qt5base-lts/tests/auto/qpixmap/tst_qpixmap.cpp

1902 lines
56 KiB
C++
Raw Normal View History

/****************************************************************************
**
** 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.
**
** $QT_BEGIN_LICENSE:LGPL$
** No Commercial Usage
** This file contains pre-release code and may not be distributed.
** You may use this file in accordance with the terms and conditions
** contained in the Technology Preview License Agreement accompanying
** this package.
**
** GNU Lesser General Public License Usage
** Alternatively, 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 appearing in the file LICENSE.LGPL included in the
** packaging of this 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.
**
** In addition, as a special exception, Nokia gives you certain additional
** rights. These rights are described in the Nokia Qt LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** If you have questions regarding the use of this file, please contact
** Nokia at qt-info@nokia.com.
**
**
**
**
**
**
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
#include <QtTest/QtTest>
#include <qpixmap.h>
#include <qbitmap.h>
#include <qimage.h>
#include <qimagereader.h>
#include <qmatrix.h>
#include <qdesktopwidget.h>
#include <qpaintengine.h>
#include <qtreewidget.h>
#include <qsplashscreen.h>
#include <private/qpixmapdata_p.h>
#include <private/qdrawhelper_p.h>
#include <QSet>
#ifdef Q_WS_WIN
#include <windows.h>
#endif
#ifdef Q_WS_QWS
#include <qscreen_qws.h>
#endif
#ifdef Q_OS_SYMBIAN
#include <e32std.h>
#include <fbs.h>
#include <gdi.h>
#include <bitdev.h>
#if !defined(QT_NO_OPENVG)
#include <QtOpenVG/qvg.h>
#include <QtOpenVG/private/qpixmapdata_vg_p.h>
#endif
#endif
#ifdef Q_WS_X11
#include <QX11Info>
#endif
//TESTED_CLASS=
//TESTED_FILES=
#if defined(Q_OS_SYMBIAN)
# define SRCDIR ""
#endif
Q_DECLARE_METATYPE(QImage::Format)
class tst_QPixmap : public QObject
{
Q_OBJECT
public:
tst_QPixmap();
virtual ~tst_QPixmap();
public slots:
void init();
void cleanup();
private slots:
void swap();
void setAlphaChannel_data();
void setAlphaChannel();
void fromImage_data();
void fromImage();
void fromUninitializedImage_data();
void fromUninitializedImage();
void convertFromImage_data();
void convertFromImage();
void testMetrics();
void scroll_data();
void scroll();
void fill_data();
void fill();
void fill_transparent();
void createMaskFromColor();
void mask();
void bitmapMask();
void setGetMask_data();
void setGetMask();
void cacheKey();
void drawBitmap();
void grabWidget();
void grabWindow();
void isNull();
void task_246446();
void convertFromImageNoDetach();
void convertFromImageDetach();
#if defined(Q_WS_WIN)
void toWinHBITMAP_data();
void toWinHBITMAP();
void fromWinHBITMAP_data();
void fromWinHBITMAP();
void toWinHICON_data();
void toWinHICON();
void fromWinHICON_data();
void fromWinHICON();
#endif
#if defined(Q_OS_SYMBIAN)
void fromSymbianCFbsBitmap_data();
void fromSymbianCFbsBitmap();
void toSymbianCFbsBitmap_data();
void toSymbianCFbsBitmap();
#endif
void onlyNullPixmapsOutsideGuiThread();
void refUnref();
void copy();
void depthOfNullObjects();
#ifdef QT3_SUPPORT
void resize();
void resizePreserveMask();
#endif
void transformed();
void transformed2();
void fromImage_crash();
void fromData();
void loadFromDataNullValues();
void loadFromDataImage_data();
void loadFromDataImage();
void fromImageReader_data();
void fromImageReader();
void fromImageReaderAnimatedGif_data();
void fromImageReaderAnimatedGif();
void preserveDepth();
void splash_crash();
void toImageDeepCopy();
void loadAsBitmapOrPixmap();
#if defined(Q_OS_SYMBIAN) && !defined(QT_NO_OPENVG)
void vgImageReadBack();
#endif
};
static bool lenientCompare(const QPixmap &actual, const QPixmap &expected)
{
QImage expectedImage = expected.toImage().convertToFormat(QImage::Format_RGB32);
QImage actualImage = actual.toImage().convertToFormat(QImage::Format_RGB32);
if (expectedImage.size() != actualImage.size())
return false;
int size = actual.width() * actual.height();
int threshold = 2;
#ifdef Q_WS_X11
if (QX11Info::appDepth() == 16)
threshold = 10;
#endif
QRgb *a = (QRgb *)actualImage.bits();
QRgb *e = (QRgb *)expectedImage.bits();
for (int i = 0; i < size; ++i) {
QColor ca(a[i]);
QColor ce(e[i]);
bool result = true;
if (qAbs(ca.red() - ce.red()) > threshold)
result = false;
if (qAbs(ca.green() - ce.green()) > threshold)
result = false;
if (qAbs(ca.blue() - ce.blue()) > threshold)
result = false;
if (!result)
return false;
}
return true;
}
Q_DECLARE_METATYPE(QImage)
Q_DECLARE_METATYPE(QPixmap)
Q_DECLARE_METATYPE(QMatrix)
Q_DECLARE_METATYPE(QBitmap)
tst_QPixmap::tst_QPixmap()
{
}
tst_QPixmap::~tst_QPixmap()
{
}
void tst_QPixmap::init()
{
}
void tst_QPixmap::cleanup()
{
}
void tst_QPixmap::swap()
{
QPixmap p1( 16, 16 ), p2( 32, 32 );
p1.fill( Qt::white );
p2.fill( Qt::black );
const qint64 p1k = p1.cacheKey();
const qint64 p2k = p2.cacheKey();
p1.swap(p2);
QCOMPARE(p1.cacheKey(), p2k);
QCOMPARE(p1.size(), QSize(32,32));
QCOMPARE(p2.cacheKey(), p1k);
QCOMPARE(p2.size(), QSize(16,16));
}
void tst_QPixmap::setAlphaChannel_data()
{
QTest::addColumn<int>("red");
QTest::addColumn<int>("green");
QTest::addColumn<int>("blue");
QTest::addColumn<int>("alpha");
QTest::newRow("red 0") << 255 << 0 << 0 << 0;
QTest::newRow("red 24") << 255 << 0 << 0 << 24;
QTest::newRow("red 124") << 255 << 0 << 0 << 124;
QTest::newRow("red 255") << 255 << 0 << 0 << 255;
QTest::newRow("green 0") << 0 << 255 << 0 << 0;
QTest::newRow("green 24") << 0 << 255 << 0 << 24;
QTest::newRow("green 124") << 0 << 255 << 0 << 124;
QTest::newRow("green 255") << 0 << 255 << 0 << 255;
QTest::newRow("blue 0") << 0 << 0 << 255 << 0;
QTest::newRow("blue 24") << 0 << 0 << 255 << 24;
QTest::newRow("blue 124") << 0 << 0 << 255 << 124;
QTest::newRow("blue 255") << 0 << 0 << 255 << 255;
}
void tst_QPixmap::setAlphaChannel()
{
QFETCH(int, red);
QFETCH(int, green);
QFETCH(int, blue);
QFETCH(int, alpha);
int width = 100;
int height = 100;
QPixmap pixmap(width, height);
pixmap.fill(QColor(red, green, blue));
QPixmap alphaChannel(width, height);
alphaChannel.fill(QColor(alpha, alpha, alpha));
pixmap.setAlphaChannel(alphaChannel);
#ifdef Q_WS_X11
if (pixmap.pixmapData()->classId() == QPixmapData::X11Class && !pixmap.x11PictureHandle())
QSKIP("Requires XRender support", SkipAll);
#endif
QImage result;
bool ok = true;
QPixmap outAlpha = pixmap.alphaChannel();
QCOMPARE(outAlpha.size(), pixmap.size());
result = outAlpha.toImage().convertToFormat(QImage::Format_ARGB32);;
for (int y = 0; y < height; ++y) {
for (int x = 0; x < width; ++x) {
ok &= qGray(result.pixel(x, y)) == alpha;
}
}
QVERIFY(ok);
result = pixmap.toImage().convertToFormat(QImage::Format_ARGB32);
QRgb expected = alpha == 0 ? 0 : qRgba(red, green, blue, alpha);
for (int y = 0; y < height; ++y) {
for (int x = 0; x < width; ++x) {
if (result.colorCount() > 0) {
