qt5base-lts/tests/auto/gui/kernel/qguivariant/test/tst_qguivariant.cpp
Friedemann Kleint 2b401796c7 tst_qguivariant: Fix warnings about double / float conversion.
warning C4305: 'argument' : truncation from 'double ' to 'float'

Change-Id: If9bf2f79592d305e767d2a8c38e577c5dff51129
Reviewed-by: Mitch Curtis <mitch.curtis@digia.com>
2013-06-08 10:29:34 +02:00

699 lines
22 KiB
C++

/****************************************************************************
**
** Copyright (C) 2013 Digia Plc and/or its subsidiary(-ies).
** Contact: http://www.qt-project.org/legal
**
** This file is part of the test suite of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and Digia. For licensing terms and
** conditions see http://qt.digia.com/licensing. For further information
** use the contact form at http://qt.digia.com/contact-us.
**
** 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.
**
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** rights. These rights are described in the Digia Qt LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** 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.
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** $QT_END_LICENSE$
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****************************************************************************/
#include <QtTest/QtTest>
#include <qvariant.h>
#include <qkeysequence.h>
#include <qbitmap.h>
#include <qcursor.h>
#include <qimage.h>
#include <qicon.h>
#include <qmatrix.h>
#include <qmatrix4x4.h>
#include <qpen.h>
#include <qpolygon.h>
#include <qpalette.h>
#include <qtransform.h>
#include <qvector2d.h>
#include <qvector3d.h>
#include <qvector4d.h>
#include <qquaternion.h>
#include <qtextdocument.h>
#include <qtextformat.h>
#include <qfont.h>
#include "tst_qvariant_common.h"
#include "../../../../qtest-config.h"
class tst_QGuiVariant : public QObject
{
Q_OBJECT
private slots:
void constructor_invalid_data();
void constructor_invalid();
void canConvert_data();
void canConvert();
void toInt_data();
void toInt();
void toFont_data();
void toFont();
void toKeySequence_data();
void toKeySequence();
void toString_data();
void toString();
void toColor_data();
void toColor();
void toPixmap_data();
void toPixmap();
void toImage_data();
void toImage();
void toBrush_data();
void toBrush();
void matrix();
void transform();
void matrix4x4();
void vector2D();
void vector3D();
void vector4D();
void quaternion();
void writeToReadFromDataStream_data();
void writeToReadFromDataStream();
void colorInteger();
void invalidQColor();
void debugStream_data();
void debugStream();
void implicitConstruction();
void guiVariantAtExit();
};
void tst_QGuiVariant::constructor_invalid_data()
{
QTest::addColumn<uint>("typeId");
QTest::newRow("LastGuiType + 1") << uint(QMetaType::LastGuiType + 1);
QVERIFY(!QMetaType::isRegistered(QMetaType::LastGuiType + 1));
QTest::newRow("LastWidgetsType + 1") << uint(QMetaType::LastWidgetsType + 1);
QVERIFY(!QMetaType::isRegistered(QMetaType::LastWidgetsType + 1));
}
void tst_QGuiVariant::constructor_invalid()
{
QFETCH(uint, typeId);
{
MessageHandlerInvalidType msg;
QVariant variant(static_cast<QVariant::Type>(typeId));
QVERIFY(!variant.isValid());
QVERIFY(variant.userType() == QMetaType::UnknownType);
QVERIFY(msg.ok);
}
{
MessageHandlerInvalidType msg;
QVariant variant(typeId, /* copy */ 0);
QVERIFY(!variant.isValid());
QVERIFY(variant.userType() == QMetaType::UnknownType);
QVERIFY(msg.ok);
}
}
