPen ( QPen ( Qt : : black ) ) ;
p . drawLine ( line ) ;
p . end ( ) ;
const QRect painted = getPaintedSize ( pixmapUnclipped , Qt : : white ) ;
QLine l = line ;
l . translate ( offset , offset ) ;
QVERIFY ( qAbs ( painted . width ( ) - qAbs ( l . dx ( ) ) ) < = epsilon ) ;
QVERIFY ( qAbs ( painted . height ( ) - qAbs ( l . dy ( ) ) ) < = epsilon ) ;
QVERIFY ( qAbs ( painted . top ( ) - qMin ( l . y1 ( ) , l . y2 ( ) ) ) < = epsilon ) ;
QVERIFY ( qAbs ( painted . left ( ) - qMin ( l . x1 ( ) , l . x2 ( ) ) ) < = epsilon ) ;
QVERIFY ( qAbs ( painted . bottom ( ) - qMax ( l . y1 ( ) , l . y2 ( ) ) ) < = epsilon ) ;
QVERIFY ( qAbs ( painted . right ( ) - qMax ( l . x1 ( ) , l . x2 ( ) ) ) < = epsilon ) ;
}
QPixmap pixmapClipped ( qMin ( line . x1 ( ) , line . x2 ( ) )
+ 2 * offset + qAbs ( line . dx ( ) ) ,
qMin ( line . y1 ( ) , line . y2 ( ) )
+ 2 * offset + qAbs ( line . dy ( ) ) ) ;
{ // clipped
const QRect clip = QRect ( line . p1 ( ) , line . p2 ( ) ) . normalized ( ) ;
pixmapClipped . fill ( Qt : : white ) ;
QPainter p ( & pixmapClipped ) ;
p . translate ( offset , offset ) ;
p . setClipRect ( clip ) ;
p . setPen ( QPen ( Qt : : black ) ) ;
p . drawLine ( line ) ;
p . end ( ) ;
}
const QImage unclipped = pixmapUnclipped . toImage ( ) ;
const QImage clipped = pixmapClipped . toImage ( ) ;
QCOMPARE ( unclipped , clipped ) ;
}
void tst_QPainter : : drawLine_clipped ( )
{
QImage image ( 16 , 1 , QImage : : Format_ARGB32_Premultiplied ) ;
image . fill ( 0x0 ) ;
QPainter p ( & image ) ;
p . setPen ( QPen ( Qt : : black , 10 ) ) ;
// this should fill the whole image
p . drawLine ( - 1 , - 1 , 17 , 1 ) ;
p . end ( ) ;
for ( int x = 0 ; x < 16 ; + + x )
QCOMPARE ( image . pixel ( x , 0 ) , 0xff000000 ) ;
}
void tst_QPainter : : drawLine_task121143 ( )
{
QPen pen ( Qt : : black ) ;
QImage image ( 5 , 5 , QImage : : Format_ARGB32_Premultiplied ) ;
image . fill ( 0xffffffff ) ;
QPainter p ( & image ) ;
p . setPen ( pen ) ;
p . drawLine ( QLine ( 0 , 0 + 4 , 0 + 4 , 0 ) ) ;
p . end ( ) ;
QImage expected ( 5 , 5 , QImage : : Format_ARGB32_Premultiplied ) ;
expected . fill ( 0xffffffff ) ;
for ( int x = 0 ; x < 5 ; + + x )
expected . setPixel ( x , 5 - x - 1 , pen . color ( ) . rgb ( ) ) ;
QCOMPARE ( image , expected ) ;
}
void tst_QPainter : : drawLine_task190634 ( )
{
QPen pen ( Qt : : black , 3 ) ;
QImage image ( 32 , 32 , QImage : : Format_ARGB32_Premultiplied ) ;
QPainter p ( & image ) ;
p . fillRect ( 0 , 0 , image . width ( ) , image . height ( ) , Qt : : white ) ;
p . setPen ( pen ) ;
p . drawLine ( QLineF ( 2 , - 1.6 , 10 , - 1.6 ) ) ;
p . end ( ) ;
const uint * data = reinterpret_cast < uint * > ( image . bits ( ) ) ;
for ( int i = 0 ; i < image . width ( ) * image . height ( ) ; + + i )
QCOMPARE ( data [ i ] , 0xffffffff ) ;
p . begin ( & image ) ;
p . fillRect ( 0 , 0 , image . width ( ) , image . height ( ) , Qt : : white ) ;
p . setPen ( pen ) ;
p . drawLine ( QLineF ( - 1.6 , 2 , - 1.6 , 10 ) ) ;
p . end ( ) ;
data = reinterpret_cast < uint * > ( image . bits ( ) ) ;
for ( int i = 0 ; i < image . width ( ) * image . height ( ) ; + + i )
QCOMPARE ( data [ i ] , 0xffffffff ) ;
p . begin ( & image ) ;
p . fillRect ( 0 , 0 , image . width ( ) , image . height ( ) , Qt : : white ) ;
p . setPen ( pen ) ;
p . drawLine ( QPoint ( 2 , - 2 ) , QPoint ( 3 , - 5 ) ) ;
p . end ( ) ;
data = reinterpret_cast < uint * > ( image . bits ( ) ) ;
for ( int i = 0 ; i < image . width ( ) * image . height ( ) ; + + i )
QCOMPARE ( data [ i ] , 0xffffffff ) ;
}
void tst_QPainter : : drawLine_task229459 ( )
{
QImage image ( 32 , 32 , QImage : : Format_ARGB32_Premultiplied ) ;
image . fill ( 0x0 ) ;
QPen pen ( Qt : : black , 64 ) ;
QPainter p ( & image ) ;
p . setPen ( pen ) ;
p . drawLine ( - 8 , - 8 , 10000000 , 10000000 ) ;
p . end ( ) ;
QImage expected = image ;
expected . fill ( 0xff000000 ) ;
QCOMPARE ( image , expected ) ;
}
void tst_QPainter : : drawLine_task234891 ( )
{
QImage img ( 100 , 1000 , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( 0x0 ) ;
QImage expected = img ;
QPainter p ( & img ) ;
p . setPen ( QPen ( QBrush ( QColor ( 255 , 0 , 0 ) ) , 6 ) ) ;
p . drawLine ( QPointF ( 25000 , 100 ) , QPointF ( 30000 , 105 ) ) ;
p . setPen ( QPen ( QBrush ( QColor ( 0 , 255 , 0 ) ) , 6 ) ) ;
p . drawLine ( QPointF ( 30000 , 150 ) , QPointF ( 35000 , 155 ) ) ;
p . setPen ( QPen ( QBrush ( QColor ( 0 , 0 , 255 ) ) , 6 ) ) ;
p . drawLine ( QPointF ( 65000 , 200 ) , QPointF ( 66000 , 205 ) ) ;
QCOMPARE ( expected , img ) ;
}
void tst_QPainter : : drawLine_task216948 ( )
{
QImage img ( 1 , 10 , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( 0x0 ) ;
QPainter p ( & img ) ;
QLine line ( 10 , 0 , 10 , 10 ) ;
p . translate ( - 10 , 0 ) ;
p . drawLine ( line ) ;
p . end ( ) ;
for ( int i = 0 ; i < img . height ( ) ; + + i )
QCOMPARE ( img . pixel ( 0 , i ) , QColor ( Qt : : black ) . rgba ( ) ) ;
}
void tst_QPainter : : drawRect ( )
{
QFETCH ( QRect , rect ) ;
QFETCH ( bool , usePen ) ;
QPixmap pixmap ( rect . x ( ) + rect . width ( ) + 10 ,
rect . y ( ) + rect . height ( ) + 10 ) ;
{
pixmap . fill ( Qt : : white ) ;
QPainter p ( & pixmap ) ;
p . setPen ( usePen ? QPen ( Qt : : black ) : QPen ( Qt : : NoPen ) ) ;
p . setBrush ( Qt : : black ) ;
p . drawRect ( rect ) ;
p . end ( ) ;
int increment = usePen ? 1 : 0 ;
const QRect painted = getPaintedSize ( pixmap , Qt : : white ) ;
QCOMPARE ( painted . width ( ) , rect . width ( ) + increment ) ;
QCOMPARE ( painted . height ( ) , rect . height ( ) + increment ) ;
}
}
void tst_QPainter : : drawRect2 ( )
{
QImage image ( 64 , 64 , QImage : : Format_ARGB32_Premultiplied ) ;
{
image . fill ( 0xffffffff ) ;
QTransform transform ( 0.368567 , 0 , 0 , 0 , 0.368567 , 0 , 0.0289 , 0.0289 , 1 ) ;
QPainter p ( & image ) ;
p . setTransform ( transform ) ;
p . setBrush ( Qt : : red ) ;
p . setPen ( Qt : : NoPen ) ;
p . drawRect ( QRect ( 14 , 14 , 39 , 39 ) ) ;
p . end ( ) ;
QRect fill = getPaintedSize ( image , Qt : : white ) ;
image . fill ( 0xffffffff ) ;
p . begin ( & image ) ;
p . setTransform ( transform ) ;
p . drawRect ( QRect ( 14 , 14 , 39 , 39 ) ) ;
p . end ( ) ;
QRect stroke = getPaintedSize ( image , Qt : : white ) ;
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QCOMPARE ( stroke . adjusted ( 1 , 1 , 0 , 0 ) , fill . adjusted ( 0 , 0 , 1 , 1 ) ) ;
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}
}
void tst_QPainter : : fillRect ( )
{
QImage image ( 100 , 100 , QImage : : Format_ARGB32_Premultiplied ) ;
image . fill ( QColor ( 0 , 0 , 0 , 0 ) . rgba ( ) ) ;
QPainter p ( & image ) ;
p . fillRect ( 0 , 0 , 100 , 100 , QColor ( 255 , 0 , 0 , 127 ) ) ;
// pixmap.save("bla1.png", "PNG");
QCOMPARE ( getPaintedSize ( image , QColor ( 0 , 0 , 0 , 0 ) ) ,
QRect ( 0 , 0 , 100 , 100 ) ) ;
QCOMPARE ( getPaintedSize ( image , QColor ( 127 , 0 , 0 , 127 ) ) . isValid ( ) ,
QRect ( ) . isValid ( ) ) ;
p . setCompositionMode ( QPainter : : CompositionMode_SourceIn ) ;
p . fillRect ( 50 , 0 , 50 , 100 , QColor ( 0 , 0 , 255 , 255 ) ) ;
QCOMPARE ( getPaintedSize ( image , QColor ( 127 , 0 , 0 , 127 ) ) ,
QRect ( 50 , 0 , 50 , 100 ) ) ;
QCOMPARE ( getPaintedSize ( image , QColor ( 0 , 0 , 127 , 127 ) ) ,
QRect ( 0 , 0 , 50 , 100 ) ) ;
}
void tst_QPainter : : fillRect2 ( )
{
QRgb background = 0x0 ;
QImage img ( 1 , 20 , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( background ) ;
QPainter p ( & img ) ;
QRectF rect ( 0 , 1 , 1.2 , 18 ) ;
p . fillRect ( rect , Qt : : black ) ;
p . end ( ) ;
QCOMPARE ( img . pixel ( 0 , 0 ) , background ) ;
QCOMPARE ( img . pixel ( 0 , img . height ( ) - 1 ) , background ) ;
QCOMPARE ( img . pixel ( 0 , 1 ) , img . pixel ( 0 , 2 ) ) ;
QCOMPARE ( img . pixel ( 0 , img . height ( ) - 2 ) , img . pixel ( 0 , img . height ( ) - 3 ) ) ;
}
void tst_QPainter : : fillRect3 ( )
{
QImage img ( 1 , 1 , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( QColor ( Qt : : black ) . rgba ( ) ) ;
QPainter p ( & img ) ;
p . setCompositionMode ( QPainter : : CompositionMode_Source ) ;
p . fillRect ( img . rect ( ) , Qt : : transparent ) ;
p . end ( ) ;
QCOMPARE ( img . pixel ( 0 , 0 ) , 0U ) ;
}
void tst_QPainter : : fillRect4 ( )
{
QImage image ( 100 , 1 , QImage : : Format_ARGB32_Premultiplied ) ;
image . fill ( 0x0 ) ;
QImage expected = image ;
expected . fill ( 0xffffffff ) ;
QPainter p ( & image ) ;
p . scale ( 1.1 , 1 ) ;
p . setPen ( Qt : : NoPen ) ;
for ( int i = 0 ; i < 33 ; + + i )
p . fillRect ( QRectF ( 3 * i , 0 , 3 , 1 ) , Qt : : white ) ;
p . end ( ) ;
QCOMPARE ( image , expected ) ;
}
void tst_QPainter : : drawPath_data ( )
{
QTest : : addColumn < QPainterPath > ( " path " ) ;
QTest : : addColumn < QRect > ( " expectedBounds " ) ;
QTest : : addColumn < int > ( " expectedPixels " ) ;
{
QPainterPath p ;
p . addRect ( 2 , 2 , 10 , 10 ) ;
QTest : : newRow ( " int-aligned rect " ) < < p < < QRect ( 2 , 2 , 10 , 10 ) < < 10 * 10 ;
}
{
QPainterPath p ;
p . addRect ( 2.25 , 2.25 , 10 , 10 ) ;
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QTest : : newRow ( " non-aligned rect " ) < < p < < QRect ( 3 , 3 , 10 , 10 ) < < 10 * 10 ;
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}
{
QPainterPath p ;
p . addRect ( 2.25 , 2.25 , 10.5 , 10.5 ) ;
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QTest : : newRow ( " non-aligned rect 2 " ) < < p < < QRect ( 3 , 3 , 10 , 10 ) < < 10 * 10 ;
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}
{
QPainterPath p ;
p . addRect ( 2.5 , 2.5 , 10 , 10 ) ;
QTest : : newRow ( " non-aligned rect 3 " ) < < p < < QRect ( 3 , 3 , 10 , 10 ) < < 10 * 10 ;
}
{
QPainterPath p ;
p . addRect ( 2 , 2 , 10 , 10 ) ;
p . addRect ( 4 , 4 , 6 , 6 ) ;
QTest : : newRow ( " rect-in-rect " ) < < p < < QRect ( 2 , 2 , 10 , 10 ) < < 10 * 10 - 6 * 6 ;
}
{
QPainterPath p ;
p . addRect ( 2 , 2 , 10 , 10 ) ;
p . addRect ( 4 , 4 , 6 , 6 ) ;
p . addRect ( 6 , 6 , 2 , 2 ) ;
QTest : : newRow ( " rect-in-rect-in-rect " ) < < p < < QRect ( 2 , 2 , 10 , 10 ) < < 10 * 10 - 6 * 6 + 2 * 2 ;
}
}
void tst_QPainter : : drawPath ( )
{
QFETCH ( QPainterPath , path ) ;
QFETCH ( QRect , expectedBounds ) ;
QFETCH ( int , expectedPixels ) ;
const int offset = 2 ;
QImage image ( expectedBounds . width ( ) + 2 * offset , expectedBounds . height ( ) + 2 * offset ,
QImage : : Format_ARGB32_Premultiplied ) ;
image . fill ( QColor ( Qt : : white ) . rgb ( ) ) ;
QPainter p ( & image ) ;
p . setPen ( Qt : : NoPen ) ;
p . setBrush ( Qt : : black ) ;
p . translate ( offset - expectedBounds . left ( ) , offset - expectedBounds . top ( ) ) ;
p . drawPath ( path ) ;
p . end ( ) ;
const QRect paintedBounds = getPaintedSize ( image , Qt : : white ) ;
QCOMPARE ( paintedBounds . x ( ) , offset ) ;
QCOMPARE ( paintedBounds . y ( ) , offset ) ;
QCOMPARE ( paintedBounds . width ( ) , expectedBounds . width ( ) ) ;
QCOMPARE ( paintedBounds . height ( ) , expectedBounds . height ( ) ) ;
if ( expectedPixels ! = - 1 ) {
int paintedPixels = getPaintedPixels ( image , Qt : : white ) ;
QCOMPARE ( paintedPixels , expectedPixels ) ;
}
}
void tst_QPainter : : drawPath2 ( )
{
const int w = 50 ;
for ( int h = 5 ; h < 200 ; + + h ) {
QPainterPath p1 , p2 ;
p1 . lineTo ( w , 0 ) ;
p1 . lineTo ( w , h ) ;
p2 . lineTo ( w , h ) ;
p2 . lineTo ( 0 , h ) ;
const int offset = 2 ;
QImage image ( w + 2 * offset , h + 2 * offset ,
QImage : : Format_ARGB32_Premultiplied ) ;
image . fill ( QColor ( Qt : : white ) . rgb ( ) ) ;
QPainter p ( & image ) ;
p . setPen ( Qt : : NoPen ) ;
p . setBrush ( Qt : : black ) ;
p . translate ( offset , offset ) ;
p . drawPath ( p1 ) ;
p . end ( ) ;
const int p1Pixels = getPaintedPixels ( image , Qt : : white ) ;
image . fill ( QColor ( Qt : : white ) . rgb ( ) ) ;
p . begin ( & image ) ;
p . setPen ( Qt : : NoPen ) ;
p . setBrush ( Qt : : black ) ;
p . translate ( offset , offset ) ;
p . drawPath ( p2 ) ;
p . end ( ) ;
const int p2Pixels = getPaintedPixels ( image , Qt : : white ) ;
QCOMPARE ( p1Pixels + p2Pixels , w * h ) ;
}
}
void tst_QPainter : : drawPath3 ( )
{
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# if !defined(Q_OS_WINCE)
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QImage imgA ( 400 , 400 , QImage : : Format_RGB32 ) ;
# else
QImage imgA ( 100 , 100 , QImage : : Format_RGB32 ) ;
# endif
imgA . fill ( 0xffffff ) ;
QImage imgB = imgA ;
QPainterPath path ;
for ( int y = 0 ; y < imgA . height ( ) ; + + y ) {
for ( int x = 0 ; x < imgA . width ( ) ; + + x ) {
if ( ( x + y ) & 1 ) {
imgA . setPixel ( x , y , 0 ) ;
path . addRect ( x , y , 1 , 1 ) ;
}
}
}
QPainter p ( & imgB ) ;
p . setPen ( Qt : : NoPen ) ;
p . setBrush ( Qt : : black ) ;
p . drawPath ( path ) ;
p . end ( ) ;
QVERIFY ( imgA = = imgB ) ;
imgA . invertPixels ( ) ;
imgB . fill ( 0xffffff ) ;
p . begin ( & imgB ) ;
p . setPen ( Qt : : NoPen ) ;
p . setBrush ( Qt : : black ) ;
QRectF rect ( 0 , 0 , imgA . width ( ) , imgA . height ( ) ) ;
path . addRect ( rect . adjusted ( - 10 , - 10 , 10 , 10 ) ) ;
p . drawPath ( path ) ;
p . end ( ) ;
QVERIFY ( imgA = = imgB ) ;
path . setFillRule ( Qt : : WindingFill ) ;
imgB . fill ( 0xffffff ) ;
p . begin ( & imgB ) ;
p . setPen ( Qt : : NoPen ) ;
p . setBrush ( Qt : : black ) ;
QRect clip = rect . adjusted ( 10 , 10 , - 10 , - 10 ) . toRect ( ) ;
p . setClipRect ( clip ) ;
p . drawPath ( path ) ;
p . end ( ) ;
QCOMPARE ( getPaintedPixels ( imgB , Qt : : white ) , clip . width ( ) * clip . height ( ) ) ;
}
void tst_QPainter : : drawEllipse_data ( )
{
QTest : : addColumn < QSize > ( " size " ) ;
QTest : : addColumn < bool > ( " usePen " ) ;
// The current drawEllipse algorithm (drawEllipse_midpoint_i in
// qpaintengine_raster.cpp) draws ellipses that are too wide if the
// ratio between width and hight is too large/small (task 114874). Those
// ratios are therefore currently avoided.