ok &= result.pixelIndex(x, y) == expected;
} else {
ok &= result.pixel(x, y) == expected;
}
}
}
QVERIFY(ok);
}
void tst_QPixmap::fromImage_data()
{
bool is16bit = false;
#ifdef Q_WS_X11
if (QX11Info::appDepth() == 16)
is16bit = true;
#endif
QTest::addColumn<QImage::Format>("format");
QTest::newRow("Format_Mono") << QImage::Format_Mono;
QTest::newRow("Format_MonoLSB") << QImage::Format_MonoLSB;
// QTest::newRow("Format_Indexed8") << QImage::Format_Indexed8;
if (!is16bit)
QTest::newRow("Format_RGB32") << QImage::Format_RGB32;
QTest::newRow("Format_ARGB32") << QImage::Format_ARGB32;
QTest::newRow("Format_ARGB32_Premultiplied") << QImage::Format_ARGB32_Premultiplied;
if (!is16bit)
QTest::newRow("Format_RGB16") << QImage::Format_RGB16;
}
void tst_QPixmap::fromImage()
{
QFETCH(QImage::Format, format);
QImage image(37, 16, format);
if (image.colorCount() == 2) {
image.setColor(0, QColor(Qt::color0).rgba());
image.setColor(1, QColor(Qt::color1).rgba());
}
image.fill(0x7f7f7f7f);
const QPixmap pixmap = QPixmap::fromImage(image);
#ifdef Q_WS_X11
if (pixmap.pixmapData()->classId() == QPixmapData::X11Class && !pixmap.x11PictureHandle())
QSKIP("Requires XRender support", SkipAll);
#endif
const QImage result = pixmap.toImage();
image = image.convertToFormat(result.format());
QCOMPARE(result, image);
}
void tst_QPixmap::fromUninitializedImage_data()
{
QTest::addColumn<QImage::Format>("format");
QTest::newRow("Format_Mono") << QImage::Format_Mono;
QTest::newRow("Format_MonoLSB") << QImage::Format_MonoLSB;
QTest::newRow("Format_Indexed8") << QImage::Format_Indexed8;
QTest::newRow("Format_RGB32") << QImage::Format_RGB32;
QTest::newRow("Format_ARGB32") << QImage::Format_ARGB32;
QTest::newRow("Format_ARGB32_Premultiplied") << QImage::Format_ARGB32_Premultiplied;
QTest::newRow("Format_RGB16") << QImage::Format_RGB16;
}
void tst_QPixmap::fromUninitializedImage()
{
QFETCH(QImage::Format, format);
QImage image(100, 100, format);
QPixmap pix = QPixmap::fromImage(image);
// it simply shouldn't crash...
QVERIFY(true);
}
void tst_QPixmap::convertFromImage_data()
{
QTest::addColumn<QImage>("img1");
QTest::addColumn<QImage>("img2");
#ifdef Q_OS_SYMBIAN
const QString prefix = QLatin1String(SRCDIR) + "convertFromImage";
#else
const QString prefix = QLatin1String(SRCDIR) + "/convertFromImage";
#endif
{
QImage img1;
QImage img2;
QVERIFY(img1.load(prefix + "/task31722_0/img1.png"));
QVERIFY(img2.load(prefix + "/task31722_0/img2.png"));
QVERIFY(img1.load(prefix + "/task31722_0/img1.png"));
QVERIFY(img2.load(prefix + "/task31722_0/img2.png"));
QTest::newRow("Task 31722 0") << img1 << img2;
}
{
QImage img1;
QImage img2;
QVERIFY(img1.load(prefix + "/task31722_1/img1.png"));
QVERIFY(img2.load(prefix + "/task31722_1/img2.png"));
QTest::newRow("Task 31722 1") << img1 << img2;
}
}
void tst_QPixmap::convertFromImage()
{
QFETCH(QImage, img1);
QFETCH(QImage, img2);
QPixmap pix = QPixmap::fromImage(img1);
pix = QPixmap::fromImage(img2);
QPixmap res = QPixmap::fromImage(img2);
QVERIFY( pixmapsAreEqual(&pix, &res) );
}
void tst_QPixmap::scroll_data()
{
QTest::addColumn<QImage>("input");
QTest::addColumn<int>("dx");
QTest::addColumn<int>("dy");
QTest::addColumn<QRect>("rect");
QTest::addColumn<QRegion>("exposed");
QTest::addColumn<bool>("newPix");
QImage input(":/images/designer.png");
// Noop tests
QTest::newRow("null") << QImage() << 0 << 0 << QRect() << QRegion() << false;
QTest::newRow("dx_0_dy_0_null") << input << 0 << 0 << QRect() << QRegion() << false;
QTest::newRow("dx_1_dy_0_null") << input << 1 << 0 << QRect() << QRegion() << false;
QTest::newRow("dx_0_dy_1_null") << input << 0 << 1 << QRect() << QRegion() << false;
QTest::newRow("dx_0_dy_0_x_y_w_h") << input << 0 << 0 << input.rect() << QRegion() << false;
QRegion r;
// Scroll whole pixmap
r = QRegion(); r += QRect(0, 0, 128, 10);
QTest::newRow("dx_0_dy_10_x_y_w_h") << input << 0 << 10 << input.rect() << r << true;
r = QRegion(); r += QRect(0, 0, 10, 128);
QTest::newRow("dx_10_dy_0_x_y_w_h") << input << 10 << 0 << input.rect() << r << true;
r = QRegion(); r += QRect(0, 0, 128, 10); r += QRect(0, 10, 10, 118);
QTest::newRow("dx_10_dy_10_x_y_w_h") << input << 10 << 10 << input.rect() << r << true;
r = QRegion(); r += QRect(118, 0, 10, 128);
QTest::newRow("dx_-10_dy_0_x_y_w_h") << input << -10 << 0 << input.rect() << r << true;
r = QRegion(); r += QRect(0, 118, 128, 10);
QTest::newRow("dx_0_dy_-10_x_y_w_h") << input << 0 << -10 << input.rect() << r << true;
r = QRegion(); r += QRect(118, 0, 10, 118); r += QRect(0, 118, 128, 10);
QTest::newRow("dx_-10_dy_-10_x_y_w_h") << input << -10 << -10 << input.rect() << r << true;
// Scroll part of pixmap
QTest::newRow("dx_0_dy_0_50_50_100_100") << input << 0 << 0 << QRect(50, 50, 100, 100) << QRegion() << false;
r = QRegion(); r += QRect(50, 50, 10, 78);
QTest::newRow("dx_10_dy_0_50_50_100_100") << input << 10 << 0 << QRect(50, 50, 100, 100) << r << true;
r = QRegion(); r += QRect(50, 50, 78, 10);
QTest::newRow("dx_0_dy_10_50_50_100_100") << input << 0 << 10 << QRect(50, 50, 100, 100) << r << true;
r = QRegion(); r += QRect(50, 50, 78, 10); r += QRect(50, 60, 10, 68);
QTest::newRow("dx_10_dy_10_50_50_100_100") << input << 10 << 10 << QRect(50, 50, 100, 100) << r << true;
r = QRegion(); r += QRect(118, 50, 10, 78);
QTest::newRow("dx_-10_dy_0_50_50_100_100") << input << -10 << 0 << QRect(50, 50, 100, 100) << r << true;
r = QRegion(); r += QRect(50, 118, 78, 10);
QTest::newRow("dx_0_dy_-10_50_50_100_100") << input << 0 << -10 << QRect(50, 50, 100, 100) << r << true;
r = QRegion(); r += QRect(118, 50, 10, 68); r += QRect(50, 118, 78, 10);
QTest::newRow("dx_-10_dy_-10_50_50_100_100") << input << -10 << -10 << QRect(50, 50, 100, 100) << r << true;
// Scroll away the whole pixmap
r = input.rect();
QTest::newRow("dx_128_dy_0_x_y_w_h") << input << 128 << 0 << input.rect() << r << false;
QTest::newRow("dx_0_dy_128_x_y_w_h") << input << 0 << 128 << input.rect() << r << false;
QTest::newRow("dx_128_dy_128_x_y_w_h") << input << 128 << 128 << input.rect() << r << false;
QTest::newRow("dx_-128_dy_0_x_y_w_h") << input << -128 << 0 << input.rect() << r << false;
QTest::newRow("dx_0_dy_-128_x_y_w_h") << input << 0 << -128 << input.rect() << r << false;
QTest::newRow("dx_-128_dy_-128_x_y_w_h") << input << -128 << -128 << input.rect() << r << false;
// Scroll away part of the pixmap
r = QRegion(); r += QRect(64, 64, 64, 64);
QTest::newRow("dx_128_dy_128_64_64_128_128") << input << 128 << 128 << QRect(64, 64, 128, 128) << r << false;
}
void tst_QPixmap::scroll()
{
QFETCH(QImage, input);
QFETCH(int, dx);
QFETCH(int, dy);
QFETCH(QRect, rect);
QFETCH(QRegion, exposed);
QFETCH(bool, newPix);
QPixmap pixmap = QPixmap::fromImage(input);
QRegion exp;
qint64 oldKey = pixmap.cacheKey();
pixmap.scroll(dx, dy, rect, &exp);
if (!newPix)
QCOMPARE(pixmap.cacheKey(), oldKey);
else
QVERIFY(pixmap.cacheKey() != oldKey);
#if 0
// Remember to add to resources.