void tst_QGuiVariant::canConvert_data()
{
TST_QVARIANT_CANCONVERT_DATATABLE_HEADERS
#ifdef Y
#undef Y
#endif
#ifdef N
#undef N
#endif
#define Y true
#define N false
QVariant var;
// bita bitm bool brsh byta col curs date dt dbl font img int inv kseq list ll map pal pen pix pnt rect reg size sp str strl time uint ull
var = QVariant::fromValue(QBitmap());
QTest::newRow("Bitmap")
<< var << N << Y << N << N << N << N << N << N << N << N << N << Y << N << N << N << N << N << N << N << N << Y << N << N << N << N << N << N << N << N << N << N;
var = QVariant::fromValue(QBrush());
QTest::newRow("Brush")
<< var << N << N << N << Y << N << Y << N << N << N << N << N << N << N << N << N << N << N << N << N << N << Y << N << N << N << N << N << N << N << N << N << N;
var = QVariant::fromValue(QColor());
QTest::newRow("Color")
<< var << N << N << N << Y << Y << Y << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << Y << N << N << N << N;
#ifndef QTEST_NO_CURSOR
var = QVariant::fromValue(QCursor());
QTest::newRow("Cursor")
<< var << N << N << N << N << N << N << Y << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N;
#endif
var = QVariant::fromValue(QFont());
QTest::newRow("Font")
<< var << N << N << N << N << N << N << N << N << N << N << Y << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << Y << N << N << N << N;
var = QVariant::fromValue(QIcon());
QTest::newRow("Icon")
<< var << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N;
var = QVariant::fromValue(QImage());
QTest::newRow("Image")
<< var << N << Y << N << N << N << N << N << N << N << N << N << Y << N << N << N << N << N << N << N << N << Y << N << N << N << N << N << N << N << N << N << N;
var = QVariant::fromValue(QKeySequence());
QTest::newRow("KeySequence")
<< var << N << N << N << N << N << N << N << N << N << N << N << N << Y << N << Y << N << N << N << N << N << N << N << N << N << N << N << Y << N << N << N << N;
var = QVariant::fromValue(QPalette());
QTest::newRow("Palette")
<< var << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << Y << N << N << N << N << N << N << N << N << N << N << N << N;
var = QVariant::fromValue(QPen());
QTest::newRow("Pen")
<< var << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << Y << N << N << N << N << N << N << N << N << N << N << N;
var = QVariant::fromValue(QPixmap());
QTest::newRow("Pixmap")
<< var << N << Y << N << Y << N << N << N << N << N << N << N << Y << N << N << N << N << N << N << N << N << Y << N << N << N << N << N << N << N << N << N << N;
var = QVariant::fromValue(QPolygon());
QTest::newRow("PointArray")
<< var << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N;
var = QVariant::fromValue(QRegion());
QTest::newRow("Region")
<< var << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << N << Y << N << N << N << N << N << N << N;
#undef N
#undef Y
}
void tst_QGuiVariant::canConvert()
{
TST_QVARIANT_CANCONVERT_FETCH_DATA
TST_QVARIANT_CANCONVERT_COMPARE_DATA
}
void tst_QGuiVariant::toInt_data()
{
QTest::addColumn<QVariant>("value");
QTest::addColumn<int>("result");
QTest::addColumn<bool>("valueOK");
QTest::newRow( "keysequence" ) << QVariant::fromValue( QKeySequence( Qt::Key_A ) ) << 65 << true;
}
void tst_QGuiVariant::toInt()
{
QFETCH( QVariant, value );
QFETCH( int, result );
QFETCH( bool, valueOK );
QVERIFY( value.isValid() == value.canConvert( QVariant::Int ) );
bool ok;
int i = value.toInt( &ok );
QCOMPARE( i, result );
QVERIFY( ok == valueOK );
}
void tst_QGuiVariant::toColor_data()