for ( int w = 10 ; w < 128 ; w + = 7 ) {
for ( int h = w / 2 ; h < qMin ( 2 * w , 128 ) ; h + = 13 ) {
QString s = QString ( " %1x%2 " ) . arg ( w ) . arg ( h ) ;
QTest : : newRow ( QString ( " %1 with pen " ) . arg ( s ) . toLatin1 ( ) ) < < QSize ( w , h ) < < true ;
QTest : : newRow ( QString ( " %1 no pen " ) . arg ( s ) . toLatin1 ( ) ) < < QSize ( w , h ) < < false ;
}
}
}
void tst_QPainter : : drawEllipse ( )
{
QFETCH ( QSize , size ) ;
QFETCH ( bool , usePen ) ;
const int offset = 10 ;
QRect rect ( QPoint ( offset , offset ) , size ) ;
QImage image ( size . width ( ) + 2 * offset , size . height ( ) + 2 * offset ,
QImage : : Format_ARGB32_Premultiplied ) ;
image . fill ( QColor ( Qt : : white ) . rgb ( ) ) ;
QPainter p ( & image ) ;
p . setPen ( usePen ? QPen ( Qt : : black ) : QPen ( Qt : : NoPen ) ) ;
p . setBrush ( Qt : : black ) ;
p . drawEllipse ( rect ) ;
p . end ( ) ;
QPixmap pixmap = QPixmap : : fromImage ( image ) ;
const QRect painted = getPaintedSize ( pixmap , Qt : : white ) ;
QCOMPARE ( painted . x ( ) , rect . x ( ) ) ;
QCOMPARE ( painted . y ( ) , rect . y ( ) + ( usePen ? 0 : 1 ) ) ;
QCOMPARE ( painted . width ( ) , size . width ( ) + ( usePen ? 1 : 0 ) ) ;
QCOMPARE ( painted . height ( ) , size . height ( ) + ( usePen ? 1 : - 1 ) ) ;
}
void tst_QPainter : : drawClippedEllipse_data ( )
{
QTest : : addColumn < QRect > ( " rect " ) ;
for ( int w = 20 ; w < 128 ; w + = 7 ) {
for ( int h = w / 2 ; h < qMin ( 2 * w , 128 ) ; h + = 13 ) {
QString s = QString ( " %1x%2 " ) . arg ( w ) . arg ( h ) ;
QTest : : newRow ( QString ( " %1 top " ) . arg ( s ) . toLatin1 ( ) ) < < QRect ( 0 , - h / 2 , w , h ) ;
QTest : : newRow ( QString ( " %1 topright " ) . arg ( s ) . toLatin1 ( ) ) < < QRect ( w / 2 , - h / 2 , w , h ) ;
QTest : : newRow ( QString ( " %1 right " ) . arg ( s ) . toLatin1 ( ) ) < < QRect ( w / 2 , 0 , w , h ) ;
QTest : : newRow ( QString ( " %1 bottomright " ) . arg ( s ) . toLatin1 ( ) ) < < QRect ( w / 2 , h / 2 , w , h ) ;
QTest : : newRow ( QString ( " %1 bottom " ) . arg ( s ) . toLatin1 ( ) ) < < QRect ( 0 , h / 2 , w , h ) ;
QTest : : newRow ( QString ( " %1 bottomleft " ) . arg ( s ) . toLatin1 ( ) ) < < QRect ( - w / 2 , h / 2 , w , h ) ;
QTest : : newRow ( QString ( " %1 left " ) . arg ( s ) . toLatin1 ( ) ) < < QRect ( - w / 2 , 0 , w , h ) ;
QTest : : newRow ( QString ( " %1 topleft " ) . arg ( s ) . toLatin1 ( ) ) < < QRect ( - w / 2 , - h / 2 , w , h ) ;
}
}
}
void tst_QPainter : : drawClippedEllipse ( )
{
QFETCH ( QRect , rect ) ;
if ( sizeof ( qreal ) ! = sizeof ( double ) )
QSKIP ( " Test only works for qreal==double " , SkipAll ) ;
QImage image ( rect . width ( ) + 1 , rect . height ( ) + 1 ,
QImage : : Format_ARGB32_Premultiplied ) ;
QRect expected = QRect ( rect . x ( ) , rect . y ( ) , rect . width ( ) + 1 , rect . height ( ) + 1 )
& QRect ( 0 , 0 , image . width ( ) , image . height ( ) ) ;
image . fill ( QColor ( Qt : : white ) . rgb ( ) ) ;
QPainter p ( & image ) ;
p . drawEllipse ( rect ) ;
p . end ( ) ;
QPixmap pixmap = QPixmap : : fromImage ( image ) ;
const QRect painted = getPaintedSize ( pixmap , Qt : : white ) ;
QCOMPARE ( painted . x ( ) , expected . x ( ) ) ;
QCOMPARE ( painted . y ( ) , expected . y ( ) ) ;
QCOMPARE ( painted . width ( ) , expected . width ( ) ) ;
QCOMPARE ( painted . height ( ) , expected . height ( ) ) ;
}
void tst_QPainter : : drawRoundRect ( )
{
QFETCH ( QRect , rect ) ;
QFETCH ( bool , usePen ) ;
# ifdef Q_WS_MAC
if ( QTest : : currentDataTag ( ) = = QByteArray ( " rect(6, 12, 3, 14) with pen " ) | |
QTest : : currentDataTag ( ) = = QByteArray ( " rect(6, 17, 3, 25) with pen " ) | |
QTest : : currentDataTag ( ) = = QByteArray ( " rect(10, 6, 10, 3) with pen " ) | |
QTest : : currentDataTag ( ) = = QByteArray ( " rect(10, 12, 10, 14) with pen " ) | |
QTest : : currentDataTag ( ) = = QByteArray ( " rect(13, 45, 17, 80) with pen " ) | |
QTest : : currentDataTag ( ) = = QByteArray ( " rect(13, 50, 17, 91) with pen " ) | |
QTest : : currentDataTag ( ) = = QByteArray ( " rect(17, 6, 24, 3) with pen " ) | |
QTest : : currentDataTag ( ) = = QByteArray ( " rect(24, 12, 38, 14) with pen " ) )
QSKIP ( " The Mac paint engine is off-by-one on certain rect sizes " , SkipSingle ) ;
# endif
QPixmap pixmap ( rect . x ( ) + rect . width ( ) + 10 ,
rect . y ( ) + rect . height ( ) + 10 ) ;
{
pixmap . fill ( Qt : : white ) ;
QPainter p ( & pixmap ) ;
p . setPen ( usePen ? QPen ( Qt : : black ) : QPen ( Qt : : NoPen ) ) ;
p . setBrush ( Qt : : black ) ;
p . drawRoundRect ( rect ) ;
p . end ( ) ;
int increment = usePen ? 1 : 0 ;
const QRect painted = getPaintedSize ( pixmap , Qt : : white ) ;
QCOMPARE ( painted . width ( ) , rect . width ( ) + increment ) ;
QCOMPARE ( painted . height ( ) , rect . height ( ) + increment ) ;
}
}
Q_DECLARE_METATYPE ( QImage : : Format )
void tst_QPainter : : qimageFormats_data ( )
{
QTest : : addColumn < QImage : : Format > ( " format " ) ;
QTest : : newRow ( " QImage::Format_RGB32 " ) < < QImage : : Format_RGB32 ;
QTest : : newRow ( " QImage::Format_ARGB32 " ) < < QImage : : Format_ARGB32 ;
QTest : : newRow ( " QImage::Format_ARGB32_Premultiplied " ) < < QImage : : Format_ARGB32_Premultiplied ;
QTest : : newRow ( " QImage::Format_RGB16 " ) < < QImage : : Format_RGB16 ;
QTest : : newRow ( " Qimage::Format_ARGB8565_Premultiplied " ) < < QImage : : Format_ARGB8565_Premultiplied ;
QTest : : newRow ( " Qimage::Format_RGB666 " ) < < QImage : : Format_RGB666 ;
QTest : : newRow ( " Qimage::Format_RGB555 " ) < < QImage : : Format_RGB555 ;
QTest : : newRow ( " Qimage::Format_ARGB8555_Premultiplied " ) < < QImage : : Format_ARGB8555_Premultiplied ;
QTest : : newRow ( " Qimage::Format_RGB888 " ) < < QImage : : Format_RGB888 ;
}
/*
Tests that QPainter can paint on various QImage formats .
*/
void tst_QPainter : : qimageFormats ( )
{
QFETCH ( QImage : : Format , format ) ;
const QSize size ( 100 , 100 ) ;
QImage image ( size , format ) ;
image . fill ( 0 ) ;
const QColor testColor ( Qt : : red ) ;
QPainter p ( & image ) ;
QVERIFY ( p . isActive ( ) ) ;
p . setBrush ( QBrush ( testColor ) ) ;
p . drawRect ( QRect ( QPoint ( 0 , 0 ) , size ) ) ;
QCOMPARE ( image . pixel ( 50 , 50 ) , testColor . rgb ( ) ) ;
}
void tst_QPainter : : fillData ( )
{
QTest : : addColumn < QRect > ( " rect " ) ;
QTest : : addColumn < bool > ( " usePen " ) ;
for ( int w = 3 ; w < 50 ; w + = 7 ) {
for ( int h = 3 ; h < 50 ; h + = 11 ) {
int x = w / 2 + 5 ;
int y = h / 2 + 5 ;
QTest : : newRow ( QString ( " rect(%1, %2, %3, %4) with pen " ) . arg ( x ) . arg ( y ) . arg ( w ) . arg ( h ) . toLatin1 ( ) )
< < QRect ( x , y , w , h ) < < true ;
QTest : : newRow ( QString ( " rect(%1, %2, %3, %4) no pen " ) . arg ( x ) . arg ( y ) . arg ( w ) . arg ( h ) . toLatin1 ( ) )
< < QRect ( x , y , w , h ) < < false ;
}
}
}
/*
Test that drawline works properly after setWindow has been called .
*/
void tst_QPainter : : setWindow ( )
{
QPixmap pixmap ( 600 , 600 ) ;
pixmap . fill ( QColor ( Qt : : white ) ) ;
QPainter painter ( & pixmap ) ;
painter . setWindow ( 0 , 0 , 3 , 3 ) ;
painter . drawLine ( 1 , 1 , 2 , 2 ) ;
const QRect painted = getPaintedSize ( pixmap , Qt : : white ) ;
QVERIFY ( 195 < painted . y ( ) & & painted . y ( ) < 205 ) ; // correct value is around 200
QVERIFY ( 195 < painted . height ( ) & & painted . height ( ) < 205 ) ; // correct value is around 200
}
void tst_QPainter : : combinedMatrix ( )
{
QPixmap pm ( 64 , 64 ) ;
QPainter p ( & pm ) ;
p . setWindow ( 0 , 0 , 1 , 1 ) ;
p . setViewport ( 32 , 0 , 32 , 32 ) ;
p . translate ( 0.5 , 0.5 ) ;
QMatrix cm = p . combinedMatrix ( ) ;
QPointF pt = QPointF ( 0 , 0 ) * cm ;
QCOMPARE ( pt . x ( ) , 48.0 ) ;
QCOMPARE ( pt . y ( ) , 16.0 ) ;
}
void tst_QPainter : : textOnTransparentImage ( )
{
bool foundPixel = false ;
QImage image ( 10 , 10 , QImage : : Format_ARGB32_Premultiplied ) ;
image . fill ( qRgba ( 0 , 0 , 0 , 0 ) ) ; // transparent
{
QPainter painter ( & image ) ;
painter . setPen ( QColor ( 255 , 255 , 255 ) ) ;
painter . drawText ( 0 , 10 , " W " ) ;
}
for ( int x = 0 ; x < image . width ( ) ; + + x )
for ( int y = 0 ; y < image . height ( ) ; + + y )
if ( image . pixel ( x , y ) ! = 0 )
foundPixel = true ;
QVERIFY ( foundPixel ) ;
}
void tst_QPainter : : renderHints ( )
{
QImage img ( 1 , 1 , QImage : : Format_RGB32 ) ;
QPainter p ( & img ) ;
// Turn off all...
p . setRenderHints ( QPainter : : RenderHints ( 0xffffffff ) , false ) ;
QCOMPARE ( p . renderHints ( ) , QPainter : : RenderHints ( 0 ) ) ;
// Single set/get
p . setRenderHint ( QPainter : : Antialiasing ) ;
QVERIFY ( p . renderHints ( ) & QPainter : : Antialiasing ) ;
p . setRenderHint ( QPainter : : Antialiasing , false ) ;
QVERIFY ( ! ( p . renderHints ( ) & QPainter : : Antialiasing ) ) ;
// Multi set/get
p . setRenderHints ( QPainter : : Antialiasing | QPainter : : SmoothPixmapTransform ) ;
QVERIFY ( p . renderHints ( ) & ( QPainter : : Antialiasing | QPainter : : SmoothPixmapTransform ) ) ;
p . setRenderHints ( QPainter : : Antialiasing | QPainter : : SmoothPixmapTransform , false ) ;
QVERIFY ( ! ( p . renderHints ( ) & ( QPainter : : Antialiasing | QPainter : : SmoothPixmapTransform ) ) ) ;
}
int countPixels ( const QImage & img , const QRgb & color )
{
int count = 0 ;
for ( int y = 0 ; y < img . height ( ) ; + + y ) {
for ( int x = 0 ; x < img . width ( ) ; + + x ) {
count + = ( ( img . pixel ( x , y ) & 0xffffff ) = = color ) ;
}
}
return count ;
}
template < typename T >
void testClipping ( QImage & img )
{
QPainterPath a , b ;
a . addRect ( QRect ( 2 , 2 , 4 , 4 ) ) ;
b . addRect ( QRect ( 4 , 4 , 4 , 4 ) ) ;
QPainter p ( & img ) ;
p . end ( ) ;
img . fill ( 0x0 ) ;
p . begin ( & img ) ;
p . setClipPath ( a ) ;
p . setClipPath ( b , Qt : : IntersectClip ) ;
p . setClipping ( false ) ;
p . setPen ( Qt : : NoPen ) ;
p . setBrush ( QColor ( 0xff0000 ) ) ;
p . drawRect ( T ( 0 , 0 , 10 , 10 ) ) ;
p . setClipping ( true ) ;
p . setBrush ( QColor ( 0x00ff00 ) ) ;
p . drawRect ( T ( 0 , 0 , 10 , 10 ) ) ;
QCOMPARE ( countPixels ( img , 0xff0000 ) , 96 ) ;
QCOMPARE ( countPixels ( img , 0x00ff00 ) , 4 ) ;
}
void tst_QPainter : : disableEnableClipping ( )
{
QImage img ( 10 , 10 , QImage : : Format_RGB32 ) ;
testClipping < QRectF > ( img ) ;
testClipping < QRect > ( img ) ;
}
void tst_QPainter : : setClipRect ( )
{
QImage img ( 10 , 10 , QImage : : Format_RGB32 ) ;
// simple test to let valgrind check for buffer overflow
{
QPainter p ( & img ) ;
p . setClipRect ( - 10 , - 10 , 100 , 100 ) ;
p . fillRect ( - 10 , - 10 , 100 , 100 , QBrush ( QColor ( Qt : : red ) ) ) ;
}
// rects with negative width/height
{
QPainter p ( & img ) ;
p . setClipRect ( QRect ( 10 , 10 , - 10 , 10 ) ) ;
QVERIFY ( p . clipRegion ( ) . isEmpty ( ) ) ;
p . setClipRect ( QRect ( 10 , 10 , 10 , - 10 ) ) ;
QVERIFY ( p . clipRegion ( ) . isEmpty ( ) ) ;
p . setClipRect ( QRectF ( 10.5 , 10.5 , - 10.5 , 10.5 ) ) ;
QVERIFY ( p . clipRegion ( ) . isEmpty ( ) ) ;
p . setClipRect ( QRectF ( 10.5 , 10.5 , 10.5 , - 10.5 ) ) ;
QVERIFY ( p . clipRegion ( ) . isEmpty ( ) ) ;
}
}
/*
This tests the two different clipping approaches in QRasterPaintEngine ,
one when using a QRegion and one when using a QPainterPath . They should
give equal results .