QString fileName = QString("images/%1.png").arg(QTest::currentDataTag());
pixmap.toImage().save(fileName);
#else
QString fileName = QString(":/images/%1.png").arg(QTest::currentDataTag());
#endif
QPixmap output(fileName);
QVERIFY(input.isNull() == output.isNull());
QVERIFY(lenientCompare(pixmap, output));
QCOMPARE(exp, exposed);
}
void tst_QPixmap::fill_data()
{
QTest::addColumn<uint>("pixel");
QTest::addColumn<bool>("syscolor");
QTest::addColumn<bool>("bitmap");
for (int color = Qt::black; color < Qt::darkYellow; ++color)
QTest::newRow(QString("syscolor_%1").arg(color).toLatin1())
<< uint(color) << true << false;
#ifdef Q_WS_QWS
if (QScreen::instance()->depth() >= 24) {
#elif defined (Q_WS_X11)
QPixmap pm(1, 1);
if (pm.x11PictureHandle()) {
#elif defined (Q_OS_WINCE)
QPixmap pixmap(1,1);
if (QPixmap::grabWidget(QApplication::desktop()).depth() >= 24) {
#else
QPixmap pixmap(1, 1); {
#endif
QTest::newRow("alpha_7f_red") << 0x7fff0000u << false << false;
QTest::newRow("alpha_3f_blue") << 0x3f0000ffu << false << false;
QTest::newRow("alpha_b7_green") << 0xbf00ff00u << false << false;
QTest::newRow("alpha_7f_white") << 0x7fffffffu << false << false;
QTest::newRow("alpha_3f_white") << 0x3fffffffu << false << false;
QTest::newRow("alpha_b7_white") << 0xb7ffffffu << false << false;
QTest::newRow("alpha_7f_black") << 0x7f000000u << false << false;
QTest::newRow("alpha_3f_black") << 0x3f000000u << false << false;
QTest::newRow("alpha_b7_black") << 0xbf000000u << false << false;
}
QTest::newRow("bitmap_color0") << uint(Qt::color0) << true << true;
QTest::newRow("bitmap_color1") << uint(Qt::color1) << true << true;
}
void tst_QPixmap::fill()
{
QFETCH(uint, pixel);
QFETCH(bool, syscolor);
QFETCH(bool, bitmap);
QColor color;
if (syscolor)
color = QColor(Qt::GlobalColor(pixel));
else
color = QColor(qRed(pixel), qGreen(pixel), qBlue(pixel), qAlpha(pixel));
QColor compareColor = color;
if (bitmap && syscolor) {
// special case color0 and color1 for bitmaps.
if (pixel == Qt::color0)
compareColor.setRgb(255, 255, 255);
else
compareColor.setRgb(0, 0, 0);
}
QPixmap pm;
if (bitmap)
pm = QBitmap(400, 400);
else
pm = QPixmap(400, 400);
#if defined(Q_WS_X11)
if (!bitmap && pm.pixmapData()->classId() == QPixmapData::X11Class && !pm.x11PictureHandle())
QSKIP("Requires XRender support", SkipSingle);
#endif
pm.fill(color);
if (syscolor && !bitmap && pm.depth() < 24) {
QSKIP("Test does not work on displays without true color", SkipSingle);
}
QImage image = pm.toImage();
if (bitmap && syscolor) {
int pixelindex = (pixel == Qt::color0) ? 0 : 1;
QCOMPARE(image.pixelIndex(0,0), pixelindex);
}
QImage::Format format = compareColor.alpha() != 255
? QImage::Format_ARGB32
: QImage::Format_RGB32;
image = image.convertToFormat(format);
QImage shouldBe(400, 400, format);
shouldBe.fill(compareColor.rgba());
QCOMPARE(image, shouldBe);
}
void tst_QPixmap::fill_transparent()
{
QPixmap pixmap(10, 10);
#ifdef Q_WS_X11
if (pixmap.pixmapData()->classId() == QPixmapData::X11Class && !pixmap.x11PictureHandle())
QSKIP("Requires XRender support", SkipAll);
#endif
pixmap.fill(Qt::transparent);
QVERIFY(pixmap.hasAlphaChannel());
}
void tst_QPixmap::mask()
{
QPixmap pm(100, 100);
QBitmap bm(100, 100);
pm.fill();
bm.fill();
QVERIFY(!pm.isNull());
QVERIFY(!bm.isNull());
if (!pm.hasAlphaChannel()) {
// This would fail if the default pixmap format is
// argb32_premultiplied. The mask will be all 1's.
// Therefore this is skipped when the alpha channel is present.
QVERIFY(pm.mask().isNull());
}
QImage img = bm.toImage();
QVERIFY(img.format() == QImage::Format_MonoLSB
|| img.format() == QImage::Format_Mono);
pm.setMask(bm);
QVERIFY(!pm.mask().isNull());
bm = QBitmap();
// Invalid format here, since isNull() == true
QVERIFY(bm.toImage().isNull());
QCOMPARE(bm.toImage().format(), QImage::Format_Invalid);
pm.setMask(bm);
QVERIFY(pm.mask().isNull());
bm = QBitmap(100, 100);
bm.fill();
pm.setMask(bm);
QVERIFY(!pm.mask().isNull());
}
void tst_QPixmap::bitmapMask()
{
QImage image(3, 3, QImage::Format_Mono);
image.setColor(0, Qt::color0);
image.setColor(1, Qt::color1);
image.fill(Qt::color0);
image.setPixel(1, 1, Qt::color1);
image.setPixel(0, 0, Qt::color1);
QImage image_mask(3, 3, QImage::Format_Mono);
image_mask.setColor(0, Qt::color0);
image_mask.setColor(1, Qt::color1);
image_mask.fill(Qt::color0);
image_mask.setPixel(1, 1, Qt::color1);
image_mask.setPixel(2, 0, Qt::color1);
QBitmap pm = QBitmap::fromImage(image);
QBitmap pm_mask = QBitmap::fromImage(image_mask);
pm.setMask(pm_mask);
image = pm.toImage();
image.setColor(0, Qt::color0);
image.setColor(1, Qt::color1);
image_mask = pm_mask.toImage();
image_mask.setColor(0, Qt::color0);
image_mask.setColor(1, Qt::color1);
QVERIFY(!image.pixel(0, 0));
QVERIFY(!image.pixel(2, 0));
QVERIFY(image.pixel(1, 1));
}
void tst_QPixmap::setGetMask_data()
{
QTest::addColumn<QPixmap>("pixmap");
QTest::addColumn<QBitmap>("mask");
QTest::addColumn<QBitmap>("expected");
QPixmap pixmap(10, 10);
QBitmap mask(10, 10);
QPainter p;
p.begin(&pixmap);
p.fillRect(0, 0, 10, 10, QColor(Qt::black));
p.end();
QTest::newRow("nullmask 0") << QPixmap() << QBitmap() << QBitmap();
QTest::newRow("nullmask 1") << pixmap << QBitmap() << QBitmap();
mask.clear();
QTest::newRow("nullmask 2") << pixmap << mask << mask;
QTest::newRow("nullmask 3") << QPixmap(QBitmap()) << QBitmap() << QBitmap();
p.begin(&mask);
p.fillRect(1, 1, 5, 5, QColor(Qt::color1));
p.end();
QTest::newRow("simple mask 0") << pixmap << mask << mask;
}
void tst_QPixmap::setGetMask()
{
QFETCH(QPixmap, pixmap);
QFETCH(QBitmap, mask);
QFETCH(QBitmap, expected);
pixmap.setMask(mask);
QBitmap result = pixmap.mask();
QImage resultImage = result.toImage();
QImage expectedImage = expected.toImage();