*/
void tst_QPainter : : setEqualClipRegionAndPath_data ( )
{
QTest : : addColumn < QSize > ( " deviceSize " ) ;
QTest : : addColumn < QRegion > ( " region " ) ;
QTest : : newRow ( " empty " ) < < QSize ( 100 , 100 ) < < QRegion ( ) ;
QTest : : newRow ( " simple rect " ) < < QSize ( 100 , 100 )
< < QRegion ( QRect ( 5 , 5 , 10 , 10 ) ) ;
QVector < QRect > rects ;
QRegion region ;
rects < < QRect ( 5 , 5 , 10 , 10 ) < < QRect ( 20 , 20 , 10 , 10 ) ;
region . setRects ( rects . constData ( ) , rects . size ( ) ) ;
QTest : : newRow ( " two rects " ) < < QSize ( 100 , 100 ) < < region ;
rects . clear ( ) ;
rects < < QRect ( 5 , 5 , 10 , 10 ) < < QRect ( 20 , 5 , 10 , 10 ) ;
region . setRects ( rects . constData ( ) , rects . size ( ) ) ;
QTest : : newRow ( " two x-adjacent rects " ) < < QSize ( 100 , 100 ) < < region ;
rects . clear ( ) ;
rects < < QRect ( 0 , 0 , 10 , 100 ) < < QRect ( 12 , 0 , 10 , 100 ) ;
region . setRects ( rects . constData ( ) , rects . size ( ) ) ;
QTest : : newRow ( " two x-adjacent rects 2 " ) < < QSize ( 100 , 100 ) < < region ;
rects . clear ( ) ;
rects < < QRect ( 0 , 0 , 10 , 100 ) < < QRect ( 12 , 0 , 10 , 100 ) ;
region . setRects ( rects . constData ( ) , rects . size ( ) ) ;
QTest : : newRow ( " two x-adjacent rects 3 " ) < < QSize ( 50 , 50 ) < < region ;
rects . clear ( ) ;
rects < < QRect ( 0 , 0 , 10 , 100 ) < < QRect ( 12 , 0 , 10 , 100 ) ;
region . setRects ( rects . constData ( ) , rects . size ( ) ) ;
QTest : : newRow ( " two x-adjacent rects 4 " ) < < QSize ( 101 , 101 ) < < region ;
region = QRegion ( QRect ( 0 , 0 , 200 , 200 ) , QRegion : : Ellipse ) ;
QTest : : newRow ( " ellipse " ) < < QSize ( 190 , 200 ) < < region ;
region ^ = QRect ( 50 , 50 , 50 , 50 ) ;
QTest : : newRow ( " ellipse 2 " ) < < QSize ( 200 , 200 ) < < region ;
}
void tst_QPainter : : setEqualClipRegionAndPath ( )
{
QFETCH ( QSize , deviceSize ) ;
QFETCH ( QRegion , region ) ;
QPainterPath path ;
path . addRegion ( region ) ;
QImage img1 ( deviceSize . width ( ) , deviceSize . height ( ) ,
QImage : : Format_ARGB32 ) ;
QImage img2 ( deviceSize . width ( ) , deviceSize . height ( ) ,
QImage : : Format_ARGB32 ) ;
img1 . fill ( 0x12345678 ) ;
img2 . fill ( 0x12345678 ) ;
{
QPainter p ( & img1 ) ;
p . setClipRegion ( region ) ;
p . fillRect ( 0 , 0 , img1 . width ( ) , img1 . height ( ) , QColor ( Qt : : red ) ) ;
}
{
QPainter p ( & img2 ) ;
p . setClipPath ( path ) ;
p . fillRect ( 0 , 0 , img2 . width ( ) , img2 . height ( ) , QColor ( Qt : : red ) ) ;
}
#if 0
if ( img1 ! = img2 ) {
img1 . save ( " setEqualClipRegionAndPath_1.xpm " , " XPM " ) ;
img2 . save ( " setEqualClipRegionAndPath_2.xpm " , " XPM " ) ;
}
# endif
QCOMPARE ( img1 , img2 ) ;
#if 0
// rotated
img1 . fill ( 0x12345678 ) ;
img2 . fill ( 0x12345678 ) ;
{
QPainter p ( & img1 ) ;
p . rotate ( 25 ) ;
p . setClipRegion ( region ) ;
p . fillRect ( 0 , 0 , img1 . width ( ) , img1 . height ( ) , QColor ( Qt : : red ) ) ;
}
{
QPainter p ( & img2 ) ;
p . rotate ( 25 ) ;
p . setClipPath ( path ) ;
p . fillRect ( 0 , 0 , img2 . width ( ) , img2 . height ( ) , QColor ( Qt : : red ) ) ;
}
# if 1
if ( img1 ! = img2 ) {
img1 . save ( " setEqualClipRegionAndPath_1.xpm " , " XPM " ) ;
img2 . save ( " setEqualClipRegionAndPath_2.xpm " , " XPM " ) ;
}
# endif
QCOMPARE ( img1 , img2 ) ;
# endif
img1 . fill ( 0x12345678 ) ;
img2 . fill ( 0x12345678 ) ;
// simple intersectclip
img1 . fill ( 0x12345678 ) ;
img2 . fill ( 0x12345678 ) ;
{
QPainter p ( & img1 ) ;
p . setClipRegion ( region ) ;
p . setClipRegion ( region , Qt : : IntersectClip ) ;
p . fillRect ( 0 , 0 , img1 . width ( ) , img1 . height ( ) , QColor ( Qt : : red ) ) ;
}
{
QPainter p ( & img2 ) ;
p . setClipPath ( path ) ;
p . setClipPath ( path , Qt : : IntersectClip ) ;
p . fillRect ( 0 , 0 , img2 . width ( ) , img2 . height ( ) , QColor ( Qt : : red ) ) ;
}
#if 0
if ( img1 ! = img2 ) {
img1 . save ( " setEqualClipRegionAndPath_1.png " , " PNG " ) ;
img2 . save ( " setEqualClipRegionAndPath_2.png " , " PNG " ) ;
}
# endif
QCOMPARE ( img1 , img2 ) ;
img1 . fill ( 0x12345678 ) ;
img2 . fill ( 0x12345678 ) ;
{
QPainter p ( & img1 ) ;
p . setClipPath ( path ) ;
p . setClipRegion ( region , Qt : : IntersectClip ) ;
p . fillRect ( 0 , 0 , img1 . width ( ) , img1 . height ( ) , QColor ( Qt : : red ) ) ;
}
{
QPainter p ( & img2 ) ;
p . setClipRegion ( region ) ;
p . setClipPath ( path , Qt : : IntersectClip ) ;
p . fillRect ( 0 , 0 , img2 . width ( ) , img2 . height ( ) , QColor ( Qt : : red ) ) ;
}
#if 0
if ( img1 ! = img2 ) {
img1 . save ( " setEqualClipRegionAndPath_1.xpm " , " XPM " ) ;
img2 . save ( " setEqualClipRegionAndPath_2.xpm " , " XPM " ) ;
}
# endif
QCOMPARE ( img1 , img2 ) ;
}
void tst_QPainter : : clippedFillPath_data ( )
{
QTest : : addColumn < QSize > ( " imageSize " ) ;
QTest : : addColumn < QPainterPath > ( " path " ) ;
QTest : : addColumn < QRect > ( " clipRect " ) ;
QTest : : addColumn < QBrush > ( " brush " ) ;
QTest : : addColumn < QPen > ( " pen " ) ;
QLinearGradient gradient ( QPoint ( 0 , 0 ) , QPoint ( 100 , 100 ) ) ;
gradient . setColorAt ( 0 , Qt : : red ) ;
gradient . setColorAt ( 1 , Qt : : blue ) ;
QPen pen2 ( QColor ( 223 , 223 , 0 , 223 ) ) ;
pen2 . setWidth ( 2 ) ;
QPainterPath path ;
path . addRect ( QRect ( 15 , 15 , 50 , 50 ) ) ;
QTest : : newRow ( " simple rect 0 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 49 , 49 )
< < QBrush ( Qt : : NoBrush )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( " simple rect 1 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 50 , 50 )
< < QBrush ( Qt : : NoBrush )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( " simple rect 2 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 51 , 51 )
< < QBrush ( Qt : : NoBrush )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( " simple rect 3 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 51 , 51 )
< < QBrush ( QColor ( Qt : : blue ) )
< < QPen ( Qt : : NoPen ) ;
QTest : : newRow ( " simple rect 4 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 51 , 51 )
< < QBrush ( gradient )
< < pen2 ;
path = QPainterPath ( ) ;
path . addEllipse ( QRect ( 15 , 15 , 50 , 50 ) ) ;
QTest : : newRow ( " ellipse 0 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 49 , 49 )
< < QBrush ( Qt : : NoBrush )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( " ellipse 1 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 50 , 50 )
< < QBrush ( Qt : : NoBrush )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( " ellipse 2 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 51 , 51 )
< < QBrush ( Qt : : NoBrush )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( " ellipse 3 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 51 , 51 )
< < QBrush ( QColor ( Qt : : blue ) )
< < QPen ( Qt : : NoPen ) ;
QTest : : newRow ( " ellipse 4 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 51 , 51 )
< < QBrush ( gradient )
< < pen2 ;
path = QPainterPath ( ) ;
path . addRoundRect ( QRect ( 15 , 15 , 50 , 50 ) , 20 ) ;
QTest : : newRow ( " round rect 0 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 49 , 49 )
< < QBrush ( Qt : : NoBrush )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( " round rect 1 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 50 , 50 )
< < QBrush ( Qt : : NoBrush )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( " round rect 2 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 51 , 51 )
< < QBrush ( Qt : : NoBrush )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( " round rect 3 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 51 , 51 )
< < QBrush ( QColor ( Qt : : blue ) )
< < QPen ( Qt : : NoPen ) ;
QTest : : newRow ( " round rect 4 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 51 , 51 )
< < QBrush ( gradient )
< < pen2 ;
path = QPainterPath ( ) ;
path . moveTo ( 15 , 50 ) ;
path . cubicTo ( 40 , 50 , 40 , 15 , 65 , 50 ) ;
path . lineTo ( 15 , 50 ) ;
QTest : : newRow ( " cubic 0 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 49 , 49 )
< < QBrush ( Qt : : NoBrush )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( " cubic 1 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 50 , 50 )
< < QBrush ( Qt : : NoBrush )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( " cubic 2 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 51 , 51 )
< < QBrush ( Qt : : NoBrush )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( " cubic 3 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 51 , 51 )
< < QBrush ( QColor ( Qt : : blue ) )
< < QPen ( Qt : : NoPen ) ;
QTest : : newRow ( " cubic 4 " ) < < QSize ( 100 , 100 ) < < path
< < QRect ( 15 , 15 , 51 , 51 )
< < QBrush ( gradient )
< < pen2 ;
}
void tst_QPainter : : clippedFillPath ( )
{
QFETCH ( QSize , imageSize ) ;
QFETCH ( QPainterPath , path ) ;
QFETCH ( QRect , clipRect ) ;
QPainterPath clipPath ;
clipPath . addRect ( clipRect ) ;
QFETCH ( QBrush , brush ) ;
QFETCH ( QPen , pen ) ;
const int width = imageSize . width ( ) ;
const int height = imageSize . height ( ) ;
QImage clippedRect ( width , height , QImage : : Format_ARGB32_Premultiplied ) ;
clippedRect . fill ( 0x12345678 ) ;
{
QPainter painter ( & clippedRect ) ;
painter . setPen ( pen ) ;
painter . setBrush ( brush ) ;
painter . setClipRect ( clipRect ) ;
painter . drawPath ( path ) ;
}
QImage clippedPath ( width , height , QImage : : Format_ARGB32_Premultiplied ) ;
clippedPath . fill ( 0x12345678 ) ;
{
QPainter painter ( & clippedPath ) ;
painter . setPen ( pen ) ;
painter . setBrush ( brush ) ;
painter . setClipPath ( clipPath ) ;
painter . drawPath ( path ) ;
}
#if 0
if ( clippedRect ! = clippedPath ) {
clippedRect . save ( QString ( " clippedRect.png " ) , " PNG " ) ;
clippedPath . save ( QString ( " clippedPath.png " ) , " PNG " ) ;
}
# endif
QCOMPARE ( clippedRect , clippedPath ) ;
// repeat with antialiasing
clippedRect . fill ( 0x12345678 ) ;
{
QPainter painter ( & clippedRect ) ;
painter . setRenderHint ( QPainter : : Antialiasing ) ;
painter . setPen ( pen ) ;
painter . setBrush ( brush ) ;
painter . setClipRect ( clipRect ) ;
painter . drawPath ( path ) ;
}
clippedPath . fill ( 0x12345678 ) ;
{
QPainter painter ( & clippedPath ) ;
painter . setRenderHint ( QPainter : : Antialiasing ) ;
painter . setPen ( pen ) ;
painter . setBrush ( brush ) ;
painter . setClipPath ( clipPath ) ;
painter . drawPath ( path ) ;
}
# if 1
if ( clippedRect ! = clippedPath ) {
clippedRect . save ( QString ( " clippedRect.png " ) , " PNG " ) ;
clippedPath . save ( QString ( " clippedPath.png " ) , " PNG " ) ;
}
# endif
QCOMPARE ( clippedRect , clippedPath ) ;
}
void tst_QPainter : : clippedLines_data ( )
{
QTest : : addColumn < QSize > ( " imageSize " ) ;
QTest : : addColumn < QLineF > ( " line " ) ;
QTest : : addColumn < QRect > ( " clipRect " ) ;
QTest : : addColumn < QPen > ( " pen " ) ;
QPen pen2 ( QColor ( 223 , 223 , 0 , 223 ) ) ;
pen2 . setWidth ( 2 ) ;
QVector < QLineF > lines ;
lines < < QLineF ( 15 , 15 , 65 , 65 )
< < QLineF ( 14 , 14 , 66 , 66 )
< < QLineF ( 16 , 16 , 64 , 64 )
< < QLineF ( 65 , 65 , 15 , 15 )
< < QLineF ( 66 , 66 , 14 , 14 )
< < QLineF ( 64 , 64 , 14 , 14 )
< < QLineF ( 15 , 50 , 15 , 64 )
< < QLineF ( 15 , 50 , 15 , 65 )
< < QLineF ( 15 , 50 , 15 , 66 )
< < QLineF ( 15 , 50 , 64 , 50 )
< < QLineF ( 15 , 50 , 65 , 50 )
< < QLineF ( 15 , 50 , 66 , 50 ) ;
foreach ( QLineF line , lines ) {
QString desc = QString ( " line (%1, %2, %3, %4) %5 " ) . arg ( line . x1 ( ) )
. arg ( line . y1 ( ) ) . arg ( line . x2 ( ) ) . arg ( line . y2 ( ) ) ;
QTest : : newRow ( qPrintable ( desc . arg ( 0 ) ) ) < < QSize ( 100 , 100 ) < < line
< < QRect ( 15 , 15 , 49 , 49 )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( qPrintable ( desc . arg ( 1 ) ) ) < < QSize ( 100 , 100 ) < < line
< < QRect ( 15 , 15 , 50 , 50 )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( qPrintable ( desc . arg ( 2 ) ) ) < < QSize ( 100 , 100 ) < < line
< < QRect ( 15 , 15 , 51 , 51 )
< < QPen ( Qt : : black ) ;
QTest : : newRow ( qPrintable ( desc . arg ( 3 ) ) ) < < QSize ( 100 , 100 ) < < line
< < QRect ( 15 , 15 , 51 , 51 )
< < QPen ( Qt : : NoPen ) ;
QTest : : newRow ( qPrintable ( desc . arg ( 4 ) ) ) < < QSize ( 100 , 100 ) < < line
< < QRect ( 15 , 15 , 51 , 51 )
< < pen2 ;
}
}
void tst_QPainter : : clippedLines ( )
{
QFETCH ( QSize , imageSize ) ;
QFETCH ( QLineF , line ) ;
QFETCH ( QRect , clipRect ) ;
QPainterPath clipPath ;
clipPath . addRect ( clipRect ) ;
QFETCH ( QPen , pen ) ;
const int width = imageSize . width ( ) ;
const int height = imageSize . height ( ) ;
QImage clippedRect ( width , height , QImage : : Format_ARGB32_Premultiplied ) ;
clippedRect . fill ( 0x12345678 ) ;
{
QPainter painter ( & clippedRect ) ;
painter . setPen ( pen ) ;
painter . setClipRect ( clipRect ) ;
painter . drawLine ( line ) ;
painter . drawLine ( line . toLine ( ) ) ;
}
QImage clippedPath ( width , height , QImage : : Format_ARGB32_Premultiplied ) ;
clippedPath . fill ( 0x12345678 ) ;
{
QPainter painter ( & clippedPath ) ;
painter . setPen ( pen ) ;
painter . setClipPath ( clipPath ) ;
painter . drawLine ( line ) ;
painter . drawLine ( line . toLine ( ) ) ;
}
#if 0
if ( clippedRect ! = clippedPath ) {
clippedRect . save ( QString ( " clippedRect.png " ) , " PNG " ) ;
clippedPath . save ( QString ( " clippedPath.png " ) , " PNG " ) ;
}
# endif
QCOMPARE ( clippedRect , clippedPath ) ;
// repeat with antialiasing
clippedRect . fill ( 0x12345678 ) ;
{
QPainter painter ( & clippedRect ) ;
painter . setRenderHint ( QPainter : : Antialiasing ) ;
painter . setPen ( pen ) ;
painter . setClipRect ( clipRect ) ;
painter . drawLine ( line ) ;
painter . drawLine ( line . toLine ( ) ) ;
}
clippedPath . fill ( 0x12345678 ) ;
{
QPainter painter ( & clippedPath ) ;
painter . setRenderHint ( QPainter : : Antialiasing ) ;
painter . setPen ( pen ) ;
painter . setClipPath ( clipPath ) ;
painter . drawLine ( line ) ;
painter . drawLine ( line . toLine ( ) ) ;
}
#if 0
if ( clippedRect ! = clippedPath ) {
clippedRect . save ( QString ( " clippedRect.png " ) , " PNG " ) ;
clippedPath . save ( QString ( " clippedPath.png " ) , " PNG " ) ;
}
# endif
QCOMPARE ( clippedRect , clippedPath ) ;
}
void tst_QPainter : : clippedPolygon_data ( )
{
clippedFillPath_data ( ) ;
} ;
void tst_QPainter : : clippedPolygon ( )
{
QFETCH ( QSize , imageSize ) ;
QFETCH ( QPainterPath , path ) ;
QPolygonF polygon = path . toFillPolygon ( ) ;
QFETCH ( QRect , clipRect ) ;
QPainterPath clipPath ;
clipPath . addRect ( clipRect ) ;
QFETCH ( QPen , pen ) ;
QFETCH ( QBrush , brush ) ;
const int width = imageSize . width ( ) ;
const int height = imageSize . height ( ) ;
QImage clippedRect ( width , height , QImage : : Format_ARGB32_Premultiplied ) ;
clippedRect . fill ( 0x12345678 ) ;
{
QPainter painter ( & clippedRect ) ;
painter . setPen ( pen ) ;
painter . setBrush ( brush ) ;
painter . setClipRect ( clipRect ) ;
painter . drawPolygon ( polygon ) ;
painter . drawPolygon ( polygon . toPolygon ( ) ) ;
}
QImage clippedPath ( width , height , QImage : : Format_ARGB32_Premultiplied ) ;
clippedPath . fill ( 0x12345678 ) ;
{
QPainter painter ( & clippedPath ) ;
painter . setPen ( pen ) ;
painter . setBrush ( brush ) ;
painter . setClipRect ( clipRect ) ;
painter . drawPolygon ( polygon ) ;
painter . drawPolygon ( polygon . toPolygon ( ) ) ;
}
#if 0
if ( clippedRect ! = clippedPath ) {
clippedRect . save ( QString ( " clippedRect.png " ) , " PNG " ) ;
clippedPath . save ( QString ( " clippedPath.png " ) , " PNG " ) ;
}
# endif
QCOMPARE ( clippedRect , clippedPath ) ;
// repeat with antialiasing
clippedRect . fill ( 0x12345678 ) ;
{
QPainter painter ( & clippedRect ) ;
painter . setRenderHint ( QPainter : : Antialiasing ) ;
painter . setPen ( pen ) ;
painter . setBrush ( brush ) ;
painter . setClipRect ( clipRect ) ;
painter . drawPolygon ( polygon ) ;
painter . drawPolygon ( polygon . toPolygon ( ) ) ;
}
clippedPath . fill ( 0x12345678 ) ;
{
QPainter painter ( & clippedPath ) ;
painter . setRenderHint ( QPainter : : Antialiasing ) ;
painter . setPen ( pen ) ;
painter . setBrush ( brush ) ;
painter . setClipRect ( clipRect ) ;
painter . drawPolygon ( polygon ) ;
painter . drawPolygon ( polygon . toPolygon ( ) ) ;
}
#if 0
if ( clippedRect ! = clippedPath ) {
clippedRect . save ( QString ( " clippedRect.png " ) , " PNG " ) ;
clippedPath . save ( QString ( " clippedPath.png " ) , " PNG " ) ;
}
# endif
QCOMPARE ( clippedRect , clippedPath ) ;
}
// this just draws some text that should be clipped in the raster
// paint engine.
void tst_QPainter : : clippedText ( )
{
for ( char ch = ' A ' ; ch < ' Z ' ; + + ch ) {
//qDebug() << ch;
QFont f ;
f . setPixelSize ( 24 ) ;
QFontMetrics metrics ( f ) ;
QRect textRect = metrics . boundingRect ( QChar ( ch ) ) ;
if ( textRect . width ( ) < = 8 )
continue ;
if ( textRect . height ( ) < = 8 )
continue ;
QRect imageRect = textRect . adjusted ( 4 , 4 , - 4 , - 4 ) ;
QImage image ( imageRect . size ( ) , QImage : : Format_ARGB32_Premultiplied ) ;
image . fill ( qRgba ( 255 , 255 , 255 , 255 ) ) ;
{
QPainter painter ( & image ) ;
painter . setFont ( f ) ;
painter . setPen ( Qt : : black ) ;
painter . drawText ( 0 , 0 , QChar ( ch ) ) ;
}
image . fill ( qRgba ( 255 , 255 , 255 , 255 ) ) ;
{
QPainter painter ( & image ) ;
painter . setFont ( f ) ;
painter . setPen ( Qt : : black ) ;
painter . drawText ( - imageRect . topLeft ( ) , QChar ( ch ) ) ;
}
bool foundPixel = false ;
for ( int x = 0 ; x < image . width ( ) ; + + x )
for ( int y = 0 ; y < image . height ( ) ; + + y )
if ( image . pixel ( x , y ) ! = 0 )
foundPixel = true ;
// can't QVERIFY(foundPixel) as sometimes all pixels are clipped
// away. For example for 'O'
// just call /some/ function to prevent the compiler from optimizing
// foundPixel away
QString : : number ( foundPixel ) ;
//image.save(QString("debug") + ch + ".xpm");
}
QVERIFY ( true ) ; // reached, don't trigger any valgrind errors
}
void tst_QPainter : : setOpacity_data ( )
{
QTest : : addColumn < QImage : : Format > ( " destFormat " ) ;
QTest : : addColumn < QImage : : Format > ( " srcFormat " ) ;
QTest : : newRow ( " ARGB32P on ARGB32P " ) < < QImage : : Format_ARGB32_Premultiplied
< < QImage : : Format_ARGB32_Premultiplied ;
QTest : : newRow ( " ARGB32 on ARGB32 " ) < < QImage : : Format_ARGB32
< < QImage : : Format_ARGB32 ;
QTest : : newRow ( " RGB32 on RGB32 " ) < < QImage : : Format_RGB32
< < QImage : : Format_RGB32 ;
QTest : : newRow ( " RGB16 on RGB16 " ) < < QImage : : Format_RGB16
< < QImage : : Format_RGB16 ;
QTest : : newRow ( " ARGB8565_Premultiplied on ARGB8565_Premultiplied " ) < < QImage : : Format_ARGB8565_Premultiplied
< < QImage : : Format_ARGB8565_Premultiplied ;
QTest : : newRow ( " RGB555 on RGB555 " ) < < QImage : : Format_RGB555
< < QImage : : Format_RGB555 ;
QTest : : newRow ( " RGB666 on RGB666 " ) < < QImage : : Format_RGB666
< < QImage : : Format_RGB666 ;
QTest : : newRow ( " ARGB8555_Premultiplied on ARGB8555_Premultiplied " ) < < QImage : : Format_ARGB8555_Premultiplied
< < QImage : : Format_ARGB8555_Premultiplied ;
QTest : : newRow ( " RGB888 on RGB888 " ) < < QImage : : Format_RGB888
< < QImage : : Format_RGB888 ;
QTest : : newRow ( " RGB32 on RGB16 " ) < < QImage : : Format_RGB16
< < QImage : : Format_RGB32 ;
QTest : : newRow ( " RGB32 on ARGB8565_Premultiplied " ) < < QImage : : Format_ARGB8565_Premultiplied
< < QImage : : Format_RGB32 ;
QTest : : newRow ( " RGB32 on RGB666 " ) < < QImage : : Format_RGB666
< < QImage : : Format_RGB32 ;
QTest : : newRow ( " RGB32 on RGB555 " ) < < QImage : : Format_RGB555
< < QImage : : Format_RGB32 ;
QTest : : newRow ( " RGB32 on ARGB8555_Premultiplied " ) < < QImage : : Format_ARGB8555_Premultiplied
< < QImage : : Format_RGB32 ;
QTest : : newRow ( " RGB32 on RGB888 " ) < < QImage : : Format_RGB888
< < QImage : : Format_RGB32 ;
QTest : : newRow ( " RGB16 on RGB32 " ) < < QImage : : Format_RGB32
< < QImage : : Format_RGB16 ;
QTest : : newRow ( " ARGB8565_Premultiplied on RGB32 " ) < < QImage : : Format_RGB32
< < QImage : : Format_ARGB8565_Premultiplied ;
QTest : : newRow ( " RGB666 on RGB32 " ) < < QImage : : Format_RGB32
< < QImage : : Format_RGB666 ;
QTest : : newRow ( " RGB555 on RGB32 " ) < < QImage : : Format_RGB32
< < QImage : : Format_RGB555 ;
QTest : : newRow ( " ARGB8555_Premultiplied on RGB32 " ) < < QImage : : Format_RGB32
< < QImage : : Format_ARGB8555_Premultiplied ;
QTest : : newRow ( " RGB888 on RGB32 " ) < < QImage : : Format_RGB32
< < QImage : : Format_RGB888 ;
QTest : : newRow ( " RGB555 on RGB888 " ) < < QImage : : Format_RGB888
< < QImage : : Format_RGB555 ;
QTest : : newRow ( " RGB666 on RGB888 " ) < < QImage : : Format_RGB888
< < QImage : : Format_RGB666 ;
QTest : : newRow ( " RGB444 on RGB444 " ) < < QImage : : Format_RGB444
< < QImage : : Format_RGB444 ;
}
void tst_QPainter : : setOpacity ( )
{
QFETCH ( QImage : : Format , destFormat ) ;
QFETCH ( QImage : : Format , srcFormat ) ;
const QSize imageSize ( 12 , 12 ) ;
const QRect imageRect ( QPoint ( 0 , 0 ) , imageSize ) ;
QColor destColor = Qt : : black ;
QColor srcColor = Qt : : white ;
QImage dest ( imageSize , destFormat ) ;
QImage src ( imageSize , srcFormat ) ;
QPainter p ;
p . begin ( & dest ) ;
p . fillRect ( imageRect , destColor ) ;
p . end ( ) ;
p . begin ( & src ) ;
p . fillRect ( imageRect , srcColor ) ;
p . end ( ) ;
p . begin ( & dest ) ;
p . setOpacity ( 0.5 ) ;
p . drawImage ( imageRect , src , imageRect ) ;
p . end ( ) ;
QImage actual = dest . convertToFormat ( QImage : : Format_RGB32 ) ;
for ( int y = 0 ; y < actual . height ( ) ; + + y ) {
QRgb * p = ( QRgb * ) actual . scanLine ( y ) ;
for ( int x = 0 ; x < actual . width ( ) ; + + x ) {
QVERIFY ( qAbs ( qRed ( p [ x ] ) - 127 ) < = 0xf ) ;
QVERIFY ( qAbs ( qGreen ( p [ x ] ) - 127 ) < = 0xf ) ;
QVERIFY ( qAbs ( qBlue ( p [ x ] ) - 127 ) < = 0xf ) ;
}
}
}
void tst_QPainter : : drawhelper_blend_untransformed_data ( )
{
setOpacity_data ( ) ;
}
void tst_QPainter : : drawhelper_blend_untransformed ( )
{
QFETCH ( QImage : : Format , destFormat ) ;
QFETCH ( QImage : : Format , srcFormat ) ;
const int size = 128 ;
const QSize imageSize ( size , size ) ;
const QRect paintRect ( 1 , 0 , size - 2 , size ) ; // needs alignment and tailing
QColor destColor ( 127 , 127 , 127 ) ;
QColor srcColor ( Qt : : white ) ;
QImage dest ( imageSize , destFormat ) ;
QImage src ( imageSize , srcFormat ) ;
QPainter p ;
p . begin ( & src ) ;
p . fillRect ( paintRect , srcColor ) ;
p . end ( ) ;
QList < qreal > opacities = ( QList < qreal > ( ) < < 0.0 < < 0.1 < < 0.01 < < 0.4
< < 0.5 < < 0.6 < < 0.9 < < 1.0 ) ;
foreach ( qreal opacity , opacities ) {
p . begin ( & dest ) ;
p . fillRect ( paintRect , destColor ) ;
p . setOpacity ( opacity ) ;
p . drawImage ( paintRect , src , paintRect ) ;
p . end ( ) ;
// sanity check: make sure all pixels are equal
QImage expected ( size - 2 , size , destFormat ) ;
p . begin ( & expected ) ;
p . fillRect ( 0 , 0 , expected . width ( ) , expected . height ( ) ,
QColor ( dest . pixel ( 1 , 0 ) ) ) ;
p . end ( ) ;
const QImage subDest ( dest . bits ( ) + dest . depth ( ) / 8 ,
dest . width ( ) - 2 , dest . height ( ) ,
dest . bytesPerLine ( ) , dest . format ( ) ) ;
if ( dest . format ( ) = = QImage : : Format_ARGB8565_Premultiplied | |
dest . format ( ) = = QImage : : Format_ARGB8555_Premultiplied ) {
// Test skipped due to rounding errors...
continue ;
}
#if 0
if ( subDest ! = expected ) {
qDebug ( ) < < " size " < < size < < " opacity " < < opacity ;
for ( int j = 0 ; j < expected . height ( ) ; + + j ) {
for ( int i = 0 ; i < expected . width ( ) ; + + i ) {
if ( expected . pixel ( i , j ) ! = subDest . pixel ( i , j ) )
qDebug ( ) < < i < < j < < hex < < expected . pixel ( i , j )
< < subDest . pixel ( i , j ) ;
}
}
}
# endif
QCOMPARE ( subDest , expected ) ;
}
}
void tst_QPainter : : drawhelper_blend_tiled_untransformed_data ( )
{
setOpacity_data ( ) ;
}
void tst_QPainter : : drawhelper_blend_tiled_untransformed ( )
{
QFETCH ( QImage : : Format , destFormat ) ;
QFETCH ( QImage : : Format , srcFormat ) ;
const int size = 128 ;
const QSize imageSize ( size , size ) ;
const QRect paintRect ( 1 , 0 , size - 2 , size ) ; // needs alignment and tailing
QColor destColor ( 127 , 127 , 127 ) ;
QColor srcColor ( Qt : : white ) ;
QImage dest ( imageSize , destFormat ) ;
QImage src ( imageSize / 2 , srcFormat ) ;
QPainter p ;
p . begin ( & src ) ;
p . fillRect ( QRect ( QPoint ( 0 , 0 ) , imageSize / 2 ) , srcColor ) ;
p . end ( ) ;
const QBrush brush ( src ) ;
QList < qreal > opacities = ( QList < qreal > ( ) < < 0.0 < < 0.1 < < 0.01 < < 0.4
< < 0.5 < < 0.6 < < 0.9 < < 1.0 ) ;
foreach ( qreal opacity , opacities ) {
p . begin ( & dest ) ;
p . fillRect ( paintRect , destColor ) ;
p . setOpacity ( opacity ) ;
p . fillRect ( paintRect , brush ) ;
p . end ( ) ;
// sanity check: make sure all pixels are equal
QImage expected ( size - 2 , size , destFormat ) ;
p . begin ( & expected ) ;
p . fillRect ( 0 , 0 , expected . width ( ) , expected . height ( ) ,
QColor ( dest . pixel ( 1 , 0 ) ) ) ;
p . end ( ) ;
const QImage subDest ( dest . bits ( ) + dest . depth ( ) / 8 ,
dest . width ( ) - 2 , dest . height ( ) ,
dest . bytesPerLine ( ) , dest . format ( ) ) ;
if ( dest . format ( ) = = QImage : : Format_ARGB8565_Premultiplied | |
dest . format ( ) = = QImage : : Format_ARGB8555_Premultiplied ) {
// Skipping test due to rounding errors. Test needs rewrite
continue ;
}
#if 0
if ( subDest ! = expected ) {
qDebug ( ) < < " size " < < size < < " opacity " < < opacity ;
for ( int j = 0 ; j < expected . height ( ) ; + + j ) {
for ( int i = 0 ; i < expected . width ( ) ; + + i ) {
if ( expected . pixel ( i , j ) ! = subDest . pixel ( i , j ) )
qDebug ( ) < < i < < j < < hex < < expected . pixel ( i , j )
< < subDest . pixel ( i , j ) ;
}
}
}
# endif
QCOMPARE ( subDest , expected ) ;
}
}
static QPaintEngine : : PaintEngineFeatures no_porter_duff ( )
{
QPaintEngine : : PaintEngineFeatures features = QPaintEngine : : AllFeatures ;
return features & ~ QPaintEngine : : PorterDuff ;
}
class DummyPaintEngine : public QPaintEngine , public QPaintDevice
{
public :
DummyPaintEngine ( ) : QPaintEngine ( no_porter_duff ( ) ) { }
virtual bool begin ( QPaintDevice * ) { return true ; }
virtual bool end ( ) { return true ; }
virtual void updateState ( const QPaintEngineState & ) { }
virtual void drawPixmap ( const QRectF & , const QPixmap & , const QRectF & ) { }
virtual Type type ( ) const { return User ; }
virtual QPaintEngine * paintEngine ( ) const { return ( QPaintEngine * ) this ; }
virtual int metric ( PaintDeviceMetric metric ) const { Q_UNUSED ( metric ) ; return 0 ; } ;
} ;
static bool success ;
void porterDuff_warningChecker ( QtMsgType type , const char * msg )
{
if ( type = = QtWarningMsg & & msg = = QLatin1String ( " QPainter::setCompositionMode: PorterDuff modes not supported on device " ) )
success = false ;
}
void tst_QPainter : : porterDuff_warning ( )
{
QtMsgHandler old = qInstallMsgHandler ( porterDuff_warningChecker ) ;
DummyPaintEngine dummy ;
QPainter p ( & dummy ) ;
success = true ;
p . setCompositionMode ( QPainter : : CompositionMode_Source ) ;
QVERIFY ( success ) ;
success = true ;
p . setCompositionMode ( QPainter : : CompositionMode_SourceOver ) ;
QVERIFY ( success ) ;
success = true ;
p . setCompositionMode ( QPainter : : CompositionMode_DestinationOver ) ;
QVERIFY ( ! success ) ;
QVERIFY ( qInstallMsgHandler ( old ) = = porterDuff_warningChecker ) ;
}
class quint24
{
public :
inline quint24 ( quint32 v )
{
data [ 0 ] = qBlue ( v ) ;
data [ 1 ] = qGreen ( v ) ;
data [ 2 ] = qRed ( v ) ;
}
inline operator quint32 ( )
{
return qRgb ( data [ 2 ] , data [ 1 ] , data [ 0 ] ) ;
}
inline bool operator = = ( const quint24 & v ) const {
return ( data [ 0 ] = = v . data [ 0 ] & & data [ 1 ] = = v . data [ 1 ] & & data [ 2 ] = = v . data [ 2 ] ) ;
}
uchar data [ 3 ] ;
} Q_PACKED ;
void tst_QPainter : : drawhelper_blend_color ( )
{
QImage dest ( 32 , 32 , QImage : : Format_ARGB8555_Premultiplied ) ;
dest . fill ( 0xff000000 ) ;
{
QPainter p ( & dest ) ;
p . fillRect ( 0 , 0 , dest . width ( ) , dest . height ( ) , QColor ( 255 , 0 , 0 , 127 ) ) ;
}
QImage expected ( 32 , 32 , QImage : : Format_ARGB8555_Premultiplied ) ;
expected . fill ( 0xff3c007f ) ;
QCOMPARE ( dest . pixel ( 1 , 1 ) , expected . pixel ( 1 , 1 ) ) ;
QCOMPARE ( dest , expected ) ;
}
class ViewportTestWidget : public QWidget
{
public :
ViewportTestWidget ( QWidget * parent = 0 ) : QWidget ( parent ) , hasPainted ( false ) { }
QSize sizeHint ( ) const {
return QSize ( 100 , 100 ) ;
}
QRect viewport ;
bool hasPainted ;
protected :
void paintEvent ( QPaintEvent * ) {
hasPainted = true ;
QPainter p ( this ) ;
viewport = p . viewport ( ) ;
}
} ;
void tst_QPainter : : childWidgetViewport ( )
{
QWidget parent ;
parent . setAutoFillBackground ( true ) ;
parent . resize ( 200 , 200 ) ;
ViewportTestWidget child ( & parent ) ;
child . setAutoFillBackground ( true ) ;
parent . show ( ) ;
parent . update ( ) ;
qApp - > processEvents ( ) ;
if ( child . hasPainted ) {
QCOMPARE ( child . viewport , QRect ( QPoint ( 0 , 0 ) , child . sizeHint ( ) ) ) ;
} else {
qWarning ( " Failed to ensure that paintEvent has been run. Could not run test. " ) ;
}
}
void tst_QPainter : : fillRect_objectBoundingModeGradient ( )
{
QImage a ( 10 , 10 , QImage : : Format_ARGB32_Premultiplied ) ;
a . fill ( 0x0 ) ;
QImage b = a ;
QLinearGradient g ( QPoint ( 0 , 0 ) , QPoint ( 0 , 1 ) ) ;
g . setColorAt ( 0 , Qt : : red ) ;
g . setColorAt ( 1 , Qt : : blue ) ;
g . setCoordinateMode ( QGradient : : ObjectBoundingMode ) ;
QPainter p ( & a ) ;
p . fillRect ( QRect ( 0 , 0 , a . width ( ) , a . height ( ) ) , g ) ;
p . end ( ) ;
QPainterPath path ;
path . addRect ( 0 , 0 , a . width ( ) , a . height ( ) ) ;
p . begin ( & b ) ;
p . fillPath ( path , g ) ;