QCOMPARE(resultImage.convertToFormat(expectedImage.format()),
expectedImage);
}
void tst_QPixmap::testMetrics()
{
QPixmap pixmap(100, 100);
QCOMPARE(pixmap.width(), 100);
QCOMPARE(pixmap.height(), 100);
QVERIFY(pixmap.depth() >= QPixmap::defaultDepth());
QBitmap bitmap(100, 100);
QCOMPARE(bitmap.width(), 100);
QCOMPARE(bitmap.height(), 100);
QCOMPARE(bitmap.depth(), 1);
QPixmap null;
QCOMPARE(null.size().width(), null.width());
QCOMPARE(null.size().height(), null.height());
}
void tst_QPixmap::createMaskFromColor()
{
QImage image(3, 3, QImage::Format_Indexed8);
image.setColorCount(10);
image.setColor(0, 0xffffffff);
image.setColor(1, 0xff000000);
image.setColor(2, 0xffff0000);
image.setColor(3, 0xff0000ff);
image.fill(0);
image.setPixel(1, 0, 1);
image.setPixel(0, 1, 2);
image.setPixel(1, 1, 3);
QImage im_mask = image.createMaskFromColor(0xffff0000);
QCOMPARE((uint) im_mask.pixel(0, 1), QColor(Qt::color0).rgba());
QCOMPARE((uint) im_mask.pixel(0, 1), QColor(Qt::color0).rgba());
QPixmap pixmap = QPixmap::fromImage(image);
QBitmap mask = pixmap.createMaskFromColor(Qt::red);
QBitmap inv_mask = pixmap.createMaskFromColor(Qt::red, Qt::MaskOutColor);
QCOMPARE((uint) mask.toImage().pixel(0, 1), QColor(Qt::color0).rgba());
QCOMPARE((uint) inv_mask.toImage().pixel(0, 1), QColor(Qt::color1).rgba());
}
void tst_QPixmap::cacheKey()
{
QPixmap pixmap1(1, 1);
QPixmap pixmap2(1, 1);
qint64 pixmap1_key = pixmap1.cacheKey();
QVERIFY(pixmap1.cacheKey() != pixmap2.cacheKey());
pixmap2 = pixmap1;
QVERIFY(pixmap2.cacheKey() == pixmap1.cacheKey());
pixmap2.detach();
QVERIFY(pixmap2.cacheKey() != pixmap1.cacheKey());
QVERIFY(pixmap1.cacheKey() == pixmap1_key);
}
// Test drawing a bitmap on a pixmap.
void tst_QPixmap::drawBitmap()
{
QBitmap bitmap(10,10);
bitmap.fill(Qt::color1);
QPixmap pixmap(10,10);
QPainter painter2(&pixmap);
painter2.fillRect(0,0,10,10, QBrush(Qt::green));
painter2.setPen(Qt::red);
painter2.drawPixmap(0,0,10,10, bitmap);
painter2.end();
QPixmap expected(10, 10);
expected.fill(Qt::red);
QVERIFY(lenientCompare(pixmap, expected));
}
void tst_QPixmap::grabWidget()
{
for (int opaque = 0; opaque < 2; ++opaque) {
QWidget widget;
QImage image(128, 128, opaque ? QImage::Format_RGB32 : QImage::Format_ARGB32_Premultiplied);
for (int row = 0; row < image.height(); ++row) {
QRgb *line = reinterpret_cast<QRgb *>(image.scanLine(row));
for (int col = 0; col < image.width(); ++col)
line[col] = qRgba(rand() & 255, row, col, opaque ? 255 : 127);
}
QPalette pal = widget.palette();
pal.setBrush(QPalette::Window, QBrush(image));
widget.setPalette(pal);
widget.resize(128, 128);
QPixmap expected(64, 64);
if (!opaque)
expected.fill(Qt::transparent);
QPainter p(&expected);
p.translate(-64, -64);
p.drawTiledPixmap(0, 0, 128, 128, pal.brush(QPalette::Window).texture(), 0, 0);
p.end();
QPixmap actual = QPixmap::grabWidget(&widget, QRect(64, 64, 64, 64));
QVERIFY(lenientCompare(actual, expected));
actual = QPixmap::grabWidget(&widget, 64, 64);
QVERIFY(lenientCompare(actual, expected));
// Make sure a widget that is not yet shown is grabbed correctly.
QTreeWidget widget2;
actual = QPixmap::grabWidget(&widget2);
widget2.show();
expected = QPixmap::grabWidget(&widget2);
QVERIFY(lenientCompare(actual, expected));
}
}
void tst_QPixmap::grabWindow()
{
#ifdef Q_OS_WINCE
// We get out of memory, if the desktop itself is too big.
if (QApplication::desktop()->width() <= 480)
#endif
QVERIFY(QPixmap::grabWindow(QApplication::desktop()->winId()).isNull() == false);
QWidget w;
w.resize(640, 480);
w.show();
QTest::qWait(100);
#ifdef Q_WS_X11
qt_x11_wait_for_window_manager(&w);
#endif
QVERIFY(QPixmap::grabWindow(w.winId()).isNull() == false);
QWidget child(&w);
child.setGeometry(50, 50, 100, 100);
child.setPalette(Qt::red);
child.setAutoFillBackground(true);
child.show();
QTest::qWait(100);
#ifdef Q_WS_X11
qt_x11_wait_for_window_manager(&child);
#endif
QPixmap grabWindowPixmap = QPixmap::grabWindow(child.winId());
QPixmap grabWidgetPixmap = QPixmap::grabWidget(&child);
lenientCompare(grabWindowPixmap, grabWidgetPixmap);
}
void tst_QPixmap::isNull()
{
{
QPixmap pixmap(1,1);
QVERIFY(pixmap.isNull() == false);
}
{
QPixmap pixmap(0,0);
QVERIFY(pixmap.isNull());
}
{
QPixmap pixmap(0,1);
QVERIFY(pixmap.isNull());
}
{
QPixmap pixmap(1,0);
QVERIFY(pixmap.isNull());
}
{
QPixmap pixmap(-1,-1);
QVERIFY(pixmap.isNull());
}
{
QPixmap pixmap(-1,5);
QVERIFY(pixmap.isNull());
}
}
void tst_QPixmap::convertFromImageNoDetach()
{
QPixmap randomPixmap(10, 10);
if (randomPixmap.pixmapData()->classId() != QPixmapData::RasterClass)
QSKIP("Test only valid for raster pixmaps", SkipAll);
//first get the screen format
QImage::Format screenFormat = randomPixmap.toImage().format();
QVERIFY(screenFormat != QImage::Format_Invalid);
QImage orig(100,100, screenFormat);
QPixmap pix = QPixmap::fromImage(orig);
QImage copy = pix.toImage();
QVERIFY(copy.format() == screenFormat);
const QImage constOrig = orig;
const QImage constCopy = copy;
QVERIFY(constOrig.bits() == constCopy.bits());
}
void tst_QPixmap::convertFromImageDetach()
{
QImage img(10,10, QImage::Format_RGB32);
img.fill(0);
QVERIFY(!img.isNull());
QPixmap p = QPixmap::fromImage(img);
QVERIFY(p.isDetached());
QPixmap copy = p;
QVERIFY(!copy.isDetached());
QVERIFY(!p.isDetached());
img.fill(1);
p = QPixmap::fromImage(img);
QVERIFY(copy.isDetached());
}
#if defined(Q_WS_WIN)
void tst_QPixmap::toWinHBITMAP_data()
{
QTest::addColumn<int>("red");
QTest::addColumn<int>("green");
QTest::addColumn<int>("blue");
QTest::newRow("red") << 255 << 0 << 0;
QTest::newRow("green") << 0 << 255 << 0;
QTest::newRow("blue") << 0 << 0 << 255;
}
void tst_QPixmap::toWinHBITMAP()
{
QFETCH(int, red);
QFETCH(int, green);
QFETCH(int, blue);
QPixmap pm(100, 100);
pm.fill(QColor(red, green, blue));
HBITMAP bitmap = pm.toWinHBITMAP();
QVERIFY(bitmap != 0);
// Verify size
BITMAP bitmap_info;
memset(&bitmap_info, 0, sizeof(BITMAP));
int res = GetObject(bitmap, sizeof(BITMAP), &bitmap_info);
QVERIFY(res);
QCOMPARE(100, (int) bitmap_info.bmWidth);
QCOMPARE(100, (int) bitmap_info.bmHeight);
HDC display_dc = GetDC(0);
HDC bitmap_dc = CreateCompatibleDC(display_dc);
HBITMAP null_bitmap = (HBITMAP) SelectObject(bitmap_dc, bitmap);
COLORREF pixel = GetPixel(bitmap_dc, 0, 0);
QCOMPARE((int)GetRValue(pixel), red);
QCOMPARE((int)GetGValue(pixel), green);
QCOMPARE((int)GetBValue(pixel), blue);
// Clean up
SelectObject(bitmap_dc, null_bitmap);
DeleteObject(bitmap);
DeleteDC(bitmap_dc);
ReleaseDC(0, display_dc);
}
void tst_QPixmap::fromWinHBITMAP_data()
{
toWinHBITMAP_data();
}
void tst_QPixmap::fromWinHBITMAP()
{
QFETCH(int, red);
QFETCH(int, green);
QFETCH(int, blue);
HDC display_dc = GetDC(0);
HDC bitmap_dc = CreateCompatibleDC(display_dc);
HBITMAP bitmap = CreateCompatibleBitmap(display_dc, 100, 100);
SelectObject(bitmap_dc, bitmap);
SelectObject(bitmap_dc, GetStockObject(NULL_PEN));
HGDIOBJ old_brush = SelectObject(bitmap_dc, CreateSolidBrush(RGB(red, green, blue)));
Rectangle(bitmap_dc, 0, 0, 100, 100);
#ifdef Q_OS_WINCE //the device context has to be deleted before QPixmap::fromWinHBITMAP()
DeleteDC(bitmap_dc);
#endif
QPixmap pixmap = QPixmap::fromWinHBITMAP(bitmap);
QCOMPARE(pixmap.width(), 100);
QCOMPARE(pixmap.height(), 100);
QImage image = pixmap.toImage();
QRgb pixel = image.pixel(0, 0);
QCOMPARE(qRed(pixel), red);
QCOMPARE(qGreen(pixel), green);
QCOMPARE(qBlue(pixel), blue);
DeleteObject(SelectObject(bitmap_dc, old_brush));
DeleteObject(SelectObject(bitmap_dc, bitmap));
#ifndef Q_OS_WINCE
DeleteDC(bitmap_dc);
#endif
ReleaseDC(0, display_dc);
}
static void compareImages(const QImage &image1, const QImage &image2)
{
QCOMPARE(image1.width(), image2.width());
QCOMPARE(image1.height(), image2.height());
QCOMPARE(image1.format(), image2.format());
static const int fuzz = 1;
for (int y = 0; y < image1.height(); y++)
{
for (int x = 0; x < image2.width(); x++)
{
QRgb p1 = image1.pixel(x, y);
QRgb p2 = image2.pixel(x, y);
bool pixelMatches =
qAbs(qRed(p1) - qRed(p2)) <= fuzz
&& qAbs(qGreen(p1) - qGreen(p2)) <= fuzz
&& qAbs(qBlue(p1) - qBlue(p2)) <= fuzz
&& qAbs(qAlpha(p1) - qAlpha(p2)) <= fuzz;
QVERIFY(pixelMatches);
}
}
}
void tst_QPixmap::toWinHICON_data()
{
QTest::addColumn<QString>("image");
QTest::addColumn<int>("width");
QTest::addColumn<int>("height");
const QString prefix = QLatin1String(SRCDIR) + "/convertFromToHICON";
QTest::newRow("32bpp_16x16") << prefix + QLatin1String("/icon_32bpp") << 16 << 16;
QTest::newRow("32bpp_32x32") << prefix + QLatin1String("/icon_32bpp") << 32 << 32;
QTest::newRow("32bpp_48x48") << prefix + QLatin1String("/icon_32bpp") << 48 << 48;
QTest::newRow("32bpp_256x256") << prefix + QLatin1String("/icon_32bpp") << 256 << 256;
QTest::newRow("8bpp_16x16") << prefix + QLatin1String("/icon_8bpp") << 16 << 16;
QTest::newRow("8bpp_32x32") << prefix + QLatin1String("/icon_8bpp") << 32 << 32;
QTest::newRow("8bpp_48x48") << prefix + QLatin1String("/icon_8bpp") << 48 << 48;
}
void tst_QPixmap::toWinHICON()
{
#ifdef Q_OS_WINCE
QSKIP("Test shall be enabled for Windows CE shortly.", SkipAll);
#endif
QFETCH(int, width);
QFETCH(int, height);
QFETCH(QString, image);
QPixmap empty(width, height);
empty.fill(Qt::transparent);
HDC display_dc = GetDC(0);
HDC bitmap_dc = CreateCompatibleDC(display_dc);
HBITMAP bitmap = empty.toWinHBITMAP(QPixmap::Alpha);
SelectObject(bitmap_dc, bitmap);
QImage imageFromFile(image + QString(QLatin1String("_%1x%2.png")).arg(width).arg(height));
imageFromFile = imageFromFile.convertToFormat(QImage::Format_ARGB32_Premultiplied);
HICON icon = QPixmap::fromImage(imageFromFile).toWinHICON();
DrawIconEx(bitmap_dc, 0, 0, icon, width, height, 0, 0, DI_NORMAL);
DestroyIcon(icon);
DeleteDC(bitmap_dc);
QImage imageFromHICON = QPixmap::fromWinHBITMAP(bitmap, QPixmap::Alpha).toImage();
ReleaseDC(0, display_dc);
// fuzzy comparison must be used, as the pixel values change slightly during conversion
// between QImage::Format_ARGB32 and QImage::Format_ARGB32_Premultiplied, or elsewhere
// QVERIFY(imageFromHICON == imageFromFile);
compareImages(imageFromHICON, imageFromFile);
}
void tst_QPixmap::fromWinHICON_data()
{
toWinHICON_data();
}
void tst_QPixmap::fromWinHICON()
{
#ifdef Q_OS_WINCE
QSKIP("Test shall be enabled for Windows CE shortly.", SkipAll);
#else
QFETCH(int, width);
QFETCH(int, height);
QFETCH(QString, image);
HICON icon = (HICON)LoadImage(0, (wchar_t*)(image + QLatin1String(".ico")).utf16(), IMAGE_ICON, width, height, LR_LOADFROMFILE);
QImage imageFromHICON = QPixmap::fromWinHICON(icon).toImage();
DestroyIcon(icon);
QImage imageFromFile(image + QString(QLatin1String("_%1x%2.png")).arg(width).arg(height));
imageFromFile = imageFromFile.convertToFormat(QImage::Format_ARGB32_Premultiplied);
// fuzzy comparison must be used, as the pixel values change slightly during conversion
// between QImage::Format_ARGB32 and QImage::Format_ARGB32_Premultiplied, or elsewhere
// QVERIFY(imageFromHICON == imageFromFile);
compareImages(imageFromHICON, imageFromFile);
#endif
}
#endif // Q_WS_WIN
#if defined(Q_OS_SYMBIAN)
Q_DECLARE_METATYPE(TDisplayMode)
void tst_QPixmap::fromSymbianCFbsBitmap_data()
{
QTest::addColumn<TDisplayMode>("format");
QTest::addColumn<int>("width");
QTest::addColumn<int>("height");
QTest::addColumn<QColor>("color");
const int smallWidth = 20;
const int smallHeight = 20;
const int largeWidth = 240;
const int largeHeight = 320;
const int notAlignedWidth = 250;
const int notAlignedHeight = 250;
// Indexed Color Formats - Disabled since images seem to be blank -> no palette?