p . end ( ) ;
QCOMPARE ( a , b ) ;
}
void tst_QPainter : : fillRect_stretchToDeviceMode ( )
{
QImage img ( 64 , 64 , QImage : : Format_ARGB32_Premultiplied ) ;
QLinearGradient g ( QPoint ( 0 , 0 ) , QPoint ( 0 , 1 ) ) ;
g . setCoordinateMode ( QGradient : : StretchToDeviceMode ) ;
QPainter p ( & img ) ;
p . fillRect ( img . rect ( ) , g ) ;
p . end ( ) ;
for ( int i = 1 ; i < img . height ( ) ; + + i )
QVERIFY ( img . pixel ( 0 , i ) ! = img . pixel ( 0 , i - 1 ) ) ;
}
void tst_QPainter : : monoImages ( )
{
Qt : : GlobalColor colorPairs [ ] [ 2 ] = {
{ Qt : : white , Qt : : black } ,
{ Qt : : color0 , Qt : : color1 } ,
{ Qt : : red , Qt : : blue }
} ;
const int numColorPairs = sizeof ( colorPairs ) / sizeof ( QRgb [ 2 ] ) ;
QImage transparent ( 2 , 2 , QImage : : Format_ARGB32_Premultiplied ) ;
transparent . fill ( 0x0 ) ;
for ( int i = 1 ; i < QImage : : NImageFormats ; + + i ) {
for ( int j = 0 ; j < numColorPairs ; + + j ) {
const QImage : : Format format = QImage : : Format ( i ) ;
if ( format = = QImage : : Format_Indexed8 )
continue ;
QImage img ( 2 , 2 , format ) ;
if ( img . colorCount ( ) > 0 ) {
img . setColor ( 0 , QColor ( colorPairs [ j ] [ 0 ] ) . rgba ( ) ) ;
img . setColor ( 1 , QColor ( colorPairs [ j ] [ 1 ] ) . rgba ( ) ) ;
}
img . fill ( 0x0 ) ;
QPainter p ( & img ) ;
p . fillRect ( 0 , 0 , 2 , 2 , colorPairs [ j ] [ 0 ] ) ;
p . fillRect ( 0 , 0 , 1 , 1 , colorPairs [ j ] [ 1 ] ) ;
p . fillRect ( 1 , 1 , 1 , 1 , colorPairs [ j ] [ 1 ] ) ;
p . end ( ) ;
QImage original = img ;
p . begin ( & img ) ;
p . drawImage ( 0 , 0 , transparent ) ;
p . end ( ) ;
// drawing a transparent image on top of another image
// should not change the image
QCOMPARE ( original , img ) ;
if ( img . colorCount ( ) = = 0 )
continue ;
for ( int k = 0 ; k < 2 ; + + k ) {
QPainter p ( & img ) ;
p . fillRect ( 0 , 0 , 2 , 2 , colorPairs [ j ] [ k ] ) ;
p . end ( ) ;
QImage argb32p ( 2 , 2 , QImage : : Format_ARGB32_Premultiplied ) ;
p . begin ( & argb32p ) ;
p . fillRect ( 0 , 0 , 2 , 2 , colorPairs [ j ] [ k ] ) ;
p . end ( ) ;
QCOMPARE ( argb32p , img . convertToFormat ( argb32p . format ( ) ) ) ;
// drawing argb32p image on mono image
p . begin ( & img ) ;
p . drawImage ( 0 , 0 , argb32p ) ;
p . end ( ) ;
QCOMPARE ( argb32p , img . convertToFormat ( argb32p . format ( ) ) ) ;
// drawing mono image on argb32p image
p . begin ( & argb32p ) ;
p . drawImage ( 0 , 0 , img ) ;
p . end ( ) ;
QCOMPARE ( argb32p , img . convertToFormat ( argb32p . format ( ) ) ) ;
}
}
}
}
2011-09-27 09:53:01 +00:00
# if !defined(Q_OS_IRIX) && !defined(Q_OS_AIX) && !defined(Q_CC_MSVC) && !defined(Q_OS_SOLARIS)
2011-04-27 10:05:43 +00:00
# include <fenv.h>
static const QString fpeExceptionString ( int exception )
{
# ifdef FE_INEXACT
if ( exception & FE_INEXACT )
return QLatin1String ( " Inexact result " ) ;
# endif
if ( exception & FE_UNDERFLOW )
return QLatin1String ( " Underflow " ) ;
if ( exception & FE_OVERFLOW )
return QLatin1String ( " Overflow " ) ;
if ( exception & FE_DIVBYZERO )
return QLatin1String ( " Divide by zero " ) ;
if ( exception & FE_INVALID )
return QLatin1String ( " Invalid operation " ) ;
return QLatin1String ( " No exception " ) ;
}
class FpExceptionChecker
{
public :
FpExceptionChecker ( int exceptionMask )
: m_exceptionMask ( exceptionMask )
{
feclearexcept ( m_exceptionMask ) ;
}
~ FpExceptionChecker ( )
{
const int exceptions = fetestexcept ( m_exceptionMask ) ;
QVERIFY2 ( ! exceptions , qPrintable ( QLatin1String ( " Floating point exception: " ) + fpeExceptionString ( exceptions ) ) ) ;
}
private :
int m_exceptionMask ;
} ;
void fpe_rasterizeLine_task232012 ( )
{
FpExceptionChecker checker ( FE_UNDERFLOW | FE_OVERFLOW | FE_INVALID | FE_DIVBYZERO ) ;
QImage img ( 128 , 128 , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( 0x0 ) ;
QPainter p ( & img ) ;
p . setBrush ( Qt : : black ) ;
p . drawRect ( QRectF ( 0 , 0 , 5 , 0 ) ) ;
p . drawRect ( QRectF ( 0 , 0 , 0 , 5 ) ) ;
}
void fpe_pixmapTransform ( )
{
FpExceptionChecker checker ( FE_UNDERFLOW | FE_OVERFLOW | FE_INVALID | FE_DIVBYZERO ) ;
QImage img ( 128 , 128 , QImage : : Format_ARGB32_Premultiplied ) ;
QPainter p ( & img ) ;
const qreal scaleFactor = 0.001 ;
const int translateDistance = 1000000 ;
p . setPen ( Qt : : red ) ;
p . setBrush ( QBrush ( Qt : : red , Qt : : Dense6Pattern ) ) ;
for ( int i = 0 ; i < 2 ; + + i ) {
p . setRenderHint ( QPainter : : SmoothPixmapTransform , i ) ;
p . resetTransform ( ) ;
p . scale ( 1.1 , 1.1 ) ;
p . translate ( translateDistance , 0 ) ;
p . drawRect ( - translateDistance , 0 , 100 , 100 ) ;
p . resetTransform ( ) ;
p . scale ( scaleFactor , scaleFactor ) ;
p . drawRect ( QRectF ( 0 , 0 , 1 / scaleFactor , 1 / scaleFactor ) ) ;
}
}
void fpe_zeroLengthLines ( )
{
FpExceptionChecker checker ( FE_UNDERFLOW | FE_OVERFLOW | FE_INVALID | FE_DIVBYZERO ) ;
QImage img ( 128 , 128 , QImage : : Format_ARGB32_Premultiplied ) ;
QPainter p ( & img ) ;
p . setPen ( QPen ( Qt : : black , 3 ) ) ;
p . drawLine ( 64 , 64 , 64 , 64 ) ;
}
void fpe_divByZero ( )
{
FpExceptionChecker checker ( FE_UNDERFLOW | FE_OVERFLOW | FE_INVALID | FE_DIVBYZERO ) ;
QImage img ( 128 , 128 , QImage : : Format_ARGB32_Premultiplied ) ;
QPainter p ( & img ) ;
p . setRenderHint ( QPainter : : Antialiasing ) ;
p . drawRect ( QRectF ( 10 , 10 , 100 , 0 ) ) ;
p . drawRect ( QRectF ( 10 , 10 , 0 , 100 ) ) ;
p . drawRect ( QRect ( 10 , 10 , 100 , 0 ) ) ;
p . drawRect ( QRect ( 10 , 10 , 0 , 100 ) ) ;
p . fillRect ( QRectF ( 10 , 10 , 100 , 0 ) , Qt : : black ) ;
p . fillRect ( QRectF ( 10 , 10 , 0 , 100 ) , Qt : : black ) ;
p . fillRect ( QRect ( 10 , 10 , 100 , 0 ) , Qt : : black ) ;
p . fillRect ( QRect ( 10 , 10 , 0 , 100 ) , Qt : : black ) ;
}
void fpe_steepSlopes ( )
{
FpExceptionChecker checker ( FE_UNDERFLOW | FE_OVERFLOW | FE_INVALID | FE_DIVBYZERO ) ;
QImage img ( 1024 , 1024 , QImage : : Format_ARGB32_Premultiplied ) ;
QFETCH ( QTransform , transform ) ;
QFETCH ( QLineF , line ) ;
QFETCH ( bool , antialiased ) ;
QPainter p ( & img ) ;
p . setPen ( QPen ( Qt : : black , 1 ) ) ;
p . setRenderHint ( QPainter : : Antialiasing , antialiased ) ;
p . setTransform ( transform ) ;
p . drawLine ( line ) ;
}
void fpe_radialGradients ( )
{
FpExceptionChecker checker ( FE_UNDERFLOW | FE_OVERFLOW | FE_INVALID | FE_DIVBYZERO ) ;
QImage img ( 21 , 21 , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( 0 ) ;
double m = img . width ( ) * 0.5 ;
QPainter p ( & img ) ;
p . setRenderHints ( QPainter : : Antialiasing ) ;
p . setPen ( Qt : : NoPen ) ;
p . setBrush ( QRadialGradient ( m , m , m ) ) ;
p . drawEllipse ( img . rect ( ) ) ;
}
# define FPE_TEST(x) \
void tst_QPainter : : x ( ) \
{ \
: : x ( ) ; \
}
# else
# define FPE_TEST(x) \
void tst_QPainter : : x ( ) \
{ \
QSKIP ( " Floating point exception checking (fenv.h) not available " , SkipAll ) ; \
}
# endif
FPE_TEST ( fpe_rasterizeLine_task232012 )
FPE_TEST ( fpe_pixmapTransform )
FPE_TEST ( fpe_zeroLengthLines )
FPE_TEST ( fpe_divByZero )
FPE_TEST ( fpe_steepSlopes )
FPE_TEST ( fpe_radialGradients )
void tst_QPainter : : fpe_steepSlopes_data ( )
{
QTest : : addColumn < QTransform > ( " transform " ) ;
QTest : : addColumn < QLineF > ( " line " ) ;
QTest : : addColumn < bool > ( " antialiased " ) ;
{
const qreal dsin = 0.000014946676875461832484392500630665523431162000633776187896728515625 ;
const qreal dcos = 0.9999999998882984630910186751862056553363800048828125 ;
const QTransform transform = QTransform ( QMatrix ( dcos , dsin , - dsin , dcos , 64 , 64 ) ) ;
const QLineF line ( 2 , 2 , 2 , 6 ) ;
QTest : : newRow ( " task 207147 aa " ) < < transform < < line < < true ;
QTest : : newRow ( " task 207147 no aa " ) < < transform < < line < < false ;
}
{
QTransform transform ;
transform . rotate ( 0.0000001 ) ;
const QLineF line ( 5 , 5 , 10 , 5 ) ;
QTest : : newRow ( " task 166702 aa " ) < < transform < < line < < true ;
QTest : : newRow ( " task 166702 no aa " ) < < transform < < line < < false ;
}
{
const QTransform transform ;
const QLineF line ( 2.5 , 2.5 , 2.5 + 1 / 256. , 60000.5 ) ;
QTest : : newRow ( " steep line aa " ) < < transform < < line < < true ;
QTest : : newRow ( " steep line no aa " ) < < transform < < line < < false ;
}
{
const QTransform transform ;
const QLineF line ( 2.5 , 2.5 , 2.5 + 1 / 256. , 1024 ) ;
QTest : : newRow ( " steep line 2 aa " ) < < transform < < line < < true ;
QTest : : newRow ( " steep line 2 no aa " ) < < transform < < line < < false ;
}
{
const QTransform transform ;
const QLineF line ( 2.5 , 2.5 , 2.5 + 1 / 64. , 1024 ) ;
QTest : : newRow ( " steep line 3 aa " ) < < transform < < line < < true ;
QTest : : newRow ( " steep line 3 no aa " ) < < transform < < line < < false ;
}
}
qreal randf ( )
{
return rand ( ) / ( RAND_MAX + 1.0 ) ;
}
QPointF randInRect ( const QRectF & rect )
{
const qreal x = rect . left ( ) + rect . width ( ) * randf ( ) ;
const qreal y = rect . top ( ) + rect . height ( ) * randf ( ) ;
return QPointF ( x , y ) ;
}
void tst_QPainter : : rasterizer_asserts ( )
{
QImage img ( 64 , 64 , QImage : : Format_ARGB32_Premultiplied ) ;
QRectF middle ( QPointF ( 0 , 0 ) , img . size ( ) ) ;
QRectF left = middle . translated ( - middle . width ( ) , 0 ) ;
QRectF right = middle . translated ( middle . width ( ) , 0 ) ;
QPainter p ( & img ) ;
img . fill ( Qt : : white ) ;
p . setCompositionMode ( QPainter : : CompositionMode_Destination ) ;
for ( int i = 0 ; i < 100000 ; + + i ) {
QPainterPath path ;
path . moveTo ( randInRect ( middle ) ) ;
path . lineTo ( randInRect ( left ) ) ;
path . lineTo ( randInRect ( right ) ) ;
p . fillPath ( path , Qt : : black ) ;
}
}
void tst_QPainter : : rasterizer_negativeCoords ( )
{
QImage img ( 64 , 64 , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( 0x0 ) ;
QImage original = img ;
QPainter p ( & img ) ;
p . rotate ( 90 ) ;
p . fillRect ( 0 , 0 , 70 , 50 , Qt : : black ) ;
// image should not have changed
QCOMPARE ( img . pixel ( 0 , 0 ) , 0x0U ) ;
QCOMPARE ( img , original ) ;
}
void tst_QPainter : : blendOverFlow_data ( )
{
QTest : : addColumn < QImage : : Format > ( " format " ) ;
QTest : : addColumn < int > ( " width " ) ;
QTest : : addColumn < int > ( " height " ) ;
QImage : : Format format = QImage : : Format_ARGB8555_Premultiplied ;
QTest : : newRow ( " 555,1,1 " ) < < format < < 1 < < 1 ;
QTest : : newRow ( " 555,2,2 " ) < < format < < 2 < < 2 ;
QTest : : newRow ( " 555,10,10 " ) < < format < < 10 < < 10 ;
format = QImage : : Format_ARGB8565_Premultiplied ;
QTest : : newRow ( " 565,1,1 " ) < < format < < 1 < < 1 ;
QTest : : newRow ( " 565,2,2 " ) < < format < < 2 < < 2 ;
QTest : : newRow ( " 565,10,10 " ) < < format < < 10 < < 10 ;
}
void tst_QPainter : : blendOverFlow ( )
{
QFETCH ( QImage : : Format , format ) ;
QFETCH ( int , width ) ;
QFETCH ( int , height ) ;
QImage dest ( width , height , format ) ;
QImage src ( width , height , format ) ;
{
QPainter p ( & dest ) ;
p . fillRect ( 0 , 0 , width , height , Qt : : green ) ;
}
QImage expected = dest ;
{
QPainter p ( & src ) ;
p . setCompositionMode ( QPainter : : CompositionMode_Source ) ;
p . fillRect ( 0 , 0 , width , height , QColor ( 0 , 255 , 0 , 6 ) ) ;
}
{
QPainter p ( & dest ) ;
p . drawImage ( 0 , 0 , src ) ;
}
QCOMPARE ( dest . pixel ( 0 , 0 ) , expected . pixel ( 0 , 0 ) ) ;
QCOMPARE ( dest , expected ) ;
}
void tst_QPainter : : largeImagePainting_data ( )
{
QTest : : addColumn < int > ( " width " ) ;
QTest : : addColumn < int > ( " height " ) ;
QTest : : addColumn < bool > ( " antialiased " ) ;
QTest : : newRow ( " tall " ) < < 1 < < 32767 < < false ;
QTest : : newRow ( " tall aa " ) < < 1 < < 32767 < < true ;
QTest : : newRow ( " wide " ) < < 32767 < < 1 < < false ;
QTest : : newRow ( " wide aa " ) < < 32767 < < 1 < < true ;
}
void tst_QPainter : : largeImagePainting ( )
{
QPainterPath path ;
path . addRect ( 0 , 0 , 1 , 1 ) ;
path . addRect ( 2 , 0 , 1 , 1 ) ;
path . addRect ( 0 , 2 , 1 , 1 ) ;
QFETCH ( int , width ) ;
QFETCH ( int , height ) ;
QFETCH ( bool , antialiased ) ;
QImage img ( width , height , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( 0x0 ) ;
QPainter p ( & img ) ;
p . setPen ( Qt : : NoPen ) ;
p . setBrush ( Qt : : white ) ;
p . setRenderHint ( QPainter : : Antialiasing , antialiased ) ;
for ( int i = 0 ; i < img . width ( ) ; i + = 4 ) {
p . drawPath ( path ) ;
p . translate ( 4 , 0 ) ;
}
p . resetMatrix ( ) ;
for ( int i = 4 ; i < img . height ( ) ; i + = 4 ) {
p . translate ( 0 , 4 ) ;
p . drawPath ( path ) ;
}
for ( int i = 0 ; i < img . width ( ) ; + + i ) {
if ( i % 2 )
QCOMPARE ( img . pixel ( i , 0 ) , 0x0U ) ;
else
QCOMPARE ( img . pixel ( i , 0 ) , 0xffffffffU ) ;
}
for ( int i = 1 ; i < img . height ( ) ; + + i ) {
if ( i % 2 )
QCOMPARE ( img . pixel ( 0 , i ) , 0x0U ) ;
else
QCOMPARE ( img . pixel ( 0 , i ) , 0xffffffffU ) ;
}
}
void tst_QPainter : : imageScaling_task206785 ( )
{
QImage src ( 32 , 2 , QImage : : Format_ARGB32_Premultiplied ) ;
src . fill ( 0xffffffff ) ;
QImage dst ( 128 , 128 , QImage : : Format_ARGB32_Premultiplied ) ;
QImage expected ( 128 , 128 , QImage : : Format_ARGB32_Premultiplied ) ;
expected . fill ( 0xffffffff ) ;
for ( int i = 1 ; i < 5 ; + + i ) {
qreal scale = i / qreal ( 5 ) ;
dst . fill ( 0xff000000 ) ;
QPainter p ( & dst ) ;
p . scale ( dst . width ( ) / qreal ( src . width ( ) ) , scale ) ;