// QTest::newRow("EGray2 small") << EGray2 << smallWidth << smallHeight << QColor(Qt::black);
// QTest::newRow("EGray2 big") << EGray2 << largeWidth << largeHeight << QColor(Qt::black);
// QTest::newRow("EGray256 small") << EGray256 << smallWidth << smallHeight << QColor(Qt::blue);
// QTest::newRow("EGray256 big") << EGray256 << largeWidth << largeHeight << QColor(Qt::blue);
// QTest::newRow("EColor256 small") << EColor256 << smallWidth << smallHeight << QColor(Qt::red);
// QTest::newRow("EColor256 big") << EColor256 << largeWidth << largeHeight << QColor(Qt::red);
// Direct Color Formats
QTest::newRow("EColor4K small") << EColor4K << smallWidth << smallHeight << QColor(Qt::red);
QTest::newRow("EColor4K big") << EColor4K << largeWidth << largeHeight << QColor(Qt::red);
QTest::newRow("EColor4K not aligned") << EColor4K << notAlignedWidth << notAlignedHeight << QColor(Qt::red);
QTest::newRow("EColor64K small") << EColor64K << smallWidth << smallHeight << QColor(Qt::green);
QTest::newRow("EColor64K big") << EColor64K << largeWidth << largeHeight << QColor(Qt::green);
QTest::newRow("EColor64K not aligned") << EColor64K << notAlignedWidth << notAlignedHeight << QColor(Qt::green);
QTest::newRow("EColor16M small") << EColor16M << smallWidth << smallHeight << QColor(Qt::yellow);
QTest::newRow("EColor16M big") << EColor16M << largeWidth << largeHeight << QColor(Qt::yellow);
QTest::newRow("EColor16M not aligned") << EColor16M << notAlignedWidth << notAlignedHeight << QColor(Qt::yellow);
QTest::newRow("EColor16MU small") << EColor16MU << smallWidth << smallHeight << QColor(Qt::red);
QTest::newRow("EColor16MU big") << EColor16MU << largeWidth << largeHeight << QColor(Qt::red);
QTest::newRow("EColor16MU not aligned") << EColor16MU << notAlignedWidth << notAlignedHeight << QColor(Qt::red);
QTest::newRow("EColor16MA small opaque") << EColor16MA << smallWidth << smallHeight << QColor(255, 255, 0);
QTest::newRow("EColor16MA big opaque") << EColor16MA << largeWidth << largeHeight << QColor(255, 255, 0);
QTest::newRow("EColor16MA not aligned opaque") << EColor16MA << notAlignedWidth << notAlignedHeight << QColor(255, 255, 0);
// Semi-transparent Colors - Disabled for now, since the QCOMPARE fails, but visually confirmed to work
// QTest::newRow("EColor16MA small semi") << EColor16MA << smallWidth << smallHeight << QColor(255, 255, 0, 127);
// QTest::newRow("EColor16MA big semi") << EColor16MA << largeWidth << largeHeight << QColor(255, 255, 0, 127);
// QTest::newRow("EColor16MA small trans") << EColor16MA << smallWidth << smallHeight << QColor(255, 255, 0, 0);
// QTest::newRow("EColor16MA big trans") << EColor16MA << largeWidth << largeHeight << QColor(255, 255, 0, 0);
#if !defined(__SERIES60_31__)
QTest::newRow("EColor16MAP small") << EColor16MAP << smallWidth << smallHeight << QColor(Qt::red);
QTest::newRow("EColor16MAP big") << EColor16MAP << largeWidth << largeHeight << QColor(Qt::red);
#endif
}
void tst_QPixmap::fromSymbianCFbsBitmap()
{
QFETCH(TDisplayMode, format);
QFETCH(int, width);
QFETCH(int, height);
QFETCH(QColor, color);
int expectedDepth = TDisplayModeUtils::NumDisplayModeBitsPerPixel(format);
CFbsBitmap *nativeBitmap = 0;
CFbsBitmapDevice *bitmapDevice = 0;
CBitmapContext *bitmapContext = 0;
nativeBitmap = new (ELeave) CFbsBitmap();
TInt err = nativeBitmap->Create(TSize(width, height), format);
CleanupStack::PushL(nativeBitmap);
QVERIFY(err == KErrNone);
bitmapDevice = CFbsBitmapDevice::NewL(nativeBitmap);
CleanupStack::PushL(bitmapDevice);
err = bitmapDevice->CreateBitmapContext(bitmapContext);
CleanupStack::PushL(bitmapContext);
QVERIFY(err == KErrNone);
TRgb symbianColor = TRgb(color.red(), color.green(), color.blue(), color.alpha());
bitmapContext->SetBrushColor(symbianColor);
bitmapContext->Clear();
__UHEAP_MARK;
{ // Test the null case
CFbsBitmap *bitmap = 0;
QPixmap pixmap = QPixmap::fromSymbianCFbsBitmap(bitmap);
QVERIFY(pixmap.isNull());
}
__UHEAP_MARKEND;
__UHEAP_MARK;
{ // Test the normal case
QPixmap pixmap = QPixmap::fromSymbianCFbsBitmap(nativeBitmap);
// QCOMPARE(pixmap.depth(), expectedDepth); // Depth is not preserved now
QCOMPARE(pixmap.width(), width);
QCOMPARE(pixmap.height(), height);
QImage image = pixmap.toImage();
QColor actualColor(image.pixel(1, 1));
QCOMPARE(actualColor, color);
QImage shouldBe(pixmap.width(), pixmap.height(), image.format());
if (image.format() == QImage::Format_RGB16)
shouldBe.fill(qrgb565(color.rgba()).rawValue());
else
shouldBe.fill(color.rgba());
QCOMPARE(image, shouldBe);
}
__UHEAP_MARKEND;
CleanupStack::PopAndDestroy(3);
}
void tst_QPixmap::toSymbianCFbsBitmap_data()
{
QTest::addColumn<int>("red");
QTest::addColumn<int>("green");
QTest::addColumn<int>("blue");
QTest::newRow("red") << 255 << 0 << 0;
QTest::newRow("green") << 0 << 255 << 0;
QTest::newRow("blue") << 0 << 0 << 255;
}
void tst_QPixmap::toSymbianCFbsBitmap()
{
QFETCH(int, red);
QFETCH(int, green);
QFETCH(int, blue);
QPixmap pm(100, 100);
pm.fill(QColor(red, green, blue));
CFbsBitmap *bitmap = pm.toSymbianCFbsBitmap();
QVERIFY(bitmap != 0);
// Verify size
QCOMPARE(100, (int) bitmap->SizeInPixels().iWidth);
QCOMPARE(100, (int) bitmap->SizeInPixels().iHeight);
// Verify pixel color
TRgb pixel;
bitmap->GetPixel(pixel, TPoint(0,0));
QCOMPARE((int)pixel.Red(), red);
QCOMPARE((int)pixel.Green(), green);
QCOMPARE((int)pixel.Blue(), blue);
// Clean up
delete bitmap;
}
#endif
void tst_QPixmap::onlyNullPixmapsOutsideGuiThread()
{
#if !defined(Q_WS_WIN)
class Thread : public QThread
{
public:
void run()
{
QTest::ignoreMessage(QtWarningMsg,
"QPixmap: It is not safe to use pixmaps outside the GUI thread");
QPixmap pixmap;
QVERIFY(pixmap.isNull());
QTest::ignoreMessage(QtWarningMsg,
"QPixmap: It is not safe to use pixmaps outside the GUI thread");
QPixmap pixmap1(100, 100);
QVERIFY(pixmap1.isNull());
QTest::ignoreMessage(QtWarningMsg,
"QPixmap: It is not safe to use pixmaps outside the GUI thread");
QPixmap pixmap2(pixmap1);
QVERIFY(pixmap2.isNull());
}
};
Thread thread;
#if defined(Q_OS_SYMBIAN)
thread.setStackSize(0x10000);
#endif
thread.start();
#if defined(Q_OS_SYMBIAN)
QVERIFY(thread.wait(10000));
#else
thread.wait();
#endif
#endif // !defined(Q_WS_WIN)
}
void tst_QPixmap::refUnref()
{
// Simple ref/unref
{
QPixmap p;
}
{
QBitmap b;
}
// Get a copy of a pixmap that goes out of scope
{
QPixmap b;
{
QPixmap a(10, 10);
a.fill(Qt::color0);
b = a;
}
}
{
QBitmap mask;
{
QBitmap bitmap(10, 10);
bitmap.fill(Qt::color1);
mask = bitmap.mask();
}
mask.fill(Qt::color0);
}
}
void tst_QPixmap::copy()
{
QPixmap src(32, 32);
{
QPainter p(&src);
p.fillRect(0, 0, 32, 32, Qt::red);
p.fillRect(10, 10, 10, 10, Qt::blue);
}
QPixmap dest = src.copy(10, 10, 10, 10);
QPixmap expected(10, 10);
expected.fill(Qt::blue);
QVERIFY(lenientCompare(dest, expected));
QPixmap trans;
trans.fill(Qt::transparent);
QPixmap transCopy = trans.copy();
QVERIFY(pixmapsAreEqual(&trans, &transCopy));
}
#ifdef QT3_SUPPORT
void tst_QPixmap::resize()
{
QPixmap p1(10, 10);
p1.fill(Qt::red);
QPixmap p2 = p1;
QPixmap p3(50, 50);
p3.fill(Qt::red);
p1.resize(p3.size());
p1.resize(p2.size());
p3.resize(p2.size());
QCOMPARE(p1.toImage(), p2.toImage());
QCOMPARE(p1.toImage(), p3.toImage());
QBitmap b1;
b1.resize(10, 10);
QVERIFY(b1.depth() == 1);
QPixmap p4;
p4.resize(10, 10);
QVERIFY(p4.depth() != 0);
}
void tst_QPixmap::resizePreserveMask()
{
QPixmap pm(100, 100);
pm.fill(Qt::transparent);
QPainter p(&pm);
p.fillRect(10, 10, 80, 80, Qt::red);
p.drawRect(0, 0, 99, 99);
p.end();
QBitmap mask = pm.mask();
pm.resize(50, 50);
QCOMPARE(pm.mask().toImage(), mask.toImage().copy(0, 0, 50, 50));
pm = QPixmap(100, 100);
pm.fill(Qt::red);
pm.setMask(mask);
pm.resize(50, 50);
QCOMPARE(pm.mask().toImage(), mask.toImage().copy(0, 0, 50, 50));
}
#endif
void tst_QPixmap::depthOfNullObjects()
{
QBitmap b1;
QVERIFY(b1.depth() == 0);
QPixmap p4;
QVERIFY(p4.depth() == 0);
}
void tst_QPixmap::transformed()
{
QPixmap p1(20, 10);
p1.fill(Qt::red);
{
QPainter p(&p1);
p.drawRect(0, 0, p1.width() - 1, p1.height() - 1);
}
QPixmap p2(10, 20);
{
QPainter p(&p2);
p.rotate(90);
p.drawPixmap(0, -p1.height(), p1);
}
QPixmap p3(20, 10);
{
QPainter p(&p3);
p.rotate(180);
p.drawPixmap(-p1.width(), -p1.height(), p1);
}
QPixmap p4(10, 20);
{
QPainter p(&p4);
p.rotate(270);
p.drawPixmap(-p1.width(), 0, p1);
}
QPixmap p1_90 = p1.transformed(QTransform().rotate(90));
QPixmap p1_180 = p1.transformed(QTransform().rotate(180));
QPixmap p1_270 = p1.transformed(QTransform().rotate(270));
QVERIFY(lenientCompare(p1_90, p2));
QVERIFY(lenientCompare(p1_180, p3));
QVERIFY(lenientCompare(p1_270, p4));
}
void tst_QPixmap::transformed2()
{
QPixmap pm(3, 3);
pm.fill(Qt::red);
QPainter p(&pm);
p.fillRect(0, 0, 3, 3, QBrush(Qt::Dense4Pattern));
p.end();
QTransform transform;
transform.rotate(-90);
transform.scale(3, 3);
QPixmap actual = pm.transformed(transform);
QPixmap expected(9, 9);
expected.fill(Qt::red);
p.begin(&expected);
p.setBrush(Qt::black);
p.setPen(Qt::NoPen);
p.drawRect(3, 0, 3, 3);
p.drawRect(0, 3, 3, 3);
p.drawRect(6, 3, 3, 3);
p.drawRect(3, 6, 3, 3);
p.end();
QVERIFY(lenientCompare(actual, expected));
}
void tst_QPixmap::fromImage_crash()
{
QImage *img = new QImage(64, 64, QImage::Format_ARGB32_Premultiplied);
QPixmap pm = QPixmap::fromImage(*img);
QPainter painter(&pm);
delete img;
}
//This is testing QPixmapData::createCompatiblePixmapData - see QTBUG-5977
void tst_QPixmap::splash_crash()
{
QPixmap pix;
pix = QPixmap(":/images/designer.png");
QSplashScreen splash(pix);
splash.show();
QCoreApplication::processEvents();
splash.close();
}
void tst_QPixmap::fromData()
{
unsigned char bits[] = { 0xaa, 0x55 };
QBitmap bm = QBitmap::fromData(QSize(8, 2), bits);
QImage img = bm.toImage();
QSet<QRgb> colors;
for (int y = 0; y < img.height(); ++y)
for (int x = 0; x < img.width(); ++x)
colors << img.pixel(x, y);
QCOMPARE(colors.size(), 2);
QCOMPARE(img.pixel(0, 0), QRgb(0xffffffff));
QCOMPARE(img.pixel(0, 1), QRgb(0xff000000));
}
void tst_QPixmap::loadFromDataNullValues()
{
{
QPixmap pixmap;
pixmap.loadFromData(QByteArray());
QVERIFY(pixmap.isNull());
}
{
QPixmap pixmap;
pixmap.loadFromData(0, 123);
QVERIFY(pixmap.isNull());
}
{
QPixmap pixmap;
const uchar bla[] = "bla";
pixmap.loadFromData(bla, 0);
QVERIFY(pixmap.isNull());
}
}
void tst_QPixmap::loadFromDataImage_data()
{
QTest::addColumn<QString>("imagePath");
#ifdef Q_OS_SYMBIAN
const QString prefix = QLatin1String(SRCDIR) + "loadFromData";
#else
const QString prefix = QLatin1String(SRCDIR) + "/loadFromData";
#endif
QTest::newRow("designer_argb32.png") << prefix + "/designer_argb32.png";
// When no extension is provided we try all extensions that has been registered by image providers
QTest::newRow("designer_argb32") << prefix + "/designer_argb32.png";
QTest::newRow("designer_indexed8_no_alpha.png") << prefix + "/designer_indexed8_no_alpha.png";
QTest::newRow("designer_indexed8_with_alpha.png") << prefix + "/designer_indexed8_with_alpha.png";
QTest::newRow("designer_rgb32.png") << prefix + "/designer_rgb32.png";
QTest::newRow("designer_indexed8_no_alpha.gif") << prefix + "/designer_indexed8_no_alpha.gif";
QTest::newRow("designer_indexed8_with_alpha.gif") << prefix + "/designer_indexed8_with_alpha.gif";
QTest::newRow("designer_rgb32.jpg") << prefix + "/designer_rgb32.jpg";
}
void tst_QPixmap::loadFromDataImage()
{
QFETCH(QString, imagePath);
QImage imageRef(imagePath);
QPixmap pixmapWithCopy = QPixmap::fromImage(imageRef);
QFile file(imagePath);
file.open(QIODevice::ReadOnly);
QByteArray rawData = file.readAll();
QPixmap directLoadingPixmap;
directLoadingPixmap.loadFromData(rawData);
QVERIFY(pixmapsAreEqual(&pixmapWithCopy, &directLoadingPixmap));
}
void tst_QPixmap::fromImageReader_data()
{
QTest::addColumn<QString>("imagePath");
#ifdef Q_OS_SYMBIAN
const QString prefix = QLatin1String(SRCDIR) + "loadFromData";
#else
const QString prefix = QLatin1String(SRCDIR) + "/loadFromData";
#endif
QTest::newRow("designer_argb32.png") << prefix + "/designer_argb32.png";
QTest::newRow("designer_indexed8_no_alpha.png") << prefix + "/designer_indexed8_no_alpha.png";
QTest::newRow("designer_indexed8_with_alpha.png") << prefix + "/designer_indexed8_with_alpha.png";
QTest::newRow("designer_rgb32.png") << prefix + "/designer_rgb32.png";
QTest::newRow("designer_indexed8_no_alpha.gif") << prefix + "/designer_indexed8_no_alpha.gif";
QTest::newRow("designer_indexed8_with_alpha.gif") << prefix + "/designer_indexed8_with_alpha.gif";
QTest::newRow("designer_rgb32.jpg") << prefix + "/designer_rgb32.jpg";
QTest::newRow("designer_indexed8_with_alpha_animated") << prefix + "/designer_indexed8_with_alpha_animated.gif";
QTest::newRow("designer_indexed8_with_alpha_animated") << prefix + "/designer_indexed8_no_alpha_animated.gif";
}
void tst_QPixmap::fromImageReader()