for ( int y = 0 ; y * scale < dst . height ( ) ; + + y )
p . drawImage ( 0 , y , src ) ;
p . end ( ) ;
QCOMPARE ( dst , expected ) ;
}
}
# define FOR_EACH_NEIGHBOR_8 for (int dx = -1; dx <= 1; ++dx) for (int dy = -1; dy <= 1; ++dy) if (dx != 0 || dy != 0)
# define FOR_EACH_NEIGHBOR_4 for (int dx = -1; dx <= 1; ++dx) for (int dy = -1; dy <= 1; ++dy) if ((dx == 0) != (dy == 0))
uint qHash ( const QPoint & point )
{
return qHash ( qMakePair ( point . x ( ) , point . y ( ) ) ) ;
}
bool verifyOutlineFillConsistency ( const QImage & img , QRgb outside , QRgb inside , QRgb outline )
{
if ( img . pixel ( img . width ( ) / 2 , img . height ( ) / 2 ) ! = inside )
return false ;
int x = img . width ( ) / 2 ;
int y = img . height ( ) / 2 ;
while ( img . pixel ( + + x , y ) = = inside )
;
if ( img . pixel ( x , y ) ! = outline )
return false ;
QQueue < QPoint > discovered ;
discovered . enqueue ( QPoint ( x , y ) ) ;
QVector < bool > visited ( img . width ( ) * img . height ( ) ) ;
visited . fill ( false ) ;
while ( ! discovered . isEmpty ( ) ) {
QPoint p = discovered . dequeue ( ) ;
QRgb pixel = img . pixel ( p . x ( ) , p . y ( ) ) ;
bool & v = visited [ p . y ( ) * img . width ( ) + p . x ( ) ] ;
if ( v )
continue ;
v = true ;
if ( pixel = = outline ) {
FOR_EACH_NEIGHBOR_8 {
QPoint x ( p . x ( ) + dx , p . y ( ) + dy ) ;
discovered . enqueue ( x ) ;
}
} else {
FOR_EACH_NEIGHBOR_4 {
if ( ( dx = = 0 ) = = ( dy = = 0 ) )
continue ;
QRgb neighbor = img . pixel ( p . x ( ) + dx , p . y ( ) + dy ) ;
if ( ( pixel = = inside & & neighbor = = outside ) | |
( pixel = = outside & & neighbor = = inside ) )
return false ;
}
}
}
return true ;
}
# undef FOR_EACH_NEIGHBOR_8
# undef FOR_EACH_NEIGHBOR_4
void tst_QPainter : : outlineFillConsistency ( )
{
QSKIP ( " currently broken... " , SkipAll ) ;
return ;
QImage dst ( 256 , 256 , QImage : : Format_ARGB32_Premultiplied ) ;
QPolygonF poly ;
poly < < QPointF ( 5 , - 100 ) < < QPointF ( - 70 , 20 ) < < QPointF ( 95 , 25 ) ;
QPen pen ( Qt : : red ) ;
QBrush brush ( Qt : : black ) ;
QRgb background = 0xffffffff ;
for ( int i = 0 ; i < 360 ; + + i ) {
dst . fill ( background ) ;
QPainter p ( & dst ) ;
p . translate ( dst . width ( ) / 2 , dst . height ( ) / 2 ) ;
QPolygonF copy = poly ;
for ( int j = 0 ; j < copy . size ( ) ; + + j )
copy [ j ] = QTransform ( ) . rotate ( i ) . map ( copy [ j ] ) ;
p . setPen ( pen ) ;
p . setBrush ( brush ) ;
p . drawPolygon ( copy ) ;
p . end ( ) ;
#if 0
if ( ! verifyOutlineFillConsistency ( dst , background , p . brush ( ) . color ( ) . rgba ( ) , p . pen ( ) . color ( ) . rgba ( ) ) )
dst . save ( QString ( " outlineFillConsistency-%1.png " ) . arg ( i ) ) ;
# endif
QVERIFY ( verifyOutlineFillConsistency ( dst , background , brush . color ( ) . rgba ( ) , pen . color ( ) . rgba ( ) ) ) ;
}
}
void tst_QPainter : : drawImage_task217400_data ( )
{
QTest : : addColumn < QImage : : Format > ( " format " ) ;
QTest : : newRow ( " 444 " ) < < QImage : : Format_ARGB4444_Premultiplied ;
QTest : : newRow ( " 555 " ) < < QImage : : Format_ARGB8555_Premultiplied ;
QTest : : newRow ( " 565 " ) < < QImage : : Format_ARGB8565_Premultiplied ;
// QTest::newRow("666") << QImage::Format_ARGB6666_Premultiplied;
QTest : : newRow ( " 888p " ) < < QImage : : Format_ARGB32_Premultiplied ;
QTest : : newRow ( " 888 " ) < < QImage : : Format_ARGB32 ;
}
void tst_QPainter : : drawImage_task217400 ( )
{
QFETCH ( QImage : : Format , format ) ;
const QImage src = QImage ( QString ( SRCDIR ) + " /task217400.png " )
. convertToFormat ( format ) ;
QVERIFY ( ! src . isNull ( ) ) ;
QImage expected ( src . size ( ) , format ) ;
{
QPainter p ( & expected ) ;
p . fillRect ( 0 , 0 , expected . width ( ) , expected . height ( ) , Qt : : white ) ;
p . drawImage ( 0 , 0 , src ) ;
}
for ( int i = 1 ; i < = 4 ; + + i ) {
QImage dest ( src . width ( ) + i , src . height ( ) , format ) ;
{
QPainter p ( & dest ) ;
p . fillRect ( 0 , 0 , dest . width ( ) , dest . height ( ) , Qt : : white ) ;
p . drawImage ( i , 0 , src ) ;
}
const QImage result = dest . copy ( i , 0 , src . width ( ) , src . height ( ) ) ;
#if 0
if ( result ! = expected ) {
qDebug ( " i=%i " , i ) ;
result . save ( " result.png " ) ;
expected . save ( " expected.png " ) ;
}
# endif
QCOMPARE ( result , expected ) ;
}
}
void tst_QPainter : : drawImage_task258776 ( )
{
QImage src ( 16 , 16 , QImage : : Format_RGB888 ) ;
QImage dest ( 33 , 33 , QImage : : Format_RGB888 ) ;
src . fill ( 0x00ff00 ) ;
dest . fill ( 0x0000ff ) ;
QPainter painter ( & dest ) ;
painter . drawImage ( QRectF ( 0.499 , 0.499 , 32 , 32 ) , src , QRectF ( 0 , 0 , 16 , 16 ) ) ;
painter . end ( ) ;
QImage expected ( 33 , 33 , QImage : : Format_RGB32 ) ;
expected . fill ( 0xff0000 ) ;
painter . begin ( & expected ) ;
painter . drawImage ( QRectF ( 0 , 0 , 32 , 32 ) , src ) ;
painter . end ( ) ;
dest = dest . convertToFormat ( QImage : : Format_RGB32 ) ;
dest . save ( " dest.png " ) ;
expected . save ( " expected.png " ) ;
QCOMPARE ( dest , expected ) ;
}
void tst_QPainter : : clipRectSaveRestore ( )
{
QImage img ( 64 , 64 , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( 0x0 ) ;
QPainter p ( & img ) ;
p . setClipRect ( QRect ( 0 , 0 , 10 , 10 ) ) ;
p . save ( ) ;
p . setClipRect ( QRect ( 5 , 5 , 5 , 5 ) , Qt : : IntersectClip ) ;
p . restore ( ) ;
p . fillRect ( 0 , 0 , 64 , 64 , Qt : : black ) ;
p . end ( ) ;
QCOMPARE ( img . pixel ( 0 , 0 ) , QColor ( Qt : : black ) . rgba ( ) ) ;
}
void tst_QPainter : : clippedImage ( )
{
QImage img ( 16 , 16 , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( 0x0 ) ;
QImage src ( 16 , 16 , QImage : : Format_RGB32 ) ;
src . fill ( QColor ( Qt : : red ) . rgba ( ) ) ;
QPainter p ( & img ) ;
p . setClipRect ( QRect ( 1 , 1 , 14 , 14 ) ) ;
p . drawImage ( 0 , 0 , src ) ;
p . end ( ) ;
QCOMPARE ( img . pixel ( 0 , 0 ) , 0x0U ) ;
QCOMPARE ( img . pixel ( 1 , 1 ) , src . pixel ( 1 , 1 ) ) ;
}
void tst_QPainter : : stateResetBetweenQPainters ( )
{
QImage img ( 16 , 16 , QImage : : Format_ARGB32 ) ;
{
QPainter p ( & img ) ;
p . setCompositionMode ( QPainter : : CompositionMode_Source ) ;
p . fillRect ( 0 , 0 , 16 , 16 , Qt : : red ) ;
}
{
QPainter p2 ( & img ) ;
p2 . fillRect ( 0 , 0 , 16 , 16 , QColor ( 0 , 0 , 255 , 63 ) ) ;
}
img . save ( " foo.png " ) ;
QVERIFY ( img . pixel ( 0 , 0 ) ! = qRgba ( 0 , 0 , 255 , 63 ) ) ;
QVERIFY ( qRed ( img . pixel ( 0 , 0 ) ) > 0 ) ; // We didn't erase the red channel...
QVERIFY ( qBlue ( img . pixel ( 0 , 0 ) ) < 255 ) ; // We blended the blue channel
}
void tst_QPainter : : drawRect_task215378 ( )
{
QImage img ( 11 , 11 , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( QColor ( Qt : : white ) . rgba ( ) ) ;
QPainter p ( & img ) ;
p . setPen ( QColor ( 127 , 127 , 127 , 127 ) ) ;
p . drawRect ( 0 , 0 , 10 , 10 ) ;
p . end ( ) ;
QCOMPARE ( img . pixel ( 0 , 0 ) , img . pixel ( 1 , 0 ) ) ;
QCOMPARE ( img . pixel ( 0 , 0 ) , img . pixel ( 0 , 1 ) ) ;
QVERIFY ( img . pixel ( 0 , 0 ) ! = img . pixel ( 1 , 1 ) ) ;
}
void tst_QPainter : : drawRect_task247505 ( )
{
QImage a ( 10 , 10 , QImage : : Format_ARGB32_Premultiplied ) ;
a . fill ( 0 ) ;
QImage b = a ;
QPainter p ( & a ) ;
p . setPen ( Qt : : NoPen ) ;
p . setBrush ( Qt : : black ) ;
p . drawRect ( QRectF ( 10 , 0 , - 10 , 10 ) ) ;
p . end ( ) ;
p . begin ( & b ) ;
p . setPen ( Qt : : NoPen ) ;
p . setBrush ( Qt : : black ) ;
p . drawRect ( QRectF ( 0 , 0 , 10 , 10 ) ) ;
p . end ( ) ;
QCOMPARE ( a , b ) ;
}
void tst_QPainter : : drawImage_data ( )
{
QTest : : addColumn < int > ( " x " ) ;
QTest : : addColumn < int > ( " y " ) ;
QTest : : addColumn < int > ( " w " ) ;
QTest : : addColumn < int > ( " h " ) ;
QTest : : addColumn < QImage : : Format > ( " srcFormat " ) ;
QTest : : addColumn < QImage : : Format > ( " dstFormat " ) ;
for ( int srcFormat = QImage : : Format_Mono ; srcFormat < QImage : : NImageFormats ; + + srcFormat ) {
for ( int dstFormat = QImage : : Format_Mono ; dstFormat < QImage : : NImageFormats ; + + dstFormat ) {
if ( dstFormat = = QImage : : Format_Indexed8 )
continue ;
for ( int odd_x = 0 ; odd_x < = 1 ; + + odd_x ) {
for ( int odd_width = 0 ; odd_width < = 1 ; + + odd_width ) {
QString description =
QString ( " srcFormat %1, dstFormat %2, odd x: %3, odd width: %4 " )
. arg ( srcFormat ) . arg ( dstFormat ) . arg ( odd_x ) . arg ( odd_width ) ;
QTest : : newRow ( qPrintable ( description ) ) < < ( 10 + odd_x ) < < 10 < < ( 20 + odd_width ) < < 20
< < QImage : : Format ( srcFormat )
< < QImage : : Format ( dstFormat ) ;
}
}
}
}
}
bool verifyImage ( const QImage & img , int x , int y , int w , int h , uint background )
{
int imgWidth = img . width ( ) ;
int imgHeight = img . height ( ) ;
for ( int i = 0 ; i < imgHeight ; + + i ) {
for ( int j = 0 ; j < imgWidth ; + + j ) {
uint pixel = img . pixel ( j , i ) ;
bool outside = j < x | | j > = ( x + w ) | | i < y | | i > = ( y + h ) ;
if ( outside ! = ( pixel = = background ) ) {
//printf("%d %d, expected %x, got %x, outside: %d\n", x, y, background, pixel, outside);
return false ;
}
}
}
return true ;
}
void tst_QPainter : : drawImage ( )
{
QFETCH ( int , x ) ;
QFETCH ( int , y ) ;
QFETCH ( int , w ) ;
QFETCH ( int , h ) ;
QFETCH ( QImage : : Format , srcFormat ) ;
QFETCH ( QImage : : Format , dstFormat ) ;
QImage dst ( 40 , 40 , QImage : : Format_RGB32 ) ;
dst . fill ( 0xffffffff ) ;
dst = dst . convertToFormat ( dstFormat ) ;
uint background = dst . pixel ( 0 , 0 ) ;
QImage src ( w , h , QImage : : Format_RGB32 ) ;
src . fill ( 0xff000000 ) ;
src = src . convertToFormat ( srcFormat ) ;
QPainter p ( & dst ) ;
p . drawImage ( x , y , src ) ;
p . end ( ) ;
QVERIFY ( verifyImage ( dst , x , y , w , h , background ) ) ;
}
void tst_QPainter : : imageCoordinateLimit ( )
{
QImage img ( 64 , 40000 , QImage : : Format_MonoLSB ) ;
QPainter p ( & img ) ;
p . drawText ( 10 , 36000 , QLatin1String ( " foo " ) ) ;
p . setPen ( QPen ( Qt : : black , 2 ) ) ;
p . drawLine ( 10 , 0 , 60 , 40000 ) ;
p . setRenderHint ( QPainter : : Antialiasing ) ;
p . drawLine ( 10 , 0 , 60 , 40000 ) ;
}
void tst_QPainter : : imageBlending_data ( )
{
QTest : : addColumn < QImage : : Format > ( " sourceFormat " ) ;
QTest : : addColumn < QImage : : Format > ( " destFormat " ) ;
QTest : : addColumn < int > ( " error " ) ;
int error_rgb565 = ( ( 1 < < 3 ) + ( 1 < < 2 ) + ( 1 < < 3 ) ) ;
QTest : : newRow ( " rgb565_on_rgb565 " ) < < QImage : : Format_RGB16
< < QImage : : Format_RGB16
< < 0 ;
QTest : : newRow ( " argb8565_on_rgb565 " ) < < QImage : : Format_ARGB8565_Premultiplied
< < QImage : : Format_RGB16
< < error_rgb565 ;
QTest : : newRow ( " rgb32_on_rgb565 " ) < < QImage : : Format_RGB32
< < QImage : : Format_RGB16
< < error_rgb565 ;
QTest : : newRow ( " argb32pm_on_rgb565 " ) < < QImage : : Format_ARGB32_Premultiplied
< < QImage : : Format_RGB16
< < error_rgb565 ;
}
int diffColor ( quint32 ap , quint32 bp )
{
int a = qAlpha ( ap ) - qAlpha ( bp ) ;
int r = qRed ( ap ) - qRed ( bp ) ;
int b = qBlue ( ap ) - qBlue ( bp ) ;
int g = qBlue ( ap ) - qBlue ( bp ) ;
return qAbs ( a ) + qAbs ( r ) + qAbs ( g ) + qAbs ( b ) ;
}
// this test assumes premultiplied pixels...
void tst_QPainter : : imageBlending ( )
{
QFETCH ( QImage : : Format , sourceFormat ) ;
QFETCH ( QImage : : Format , destFormat ) ;
QFETCH ( int , error ) ;
QImage dest ;
{
QImage orig_dest ( 6 , 6 , QImage : : Format_ARGB32_Premultiplied ) ;
orig_dest . fill ( 0 ) ;
QPainter p ( & orig_dest ) ;
p . fillRect ( 0 , 0 , 6 , 3 , QColor : : fromRgbF ( 1 , 0 , 0 ) ) ;
p . fillRect ( 3 , 0 , 3 , 6 , QColor : : fromRgbF ( 0 , 0 , 1 , 0.5 ) ) ;
p . end ( ) ;
dest = orig_dest . convertToFormat ( destFormat ) ;
// An image like this: (r = red, m = magenta, b = light alpha blue, 0 = transparent)
// r r r m m m
// r r r m m m
// r r r m m m
// 0 0 0 b b b
// 0 0 0 b b b
// 0 0 0 b b b
}
QImage source ;
{
QImage orig_source ( 6 , 6 , QImage : : Format_ARGB32_Premultiplied ) ;
orig_source . fill ( 0 ) ;
QPainter p ( & orig_source ) ;
p . fillRect ( 1 , 1 , 4 , 4 , QColor : : fromRgbF ( 0 , 1 , 0 , 0.5 ) ) ;
p . fillRect ( 2 , 2 , 2 , 2 , QColor : : fromRgbF ( 0 , 1 , 0 ) ) ;
p . end ( ) ;
source = orig_source . convertToFormat ( sourceFormat ) ;
// An image like this: (0 = transparent, . = green at 0.5 alpha, g = opaque green.
// 0 0 0 0 0 0
// 0 . . . . 0
// 0 . g g . 0
// 0 . g g . 0
// 0 . . . . 0
// 0 0 0 0 0 0
}
QPainter p ( & dest ) ;
p . drawImage ( 0 , 0 , source ) ;
p . end ( ) ;
// resulting image:
// r r r m m m
// r r. r. m. m. m
// r r. g g m. m
// 0 . g g b. b
// 0 . . b. b. b
// 0 0 0 b b b
// the g pixels, always green..
QVERIFY ( diffColor ( dest . pixel ( 2 , 2 ) , 0xff00ff00 ) < = error ) ; // g
if ( source . hasAlphaChannel ( ) ) {
QVERIFY ( diffColor ( dest . pixel ( 0 , 0 ) , 0xffff0000 ) < = error ) ; // r
QVERIFY ( diffColor ( dest . pixel ( 5 , 0 ) , 0xff7f007f ) < = error ) ; // m
QVERIFY ( diffColor ( dest . pixel ( 1 , 1 ) , 0xff7f7f00 ) < = error ) ; // r.
QVERIFY ( diffColor ( dest . pixel ( 4 , 1 ) , 0xff3f7f3f ) < = error ) ; // m.
if ( dest . hasAlphaChannel ( ) ) {
QVERIFY ( diffColor ( dest . pixel ( 1 , 3 ) , 0x7f007f00 ) < = error ) ; // .
QVERIFY ( diffColor ( dest . pixel ( 4 , 3 ) , 0x7f007f3f ) < = error ) ; // b.
QVERIFY ( diffColor ( dest . pixel ( 4 , 3 ) , 0x7f007f3f ) < = error ) ; // b.
QVERIFY ( diffColor ( dest . pixel ( 4 , 4 ) , 0x7f00007f ) < = error ) ; // b
QVERIFY ( diffColor ( dest . pixel ( 4 , 0 ) , 0 ) < = 0 ) ; // 0
}
} else {
QVERIFY ( diffColor ( dest . pixel ( 0 , 0 ) , 0xff000000 ) < = 0 ) ;
QVERIFY ( diffColor ( dest . pixel ( 1 , 1 ) , 0xff007f00 ) < = error ) ;
}
}
void tst_QPainter : : imageBlending_clipped ( )
{
QImage src ( 20 , 20 , QImage : : Format_RGB16 ) ;
QPainter p ( & src ) ;
p . fillRect ( src . rect ( ) , Qt : : red ) ;
p . end ( ) ;
QImage dst ( 40 , 20 , QImage : : Format_RGB16 ) ;
p . begin ( & dst ) ;
p . fillRect ( dst . rect ( ) , Qt : : white ) ;
p . end ( ) ;
QImage expected = dst ;
p . begin ( & dst ) ;
p . setClipRect ( QRect ( 23 , 0 , 20 , 20 ) ) ;
// should be completely clipped
p . drawImage ( QRectF ( 3 , 0 , 20 , 20 ) , src ) ;
p . end ( ) ;
// dst should be left unchanged
QCOMPARE ( dst , expected ) ;
}
void tst_QPainter : : paintOnNullPixmap ( )
{
QPixmap pix ( 16 , 16 ) ;
QPixmap textPixmap ;
QPainter p ( & textPixmap ) ;
p . drawPixmap ( 10 , 10 , pix ) ;
p . end ( ) ;
QPixmap textPixmap2 ( 16 , 16 ) ;
p . begin ( & textPixmap2 ) ;
p . end ( ) ;
}
void tst_QPainter : : checkCompositionMode ( )
{
QImage refImage ( 50 , 50 , QImage : : Format_ARGB32 ) ;
QPainter painter ( & refImage ) ;
painter . fillRect ( QRect ( 0 , 0 , 50 , 50 ) , Qt : : blue ) ;
QImage testImage ( 50 , 50 , QImage : : Format_ARGB32 ) ;
QPainter p ( & testImage ) ;
p . fillRect ( QRect ( 0 , 0 , 50 , 50 ) , Qt : : red ) ;
p . save ( ) ;
p . setCompositionMode ( QPainter : : CompositionMode_SourceOut ) ;
p . restore ( ) ;
p . fillRect ( QRect ( 0 , 0 , 50 , 50 ) , Qt : : blue ) ;
QCOMPARE ( refImage . pixel ( 20 , 20 ) , testImage . pixel ( 20 , 20 ) ) ;
}
static QLinearGradient inverseGradient ( QLinearGradient g )
{
QLinearGradient g2 = g ;
QGradientStops stops = g . stops ( ) ;
QGradientStops inverse ;
foreach ( QGradientStop stop , stops )
inverse < < QGradientStop ( 1 - stop . first , stop . second ) ;
g2 . setStops ( inverse ) ;
return g2 ;
}
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void tst_QPainter : : linearGradientSymmetry_data ( )
{
QTest : : addColumn < QGradientStops > ( " stops " ) ;
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if ( sizeof ( qreal ) ! = sizeof ( float ) ) {
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QGradientStops stops ;
stops < < qMakePair ( qreal ( 0.0 ) , QColor ( Qt : : blue ) ) ;
stops < < qMakePair ( qreal ( 0.2 ) , QColor ( 220 , 220 , 220 , 0 ) ) ;
stops < < qMakePair ( qreal ( 0.6 ) , QColor ( Qt : : red ) ) ;
stops < < qMakePair ( qreal ( 0.9 ) , QColor ( 220 , 220 , 220 , 255 ) ) ;
stops < < qMakePair ( qreal ( 1.0 ) , QColor ( Qt : : black ) ) ;
QTest : : newRow ( " multiple stops " ) < < stops ;
}
{
QGradientStops stops ;
stops < < qMakePair ( qreal ( 0.0 ) , QColor ( Qt : : blue ) ) ;
stops < < qMakePair ( qreal ( 1.0 ) , QColor ( Qt : : black ) ) ;
QTest : : newRow ( " two stops " ) < < stops ;
}
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if ( sizeof ( qreal ) ! = sizeof ( float ) ) {
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QGradientStops stops ;
stops < < qMakePair ( qreal ( 0.3 ) , QColor ( Qt : : blue ) ) ;
stops < < qMakePair ( qreal ( 0.6 ) , QColor ( Qt : : black ) ) ;
QTest : : newRow ( " two stops 2 " ) < < stops ;
}
}
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void tst_QPainter : : linearGradientSymmetry ( )
{
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# ifdef Q_WS_QWS
QSKIP ( " QWS has limited resolution in the gradient color table " , SkipAll ) ;
# else
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QFETCH ( QGradientStops , stops ) ;
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QImage a ( 64 , 8 , QImage : : Format_ARGB32_Premultiplied ) ;
QImage b ( 64 , 8 , QImage : : Format_ARGB32_Premultiplied ) ;
a . fill ( 0 ) ;
b . fill ( 0 ) ;
QLinearGradient gradient ( QRectF ( b . rect ( ) ) . topLeft ( ) , QRectF ( b . rect ( ) ) . topRight ( ) ) ;
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gradient . setStops ( stops ) ;
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QPainter pa ( & a ) ;
pa . fillRect ( a . rect ( ) , gradient ) ;
pa . end ( ) ;
QPainter pb ( & b ) ;
pb . fillRect ( b . rect ( ) , inverseGradient ( gradient ) ) ;
pb . end ( ) ;
b = b . mirrored ( true ) ;
QCOMPARE ( a , b ) ;
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# endif
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}
void tst_QPainter : : gradientInterpolation ( )
{
QImage image ( 256 , 8 , QImage : : Format_ARGB32_Premultiplied ) ;
QPainter painter ;
QLinearGradient gradient ( QRectF ( image . rect ( ) ) . topLeft ( ) , QRectF ( image . rect ( ) ) . topRight ( ) ) ;
gradient . setColorAt ( 0.0 , QColor ( 255 , 0 , 0 , 0 ) ) ;
gradient . setColorAt ( 1.0 , Qt : : blue ) ;
image . fill ( 0 ) ;
painter . begin ( & image ) ;
painter . fillRect ( image . rect ( ) , gradient ) ;
painter . end ( ) ;
const QRgb * line = reinterpret_cast < QRgb * > ( image . scanLine ( 3 ) ) ;
for ( int i = 0 ; i < 256 ; + + i ) {
QCOMPARE ( qAlpha ( line [ i ] ) , qBlue ( line [ i ] ) ) ; // bright blue
QVERIFY ( qAbs ( qAlpha ( line [ i ] ) - i ) < 3 ) ; // linear alpha
QCOMPARE ( qRed ( line [ i ] ) , 0 ) ; // no red component
QCOMPARE ( qGreen ( line [ i ] ) , 0 ) ; // no green component
}
gradient . setInterpolationMode ( QGradient : : ComponentInterpolation ) ;
image . fill ( 0 ) ;
painter . begin ( & image ) ;
painter . fillRect ( image . rect ( ) , gradient ) ;
painter . end ( ) ;
for ( int i = 1 ; i < 256 ; + + i ) {
if ( i < 128 ) {
QVERIFY ( qRed ( line [ i ] ) > = qBlue ( line [ i ] ) ) ; // red is dominant
} else {
QVERIFY ( qRed ( line [ i ] ) < = qBlue ( line [ i ] ) ) ; // blue is dominant
}
QVERIFY ( ( qRed ( line [ i ] ) - 0.5 ) * ( qAlpha ( line [ i - 1 ] ) - 0.5 ) < = ( qRed ( line [ i - 1 ] ) + 0.5 ) * ( qAlpha ( line [ i ] ) + 0.5 ) ) ; // decreasing red
QVERIFY ( ( qBlue ( line [ i ] ) + 0.5 ) * ( qAlpha ( line [ i - 1 ] ) + 0.5 ) > = ( qBlue ( line [ i - 1 ] ) - 0.5 ) * ( qAlpha ( line [ i ] ) - 0.5 ) ) ; // increasing blue
QVERIFY ( qAbs ( qAlpha ( line [ i ] ) - i ) < 3 ) ; // linear alpha
QCOMPARE ( qGreen ( line [ i ] ) , 0 ) ; // no green component
}
}
void tst_QPainter : : drawPolygon ( )
{
QImage img ( 128 , 128 , QImage : : Format_ARGB32_Premultiplied ) ;
QPainterPathStroker stroker ;
stroker . setWidth ( 1.5 ) ;
QPainterPath path ;
path . moveTo ( 2 , 34 ) ;
path . lineTo ( 34 , 2 ) ;
QPolygonF poly = stroker . createStroke ( path ) . toFillPolygon ( ) ;
img . fill ( 0xffffffff ) ;
QPainter p ( & img ) ;
p . setRenderHint ( QPainter : : Antialiasing ) ;
p . setBrush ( Qt : : red ) ;
p . setPen ( Qt : : NoPen ) ;
p . drawPolygon ( poly ) ;
p . translate ( 64 , 64 ) ;
p . drawPolygon ( poly ) ;
p . end ( ) ;
QImage a = img . copy ( ) ;
img . fill ( 0xffffffff ) ;
p . begin ( & img ) ;
p . setRenderHint ( QPainter : : Antialiasing ) ;
p . setBrush ( Qt : : red ) ;
p . setPen ( Qt : : NoPen ) ;
p . translate ( 64 , 64 ) ;
p . drawPolygon ( poly ) ;
p . resetTransform ( ) ;
p . drawPolygon ( poly ) ;
p . end ( ) ;
QCOMPARE ( a , img ) ;
}
void tst_QPainter : : inactivePainter ( )
{
// This test succeeds if it doesn't segfault.
QPainter p ;
QPainterPath path ;
QRegion region ( QRect ( 20 , 20 , 60 , 40 ) ) ;
QPolygonF polygon ( QVector < QPointF > ( ) < < QPointF ( 0 , 0 ) < < QPointF ( 12 , 0 ) < < QPointF ( 8 , 6 ) ) ;
path . addPolygon ( polygon ) ;
p . save ( ) ;
p . restore ( ) ;
p . background ( ) ;
p . setBackground ( QBrush ( Qt : : blue ) ) ;
p . brush ( ) ;
p . setBrush ( Qt : : red ) ;
p . setBrush ( Qt : : NoBrush ) ;
p . setBrush ( QBrush ( Qt : : white , Qt : : DiagCrossPattern ) ) ;
p . backgroundMode ( ) ;
p . setBackgroundMode ( Qt : : OpaqueMode ) ;
p . boundingRect ( QRectF ( 0 , 0 , 100 , 20 ) , Qt : : AlignCenter , QLatin1String ( " Hello, World! " ) ) ;
p . boundingRect ( QRect ( 0 , 0 , 100 , 20 ) , Qt : : AlignCenter , QLatin1String ( " Hello, World! " ) ) ;
p . brushOrigin ( ) ;
p . setBrushOrigin ( QPointF ( 12 , 34 ) ) ;
p . setBrushOrigin ( QPoint ( 12 , 34 ) ) ;
p . clipPath ( ) ;
p . clipRegion ( ) ;
p . hasClipping ( ) ;
p . setClipPath ( path ) ;
p . setClipRect ( QRectF ( 42 , 42 , 42 , 42 ) ) ;
p . setClipRect ( QRect ( 42 , 42 , 42 , 42 ) ) ;
p . setClipRegion ( region ) ;
p . setClipping ( true ) ;
p . combinedMatrix ( ) ;
p . combinedTransform ( ) ;
p . compositionMode ( ) ;
p . setCompositionMode ( QPainter : : CompositionMode_Plus ) ;
p . device ( ) ;
p . deviceMatrix ( ) ;
p . deviceTransform ( ) ;
p . font ( ) ;
p . setFont ( QFont ( QLatin1String ( " Times " ) , 24 ) ) ;
p . fontInfo ( ) ;
p . fontMetrics ( ) ;
p . layoutDirection ( ) ;
p . setLayoutDirection ( Qt : : RightToLeft ) ;
p . opacity ( ) ;
p . setOpacity ( 0.75 ) ;
p . pen ( ) ;
p . setPen ( QPen ( Qt : : red ) ) ;
p . setPen ( Qt : : green ) ;
p . setPen ( Qt : : NoPen ) ;
p . renderHints ( ) ;
p . setRenderHint ( QPainter : : Antialiasing , true ) ;
p . setRenderHints ( QPainter : : Antialiasing | QPainter : : SmoothPixmapTransform , false ) ;
p . resetMatrix ( ) ;
p . resetTransform ( ) ;
p . rotate ( 1 ) ;
p . scale ( 2 , 2 ) ;
p . shear ( - 1 , 1 ) ;
p . translate ( 3 , 14 ) ;
p . viewTransformEnabled ( ) ;
p . setViewTransformEnabled ( true ) ;
p . viewport ( ) ;
p . setViewport ( QRect ( 10 , 10 , 620 , 460 ) ) ;
p . window ( ) ;
p . setWindow ( QRect ( 10 , 10 , 620 , 460 ) ) ;
p . worldMatrix ( ) ;
p . setWorldMatrix ( QMatrix ( ) . translate ( 43 , 21 ) , true ) ;
p . setWorldMatrixEnabled ( true ) ;
p . transform ( ) ;
p . setTransform ( QTransform ( ) . translate ( 12 , 34 ) , true ) ;
p . worldTransform ( ) ;
p . setWorldTransform ( QTransform ( ) . scale ( 0.5 , 0.5 ) , true ) ;
}
bool testCompositionMode ( int src , int dst , int expected , QPainter : : CompositionMode op , qreal opacity = 1.0 )
{
// The test image needs to be large enough to test SIMD code
const QSize imageSize ( 100 , 100 ) ;
QImage actual ( imageSize , QImage : : Format_ARGB32_Premultiplied ) ;
actual . fill ( QColor ( dst , dst , dst ) . rgb ( ) ) ;
QPainter p ( & actual ) ;
p . setCompositionMode ( op ) ;
p . setOpacity ( opacity ) ;
p . fillRect ( QRect ( QPoint ( ) , imageSize ) , QColor ( src , src , src ) ) ;
p . end ( ) ;
if ( qRed ( actual . pixel ( 0 , 0 ) ) ! = expected ) {
qDebug ( " Fail: mode %d, src[%d] dst [%d] actual [%d] expected [%d] " , op ,
src , dst , qRed ( actual . pixel ( 0 , 0 ) ) , expected ) ;
return false ;
} else {
QImage refImage ( imageSize , QImage : : Format_ARGB32_Premultiplied ) ;
refImage . fill ( QColor ( expected , expected , expected ) . rgb ( ) ) ;
return actual = = refImage ;
}
}
void tst_QPainter : : extendedBlendModes ( )
{
QVERIFY ( testCompositionMode ( 255 , 255 , 255 , QPainter : : CompositionMode_Plus ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_Plus ) ) ;
QVERIFY ( testCompositionMode ( 127 , 128 , 255 , QPainter : : CompositionMode_Plus ) ) ;
QVERIFY ( testCompositionMode ( 127 , 0 , 127 , QPainter : : CompositionMode_Plus ) ) ;
QVERIFY ( testCompositionMode ( 0 , 127 , 127 , QPainter : : CompositionMode_Plus ) ) ;
QVERIFY ( testCompositionMode ( 255 , 0 , 255 , QPainter : : CompositionMode_Plus ) ) ;
QVERIFY ( testCompositionMode ( 0 , 255 , 255 , QPainter : : CompositionMode_Plus ) ) ;
QVERIFY ( testCompositionMode ( 128 , 128 , 255 , QPainter : : CompositionMode_Plus ) ) ;
QVERIFY ( testCompositionMode ( 255 , 255 , 255 , QPainter : : CompositionMode_Plus , 0.3 ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_Plus , 0.3 ) ) ;
QVERIFY ( testCompositionMode ( 127 , 128 , 165 , QPainter : : CompositionMode_Plus , 0.3 ) ) ;
QVERIFY ( testCompositionMode ( 127 , 0 , 37 , QPainter : : CompositionMode_Plus , 0.3 ) ) ;
QVERIFY ( testCompositionMode ( 0 , 127 , 127 , QPainter : : CompositionMode_Plus , 0.3 ) ) ;
QVERIFY ( testCompositionMode ( 255 , 0 , 75 , QPainter : : CompositionMode_Plus , 0.3 ) ) ;
QVERIFY ( testCompositionMode ( 0 , 255 , 255 , QPainter : : CompositionMode_Plus , 0.3 ) ) ;
QVERIFY ( testCompositionMode ( 128 , 128 , 166 , QPainter : : CompositionMode_Plus , 0.3 ) ) ;
QVERIFY ( testCompositionMode ( 186 , 200 , 255 , QPainter : : CompositionMode_Plus , 0.3 ) ) ;
QVERIFY ( testCompositionMode ( 255 , 255 , 255 , QPainter : : CompositionMode_Multiply ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_Multiply ) ) ;
QVERIFY ( testCompositionMode ( 127 , 255 , 127 , QPainter : : CompositionMode_Multiply ) ) ;
QVERIFY ( testCompositionMode ( 255 , 127 , 127 , QPainter : : CompositionMode_Multiply ) ) ;
QVERIFY ( testCompositionMode ( 63 , 255 , 63 , QPainter : : CompositionMode_Multiply ) ) ;
QVERIFY ( testCompositionMode ( 255 , 63 , 63 , QPainter : : CompositionMode_Multiply ) ) ;
QVERIFY ( testCompositionMode ( 127 , 127 , 63 , QPainter : : CompositionMode_Multiply ) ) ;
QVERIFY ( testCompositionMode ( 255 , 255 , 255 , QPainter : : CompositionMode_Screen ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_Screen ) ) ;
QVERIFY ( testCompositionMode ( 63 , 255 , 255 , QPainter : : CompositionMode_Screen ) ) ;
QVERIFY ( testCompositionMode ( 255 , 63 , 255 , QPainter : : CompositionMode_Screen ) ) ;
QVERIFY ( testCompositionMode ( 63 , 0 , 63 , QPainter : : CompositionMode_Screen ) ) ;
QVERIFY ( testCompositionMode ( 0 , 63 , 63 , QPainter : : CompositionMode_Screen ) ) ;
QVERIFY ( testCompositionMode ( 127 , 127 , 191 , QPainter : : CompositionMode_Screen ) ) ;
QVERIFY ( testCompositionMode ( 255 , 255 , 255 , QPainter : : CompositionMode_Overlay ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_Overlay ) ) ;
QVERIFY ( testCompositionMode ( 63 , 63 , 31 , QPainter : : CompositionMode_Overlay ) ) ;
QVERIFY ( testCompositionMode ( 63 , 255 , 255 , QPainter : : CompositionMode_Overlay ) ) ;
QVERIFY ( testCompositionMode ( 255 , 255 , 255 , QPainter : : CompositionMode_Darken ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_Darken ) ) ;
QVERIFY ( testCompositionMode ( 63 , 63 , 63 , QPainter : : CompositionMode_Darken ) ) ;
QVERIFY ( testCompositionMode ( 63 , 255 , 63 , QPainter : : CompositionMode_Darken ) ) ;
QVERIFY ( testCompositionMode ( 255 , 63 , 63 , QPainter : : CompositionMode_Darken ) ) ;
QVERIFY ( testCompositionMode ( 63 , 127 , 63 , QPainter : : CompositionMode_Darken ) ) ;
QVERIFY ( testCompositionMode ( 127 , 63 , 63 , QPainter : : CompositionMode_Darken ) ) ;
QVERIFY ( testCompositionMode ( 255 , 255 , 255 , QPainter : : CompositionMode_Lighten ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_Lighten ) ) ;
QVERIFY ( testCompositionMode ( 63 , 63 , 63 , QPainter : : CompositionMode_Lighten ) ) ;
QVERIFY ( testCompositionMode ( 63 , 255 , 255 , QPainter : : CompositionMode_Lighten ) ) ;
QVERIFY ( testCompositionMode ( 255 , 63 , 255 , QPainter : : CompositionMode_Lighten ) ) ;
QVERIFY ( testCompositionMode ( 63 , 127 , 127 , QPainter : : CompositionMode_Lighten ) ) ;
QVERIFY ( testCompositionMode ( 127 , 63 , 127 , QPainter : : CompositionMode_Lighten ) ) ;