{
QFETCH(QString, imagePath);
QImage imageRef(imagePath);
QPixmap pixmapWithCopy = QPixmap::fromImage(imageRef);
QImageReader imageReader(imagePath);
QPixmap directLoadingPixmap = QPixmap::fromImageReader(&imageReader);
QVERIFY(pixmapsAreEqual(&pixmapWithCopy, &directLoadingPixmap));
}
void tst_QPixmap::fromImageReaderAnimatedGif_data()
{
QTest::addColumn<QString>("imagePath");
QTest::newRow("gif with alpha") << QString::fromLatin1("/designer_indexed8_with_alpha_animated.gif");
QTest::newRow("gif without alpha") << QString::fromLatin1("/designer_indexed8_no_alpha_animated.gif");
}
void tst_QPixmap::fromImageReaderAnimatedGif()
{
QFETCH(QString, imagePath);
#ifdef Q_OS_SYMBIAN
const QString prefix = QLatin1String(SRCDIR) + "loadFromData";
#else
const QString prefix = QLatin1String(SRCDIR) + "/loadFromData";
#endif
const QString path = prefix + imagePath;
QImageReader referenceReader(path);
QImageReader pixmapReader(path);
Q_ASSERT(referenceReader.canRead());
Q_ASSERT(referenceReader.imageCount() > 1);
for (int i = 0; i < referenceReader.imageCount(); ++i) {
QImage refImage = referenceReader.read();
QPixmap refPixmap = QPixmap::fromImage(refImage);
QPixmap directLoadingPixmap = QPixmap::fromImageReader(&pixmapReader);
QVERIFY(pixmapsAreEqual(&refPixmap, &directLoadingPixmap));
}
}
void tst_QPixmap::task_246446()
{
// This crashed without the bugfix in 246446
QPixmap pm(10, 10);
pm.fill(Qt::transparent); // force 32-bit depth
QBitmap bm;
pm.setMask(bm);
{
QPixmap pm2(pm);
}
QVERIFY(pm.width() == 10);
QVERIFY(pm.mask().isNull());
}
void tst_QPixmap::preserveDepth()
{
QPixmap target(64, 64);
target.fill(Qt::transparent);
QPixmap source(64, 64);
source.fill(Qt::white);
int depth = source.depth();
QPainter painter(&target);
painter.setBrush(source);
painter.drawRect(target.rect());
painter.end();
QCOMPARE(depth, source.depth());
}
void tst_QPixmap::loadAsBitmapOrPixmap()
{
QImage tmp(10, 10, QImage::Format_RGB32);
tmp.save("temp_image.png");
bool ok;
// Check that we can load the pixmap as a pixmap and that it then turns into a pixmap
QPixmap pixmap("temp_image.png");
QVERIFY(!pixmap.isNull());
QVERIFY(pixmap.depth() > 1);
QVERIFY(!pixmap.isQBitmap());
pixmap = QPixmap();
ok = pixmap.load("temp_image.png");
QVERIFY(ok);
QVERIFY(!pixmap.isNull());
QVERIFY(pixmap.depth() > 1);
QVERIFY(!pixmap.isQBitmap());
//now we can try to load it without an extension
pixmap = QPixmap();
ok = pixmap.load("temp_image");
QVERIFY(ok);
QVERIFY(!pixmap.isNull());
QVERIFY(pixmap.depth() > 1);
QVERIFY(!pixmap.isQBitmap());
// The do the same check for bitmaps..
QBitmap bitmap("temp_image.png");
QVERIFY(!bitmap.isNull());
QVERIFY(bitmap.depth() == 1);
QVERIFY(bitmap.isQBitmap());
bitmap = QBitmap();
ok = bitmap.load("temp_image.png");
QVERIFY(ok);
QVERIFY(!bitmap.isNull());
QVERIFY(bitmap.depth() == 1);
QVERIFY(bitmap.isQBitmap());
}
void tst_QPixmap::toImageDeepCopy()
{
QPixmap pixmap(64, 64);
pixmap.fill(Qt::white);
QPainter painter(&pixmap);
QImage first = pixmap.toImage();
painter.setBrush(Qt::black);
painter.drawEllipse(pixmap.rect());
QImage second = pixmap.toImage();
QVERIFY(first != second);
}
#if defined(Q_OS_SYMBIAN) && !defined(QT_NO_OPENVG)
Q_OPENVG_EXPORT VGImage qPixmapToVGImage(const QPixmap& pixmap);
class FriendlyVGPixmapData : public QVGPixmapData
{
public:
FriendlyVGPixmapData(PixelType type) : QVGPixmapData(type) { }
bool sourceIsNull() { return source.isNull(); }
friend QPixmap pixmapFromVGImage(VGImage image);
};
QPixmap pixmapFromVGImage(VGImage image)
{
if (image != VG_INVALID_HANDLE) {
int w = vgGetParameteri(image, VG_IMAGE_WIDTH);
int h = vgGetParameteri(image, VG_IMAGE_HEIGHT);
FriendlyVGPixmapData *pd = new FriendlyVGPixmapData(QPixmapData::PixmapType);
pd->resize(w, h);
pd->vgImage = image;
pd->recreate = false;
pd->prevSize = QSize(pd->w, pd->h);
return QPixmap(pd);
}
return QPixmap();
}
class Content : public QWidget
{
public:
void paintEvent(QPaintEvent *) {
QPainter painter(this);
QColor testPixel(qRgb(200, 150, 100));
if (pm.isNull()) { // first phase: create a VGImage
painter.beginNativePainting();
vgimage = vgCreateImage(VG_sARGB_8888_PRE, w, h, VG_IMAGE_QUALITY_FASTER);
QImage img(20, 10, QImage::Format_ARGB32_Premultiplied);
img.fill(qRgb(0, 0, 0));
QPainter p(&img);
p.fillRect(0, 0, img.width(), img.height(), testPixel);
p.end();
vgImageSubData(vgimage, img.bits(), img.bytesPerLine(), VG_sARGB_8888_PRE, 0, 0, img.width(), img.height());
// Now the area 0,0 20x10 (in OpenVG coords) is filled with some color.
painter.endNativePainting();
} else { // second phase: check if readback works
painter.drawPixmap(0, 0, pm);
// Drawing should not cause readback, this is important for performance;
noreadback_ok = static_cast<FriendlyVGPixmapData *>(pm.pixmapData())->sourceIsNull();
// However toImage() requires readback.
QImage img = pm.toImage();
readback_ok = img.width() == pm.width();
readback_ok &= img.height() == pm.height();
readback_ok &= !static_cast<FriendlyVGPixmapData *>(pm.pixmapData())->sourceIsNull();
uint pix = img.pixel(1, 1);
content_ok = qRed(pix) == testPixel.red();
content_ok &= qGreen(pix) == testPixel.green();
content_ok &= qBlue(pix) == testPixel.blue();
pix = img.pixel(img.width() - 1, img.height() - 1);
content_ok &= qRed(pix) == 0;
content_ok &= qGreen(pix) == 0;
content_ok &= qBlue(pix) == 0;
}
}
int w;
int h;
VGImage vgimage;
QPixmap pm;
bool noreadback_ok;
bool readback_ok;
bool content_ok;
};
void tst_QPixmap::vgImageReadBack()
{
QPixmap tmp(10, 20);
if (tmp.pixmapData()->classId() == QPixmapData::OpenVGClass) {
Content c;
c.w = 50;
c.h = 60;
c.vgimage = VG_INVALID_HANDLE;
c.noreadback_ok = c.readback_ok = c.content_ok = false;
c.showFullScreen();
QTest::qWaitForWindowShown(&c);
QVERIFY(c.vgimage != VG_INVALID_HANDLE);
QPixmap pm = pixmapFromVGImage(c.vgimage);
QVERIFY(!pm.isNull());
QCOMPARE(pm.width(), c.w);
QCOMPARE(pm.height(), c.h);
QVERIFY(qPixmapToVGImage(pm) == c.vgimage);
QVERIFY(static_cast<FriendlyVGPixmapData *>(pm.pixmapData())->sourceIsNull());
c.pm = pm;
// Make sure the second phase in paintEvent is executed too.
c.hide();
c.showFullScreen();
QTest::qWaitForWindowShown(&c);
QVERIFY(c.noreadback_ok);
QVERIFY(c.readback_ok);
QVERIFY(c.content_ok);
} else {
QSKIP("Not using openvg graphicssystem", SkipSingle);
}
}
#endif // Symbian & OpenVG
QTEST_MAIN(tst_QPixmap)
#include "tst_qpixmap.moc"