QVERIFY ( testCompositionMode ( 255 , 255 , 255 , QPainter : : CompositionMode_ColorDodge ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_ColorDodge ) ) ;
QVERIFY ( testCompositionMode ( 63 , 127 , 169 , QPainter : : CompositionMode_ColorDodge ) ) ;
QVERIFY ( testCompositionMode ( 191 , 127 , 255 , QPainter : : CompositionMode_ColorDodge ) ) ;
QVERIFY ( testCompositionMode ( 127 , 191 , 255 , QPainter : : CompositionMode_ColorDodge ) ) ;
QVERIFY ( testCompositionMode ( 255 , 255 , 255 , QPainter : : CompositionMode_ColorBurn ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_ColorBurn ) ) ;
QVERIFY ( testCompositionMode ( 127 , 127 , 0 , QPainter : : CompositionMode_ColorBurn ) ) ;
QVERIFY ( testCompositionMode ( 128 , 128 , 2 , QPainter : : CompositionMode_ColorBurn ) ) ;
QVERIFY ( testCompositionMode ( 191 , 127 , 84 , QPainter : : CompositionMode_ColorBurn ) ) ;
QVERIFY ( testCompositionMode ( 255 , 255 , 255 , QPainter : : CompositionMode_HardLight ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_HardLight ) ) ;
QVERIFY ( testCompositionMode ( 127 , 127 , 127 , QPainter : : CompositionMode_HardLight ) ) ;
QVERIFY ( testCompositionMode ( 63 , 63 , 31 , QPainter : : CompositionMode_HardLight ) ) ;
QVERIFY ( testCompositionMode ( 127 , 63 , 63 , QPainter : : CompositionMode_HardLight ) ) ;
QVERIFY ( testCompositionMode ( 255 , 255 , 255 , QPainter : : CompositionMode_SoftLight ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_SoftLight ) ) ;
QVERIFY ( testCompositionMode ( 127 , 127 , 126 , QPainter : : CompositionMode_SoftLight ) ) ;
QVERIFY ( testCompositionMode ( 63 , 63 , 39 , QPainter : : CompositionMode_SoftLight ) ) ;
QVERIFY ( testCompositionMode ( 127 , 63 , 62 , QPainter : : CompositionMode_SoftLight ) ) ;
QVERIFY ( testCompositionMode ( 255 , 255 , 0 , QPainter : : CompositionMode_Difference ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_Difference ) ) ;
QVERIFY ( testCompositionMode ( 255 , 0 , 255 , QPainter : : CompositionMode_Difference ) ) ;
QVERIFY ( testCompositionMode ( 127 , 127 , 0 , QPainter : : CompositionMode_Difference ) ) ;
QVERIFY ( testCompositionMode ( 127 , 128 , 1 , QPainter : : CompositionMode_Difference ) ) ;
QVERIFY ( testCompositionMode ( 127 , 63 , 64 , QPainter : : CompositionMode_Difference ) ) ;
QVERIFY ( testCompositionMode ( 0 , 127 , 127 , QPainter : : CompositionMode_Difference ) ) ;
QVERIFY ( testCompositionMode ( 255 , 255 , 0 , QPainter : : CompositionMode_Exclusion ) ) ;
QVERIFY ( testCompositionMode ( 0 , 0 , 0 , QPainter : : CompositionMode_Exclusion ) ) ;
QVERIFY ( testCompositionMode ( 255 , 0 , 255 , QPainter : : CompositionMode_Exclusion ) ) ;
QVERIFY ( testCompositionMode ( 127 , 127 , 127 , QPainter : : CompositionMode_Exclusion ) ) ;
QVERIFY ( testCompositionMode ( 63 , 127 , 127 , QPainter : : CompositionMode_Exclusion ) ) ;
QVERIFY ( testCompositionMode ( 63 , 63 , 95 , QPainter : : CompositionMode_Exclusion ) ) ;
QVERIFY ( testCompositionMode ( 191 , 191 , 96 , QPainter : : CompositionMode_Exclusion ) ) ;
}
void tst_QPainter : : zeroOpacity ( )
{
QImage source ( 1 , 1 , QImage : : Format_ARGB32_Premultiplied ) ;
source . fill ( 0xffffffff ) ;
QImage target ( 1 , 1 , QImage : : Format_RGB32 ) ;
target . fill ( 0xff000000 ) ;
QPainter p ( & target ) ;
p . setOpacity ( 0.0 ) ;
p . drawImage ( 0 , 0 , source ) ;
p . end ( ) ;
QCOMPARE ( target . pixel ( 0 , 0 ) , 0xff000000 ) ;
}
void tst_QPainter : : clippingBug ( )
{
QImage img ( 32 , 32 , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( 0 ) ;
QImage expected = img ;
QPainter p ( & expected ) ;
p . fillRect ( 1 , 1 , 30 , 30 , Qt : : red ) ;
p . end ( ) ;
QPainterPath path ;
path . addRect ( 1 , 1 , 30 , 30 ) ;
path . addRect ( 1 , 1 , 30 , 30 ) ;
path . addRect ( 1 , 1 , 30 , 30 ) ;
p . begin ( & img ) ;
p . setClipPath ( path ) ;
p . fillRect ( 0 , 0 , 32 , 32 , Qt : : red ) ;
p . end ( ) ;
QCOMPARE ( img , expected ) ;
}
void tst_QPainter : : emptyClip ( )
{
QImage img ( 64 , 64 , QImage : : Format_ARGB32_Premultiplied ) ;
QPainter p ( & img ) ;
p . setRenderHints ( QPainter : : Antialiasing ) ;
p . setClipRect ( 0 , 32 , 64 , 0 ) ;
p . fillRect ( 0 , 0 , 64 , 64 , Qt : : white ) ;
QPainterPath path ;
path . lineTo ( 64 , 0 ) ;
path . lineTo ( 64 , 64 ) ;
path . lineTo ( 40 , 64 ) ;
path . lineTo ( 40 , 80 ) ;
path . lineTo ( 0 , 80 ) ;
p . fillPath ( path , Qt : : green ) ;
}
void tst_QPainter : : drawImage_1x1 ( )
{
QImage source ( 1 , 1 , QImage : : Format_ARGB32_Premultiplied ) ;
source . fill ( 0xffffffff ) ;
QImage img ( 32 , 32 , QImage : : Format_ARGB32_Premultiplied ) ;
img . fill ( 0xff000000 ) ;
QPainter p ( & img ) ;
p . drawImage ( QRectF ( 0.9 , 0.9 , 32 , 32 ) , source ) ;
p . end ( ) ;
QImage expected = img ;
expected . fill ( 0xff000000 ) ;
p . begin ( & expected ) ;
p . fillRect ( 1 , 1 , 31 , 31 , Qt : : white ) ;
p . end ( ) ;
QCOMPARE ( img , expected ) ;
}
void tst_QPainter : : taskQT4444_dontOverflowDashOffset ( )
{
QPainter p ;
QPen pen ;
pen . setWidth ( 2 ) ;
pen . setStyle ( Qt : : DashDotLine ) ;
QPointF point [ 4 ] ;
point [ 0 ] = QPointF ( 182.50868749707968 , 347.78457234212630 ) ;
point [ 1 ] = QPointF ( 182.50868749707968 , 107.22501998401277 ) ;
point [ 2 ] = QPointF ( 182.50868749707968 , 107.22501998401277 ) ;
point [ 3 ] = QPointF ( 520.46600762283651 , 107.22501998401277 ) ;
QImage crashImage ( QSize ( 1000 , 120 ) , QImage : : Format_ARGB32_Premultiplied ) ;
p . begin ( & crashImage ) ;
p . setPen ( pen ) ;
p . drawLines ( point , 2 ) ;
p . end ( ) ;
QVERIFY ( true ) ; // Don't crash
}
void tst_QPainter : : painterBegin ( )
{
QImage nullImage ;
QImage indexed8Image ( 16 , 16 , QImage : : Format_Indexed8 ) ;
QImage rgb32Image ( 16 , 16 , QImage : : Format_RGB32 ) ;
QImage argb32Image ( 16 , 16 , QImage : : Format_ARGB32_Premultiplied ) ;
QPainter p ;
// Painting on null image should fail.
QVERIFY ( ! p . begin ( & nullImage ) ) ;
// Check that the painter is not messed up by using it on another image.
QVERIFY ( p . begin ( & rgb32Image ) ) ;
QVERIFY ( p . end ( ) ) ;
// If painting on indexed8 image fails, the painter state should still be OK.
if ( p . begin ( & indexed8Image ) )
QVERIFY ( p . end ( ) ) ;
QVERIFY ( p . begin ( & rgb32Image ) ) ;
QVERIFY ( p . end ( ) ) ;
// Try opening a painter on the two different images.
QVERIFY ( p . begin ( & rgb32Image ) ) ;
QVERIFY ( ! p . begin ( & argb32Image ) ) ;
QVERIFY ( p . end ( ) ) ;
// Try opening two painters on the same image.
QVERIFY ( p . begin ( & rgb32Image ) ) ;
QPainter q ;
QVERIFY ( ! q . begin ( & rgb32Image ) ) ;
QVERIFY ( ! q . end ( ) ) ;
QVERIFY ( p . end ( ) ) ;
// Try ending an inactive painter.
QVERIFY ( ! p . end ( ) ) ;
}
void tst_QPainter : : setPenColor ( QPainter & p )
{
p . setPen ( Qt : : NoPen ) ;
// Setting color, then style
// Should work even though the pen is "NoPen with color", temporarily.
QPen newPen ( p . pen ( ) ) ;
newPen . setColor ( Qt : : red ) ;
QCOMPARE ( p . pen ( ) . style ( ) , newPen . style ( ) ) ;
QCOMPARE ( p . pen ( ) . style ( ) , Qt : : NoPen ) ;
p . setPen ( newPen ) ;
QCOMPARE ( p . pen ( ) . color ( ) . name ( ) , QString ( " #ff0000 " ) ) ;
QPen newPen2 ( p . pen ( ) ) ;
newPen2 . setStyle ( Qt : : SolidLine ) ;
p . setPen ( newPen2 ) ;
QCOMPARE ( p . pen ( ) . color ( ) . name ( ) , QString ( " #ff0000 " ) ) ;
}
void tst_QPainter : : setPenColorOnImage ( )
{
QImage img ( QSize ( 10 , 10 ) , QImage : : Format_ARGB32_Premultiplied ) ;
QPainter p ( & img ) ;
setPenColor ( p ) ;
}
void tst_QPainter : : setPenColorOnPixmap ( )
{
QPixmap pix ( 10 , 10 ) ;
QPainter p ( & pix ) ;
setPenColor ( p ) ;
}
class TestProxy : public QGraphicsProxyWidget
{
public :
TestProxy ( ) : QGraphicsProxyWidget ( ) { }
void paint ( QPainter * painter , const QStyleOptionGraphicsItem * option , QWidget * widget )
{
QGraphicsProxyWidget : : paint ( painter , option , widget ) ;
deviceTransform = painter - > deviceTransform ( ) ;
}
QTransform deviceTransform ;
} ;
class TestWidget : public QWidget
{
Q_OBJECT
public :
TestWidget ( ) : QWidget ( ) , painted ( false ) { }
void paintEvent ( QPaintEvent * )
{
QPainter p ( this ) ;
deviceTransform = p . deviceTransform ( ) ;
worldTransform = p . worldTransform ( ) ;
painted = true ;
}
QTransform deviceTransform ;
QTransform worldTransform ;
bool painted ;
} ;
void tst_QPainter : : QTBUG5939_attachPainterPrivate ( )
{
QWidget * w = new QWidget ( ) ;
QGraphicsScene * scene = new QGraphicsScene ( ) ;
QGraphicsView * view = new QGraphicsView ( scene , w ) ;
view - > move ( 50 , 50 ) ;
TestProxy * proxy = new TestProxy ( ) ;
TestWidget * widget = new TestWidget ( ) ;
proxy - > setWidget ( widget ) ;
scene - > addItem ( proxy ) ;
proxy - > rotate ( 45 ) ;
w - > resize ( scene - > sceneRect ( ) . size ( ) . toSize ( ) ) ;
w - > show ( ) ;
QTRY_VERIFY ( widget - > painted ) ;
QVERIFY ( widget - > worldTransform . isIdentity ( ) ) ;
QCOMPARE ( widget - > deviceTransform , proxy - > deviceTransform ) ;
}
void tst_QPainter : : clipBoundingRect ( )
{
QPixmap pix ( 500 , 500 ) ;
QPainter p ( & pix ) ;
// Test a basic rectangle
p . setClipRect ( 100 , 100 , 200 , 100 ) ;
QVERIFY ( p . clipBoundingRect ( ) . contains ( QRectF ( 100 , 100 , 200 , 100 ) ) ) ;
QVERIFY ( ! p . clipBoundingRect ( ) . contains ( QRectF ( 50 , 50 , 300 , 200 ) ) ) ;
p . setClipRect ( 120 , 120 , 20 , 20 , Qt : : IntersectClip ) ;
QVERIFY ( p . clipBoundingRect ( ) . contains ( QRect ( 120 , 120 , 20 , 20 ) ) ) ;
QVERIFY ( ! p . clipBoundingRect ( ) . contains ( QRectF ( 100 , 100 , 200 , 100 ) ) ) ;
// Test a basic float rectangle
p . setClipRect ( QRectF ( 100 , 100 , 200 , 100 ) ) ;
QVERIFY ( p . clipBoundingRect ( ) . contains ( QRectF ( 100 , 100 , 200 , 100 ) ) ) ;
QVERIFY ( ! p . clipBoundingRect ( ) . contains ( QRectF ( 50 , 50 , 300 , 200 ) ) ) ;
p . setClipRect ( QRectF ( 120 , 120 , 20 , 20 ) , Qt : : IntersectClip ) ;
QVERIFY ( p . clipBoundingRect ( ) . contains ( QRect ( 120 , 120 , 20 , 20 ) ) ) ;
QVERIFY ( ! p . clipBoundingRect ( ) . contains ( QRectF ( 100 , 100 , 200 , 100 ) ) ) ;
// Test a basic path + region
QPainterPath path ;
path . addRect ( 100 , 100 , 200 , 100 ) ;
p . setClipPath ( path ) ;
QVERIFY ( p . clipBoundingRect ( ) . contains ( QRectF ( 100 , 100 , 200 , 100 ) ) ) ;
QVERIFY ( ! p . clipBoundingRect ( ) . contains ( QRectF ( 50 , 50 , 300 , 200 ) ) ) ;
p . setClipRegion ( QRegion ( 120 , 120 , 20 , 20 ) , Qt : : IntersectClip ) ;
QVERIFY ( p . clipBoundingRect ( ) . contains ( QRect ( 120 , 120 , 20 , 20 ) ) ) ;
QVERIFY ( ! p . clipBoundingRect ( ) . contains ( QRectF ( 100 , 100 , 200 , 100 ) ) ) ;
p . setClipRect ( 0 , 0 , 500 , 500 ) ;
p . translate ( 250 , 250 ) ;
for ( int i = 0 ; i < 360 ; + + i ) {
p . rotate ( 1 ) ;
p . setClipRect ( - 100 , - 100 , 200 , 200 , Qt : : IntersectClip ) ;
}
QVERIFY ( p . clipBoundingRect ( ) . contains ( QRectF ( - 100 , - 100 , 200 , 200 ) ) ) ;
QVERIFY ( ! p . clipBoundingRect ( ) . contains ( QRectF ( - 250 , - 250 , 500 , 500 ) ) ) ;
}
void tst_QPainter : : drawText_subPixelPositionsInRaster_qtbug5053 ( )
{
# if !defined(Q_WS_MAC) || !defined(QT_MAC_USE_COCOA)
QSKIP ( " Only Mac/Cocoa supports sub pixel positions in raster engine currently " , SkipAll ) ;
# endif
QFontMetricsF fm ( qApp - > font ( ) ) ;
QImage baseLine ( fm . width ( QChar : : fromLatin1 ( ' e ' ) ) , fm . height ( ) , QImage : : Format_RGB32 ) ;
baseLine . fill ( Qt : : white ) ;
{
QPainter p ( & baseLine ) ;
p . drawText ( 0 , fm . ascent ( ) , QString : : fromLatin1 ( " e " ) ) ;
}
bool foundDifferentRasterization = false ;
for ( int i = 1 ; i < 12 ; + + i ) {
QImage comparison ( baseLine . size ( ) , QImage : : Format_RGB32 ) ;
comparison . fill ( Qt : : white ) ;
{
QPainter p ( & comparison ) ;
p . drawText ( QPointF ( i / 12.0 , fm . ascent ( ) ) , QString : : fromLatin1 ( " e " ) ) ;
}
if ( comparison ! = baseLine ) {
foundDifferentRasterization = true ;
break ;
}
}
QVERIFY ( foundDifferentRasterization ) ;
}
void tst_QPainter : : drawPointScaled ( )
{
QImage image ( 32 , 32 , QImage : : Format_RGB32 ) ;
image . fill ( 0xffffffff ) ;
QPainter p ( & image ) ;
p . scale ( 0.1 , 0.1 ) ;
QPen pen ;
pen . setWidth ( 1000 ) ;
pen . setColor ( Qt : : red ) ;
p . setPen ( pen ) ;
p . drawPoint ( 0 , 0 ) ;
p . end ( ) ;
QCOMPARE ( image . pixel ( 16 , 16 ) , 0xffff0000 ) ;
}
class GradientProducer : public QThread
{
protected :
void run ( ) ;
} ;
void GradientProducer : : run ( )
{
QImage image ( 1 , 1 , QImage : : Format_RGB32 ) ;
QPainter p ( & image ) ;
for ( int i = 0 ; i < 1000 ; + + i ) {
QLinearGradient g ;
g . setColorAt ( 0 , QColor ( i % 256 , 0 , 0 ) ) ;
g . setColorAt ( 1 , Qt : : white ) ;
p . fillRect ( image . rect ( ) , g ) ;
}
}
void tst_QPainter : : QTBUG14614_gradientCacheRaceCondition ( )
{
const int threadCount = 16 ;
GradientProducer producers [ threadCount ] ;
for ( int i = 0 ; i < threadCount ; + + i )
producers [ i ] . start ( ) ;
for ( int i = 0 ; i < threadCount ; + + i )
producers [ i ] . wait ( ) ;
}
void tst_QPainter : : drawTextOpacity ( )
{
QImage image ( 32 , 32 , QImage : : Format_RGB32 ) ;
image . fill ( 0xffffffff ) ;
QPainter p ( & image ) ;
p . setPen ( QColor ( " #6F6F6F " ) ) ;
p . setOpacity ( 0.5 ) ;
p . drawText ( 5 , 30 , QLatin1String ( " Qt " ) ) ;
p . end ( ) ;
QImage copy = image ;
image . fill ( 0xffffffff ) ;
p . begin ( & image ) ;
p . setPen ( QColor ( " #6F6F6F " ) ) ;
p . drawLine ( - 10 , - 10 , - 1 , - 1 ) ;
p . setOpacity ( 0.5 ) ;
p . drawText ( 5 , 30 , QLatin1String ( " Qt " ) ) ;
p . end ( ) ;
QCOMPARE ( image , copy ) ;
}
void tst_QPainter : : QTBUG17053_zeroDashPattern ( )
{
QImage image ( 32 , 32 , QImage : : Format_RGB32 ) ;
image . fill ( 0xffffffff ) ;
QImage original = image ;
QVector < qreal > pattern ;
pattern < < qreal ( 0 ) < < qreal ( 0 ) ;
QPainter p ( & image ) ;
QPen pen ( Qt : : black , 2.0 ) ;
pen . setDashPattern ( pattern ) ;
p . setPen ( pen ) ;
p . drawLine ( 0 , 0 , image . width ( ) , image . height ( ) ) ;
QCOMPARE ( image , original ) ;
}
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class TextDrawerThread : public QThread
{
public :
void run ( ) ;
QImage rendering ;
} ;
void TextDrawerThread : : run ( )
{
rendering = QImage ( 100 , 100 , QImage : : Format_ARGB32_Premultiplied ) ;
rendering . fill ( 0 ) ;
QPainter p ( & rendering ) ;
p . fillRect ( 10 , 10 , 100 , 100 , Qt : : blue ) ;
p . setPen ( Qt : : green ) ;
p . drawText ( 20 , 20 , " some text " ) ;
p . end ( ) ;
}
void tst_QPainter : : drawTextOutsideGuiThread ( )
{
if ( ! QFontDatabase : : supportsThreadedFontRendering ( ) )
QSKIP ( " No threaded font rendering " , SkipAll ) ;
QImage referenceRendering ( 100 , 100 , QImage : : Format_ARGB32_Premultiplied ) ;
referenceRendering . fill ( 0 ) ;
QPainter p ( & referenceRendering ) ;
p . fillRect ( 10 , 10 , 100 , 100 , Qt : : blue ) ;
p . setPen ( Qt : : green ) ;
p . drawText ( 20 , 20 , " some text " ) ;
p . end ( ) ;
TextDrawerThread t ;
t . start ( ) ;
t . wait ( ) ;
QCOMPARE ( referenceRendering , t . rendering ) ;
}
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QTEST_MAIN ( tst_QPainter )
# include "tst_qpainter.moc"