{
QTest::addColumn<QVariant>("value");
QTest::addColumn<QColor>("result");
QColor c("red");
QTest::newRow( "string" ) << QVariant( QString( "red" ) ) << c;
QTest::newRow( "solid brush" ) << QVariant( QBrush(c) ) << c;
}
void tst_QGuiVariant::toColor()
{
QFETCH( QVariant, value );
QFETCH( QColor, result );
QVERIFY( value.isValid() );
QVERIFY( value.canConvert( QVariant::Color ) );
QColor d = qvariant_cast<QColor>(value);
QCOMPARE( d, result );
}
void tst_QGuiVariant::toPixmap_data()
{
QTest::addColumn<QVariant>("value");
QTest::addColumn<QPixmap>("result");
QPixmap pm(30, 30);
pm.fill(Qt::red);
QTest::newRow( "image" ) << QVariant( pm ) << pm;
QBitmap bm(30, 30);
bm.fill(Qt::color1);
QTest::newRow( "bitmap" ) << QVariant( bm ) << QPixmap(bm);
}
void tst_QGuiVariant::toPixmap()
{
QFETCH( QVariant, value );
QFETCH( QPixmap, result );
QVERIFY( value.isValid() );
QVERIFY( value.canConvert( QVariant::Pixmap ) );
QPixmap d = qvariant_cast<QPixmap>(value);
QCOMPARE( d, result );
}
void tst_QGuiVariant::toImage_data()
{
QTest::addColumn<QVariant>("value");
QTest::addColumn<QImage>("result");
QImage im(30, 30, QImage::Format_ARGB32);
im.fill(0x7fff0000);
QTest::newRow( "image" ) << QVariant( im ) << im;
}
void tst_QGuiVariant::toImage()
{
QFETCH( QVariant, value );
QFETCH( QImage, result );
QVERIFY( value.isValid() );
QVERIFY( value.canConvert( QVariant::Image ) );
QImage d = qvariant_cast<QImage>(value);
QCOMPARE( d, result );
}
void tst_QGuiVariant::toBrush_data()
{
QTest::addColumn<QVariant>("value");
QTest::addColumn<QBrush>("result");
QColor c(Qt::red);
QTest::newRow( "color" ) << QVariant( c ) << QBrush(c);
QPixmap pm(30, 30);
pm.fill(c);
QTest::newRow( "pixmap" ) << QVariant( pm ) << QBrush(pm);
}
void tst_QGuiVariant::toBrush()
{
QFETCH( QVariant, value );
QFETCH( QBrush, result );
QVERIFY( value.isValid() );
QVERIFY( value.canConvert( QVariant::Brush ) );
QBrush d = qvariant_cast<QBrush>(value);
QCOMPARE( d, result );
}
void tst_QGuiVariant::toFont_data()
{
QTest::addColumn<QVariant>("value");
QTest::addColumn<QFont>("result");
QFont f("times",12,-1,false);
QTest::newRow( "string" ) << QVariant( QString( "times,12,-1,5,50,0,0,0,0,0" ) ) << f;
}
void tst_QGuiVariant::toFont()
{
QFETCH( QVariant, value );
QFETCH( QFont, result );
QVERIFY( value.isValid() );
QVERIFY( value.canConvert( QVariant::Font ) );
QFont d = qvariant_cast<QFont>(value);
QCOMPARE( d, result );
}
void tst_QGuiVariant::toKeySequence_data()
{
QTest::addColumn<QVariant>("value");
QTest::addColumn<QKeySequence>("result");
QTest::newRow( "int" ) << QVariant( 67108929 ) << QKeySequence( Qt::CTRL + Qt::Key_A );
QTest::newRow( "qstring" )
<< QVariant( QString( "Ctrl+A" ) )
<< QKeySequence( Qt::CTRL + Qt::Key_A );
}
void tst_QGuiVariant::toKeySequence()
{
QFETCH( QVariant, value );
QFETCH( QKeySequence, result );
QVERIFY( value.isValid() );
QVERIFY( value.canConvert( QVariant::KeySequence ) );
QKeySequence d = qvariant_cast<QKeySequence>(value);
QCOMPARE( d, result );
}
void tst_QGuiVariant::toString_data()
{
QTest::addColumn<QVariant>("value");
QTest::addColumn<QString>("result");
QTest::newRow( "qkeysequence" ) << QVariant::fromValue( QKeySequence( Qt::CTRL + Qt::Key_A ) )
#ifndef Q_OS_MAC
<< QString( "Ctrl+A" );
#else
<< QString(QChar(0x2318)) + "A";
#endif
QFont font( "times", 12 );
QTest::newRow( "qfont" ) << QVariant::fromValue( font ) << QString("times,12,-1,5,50,0,0,0,0,0");
QTest::newRow( "qcolor" ) << QVariant::fromValue( QColor( 10, 10, 10 ) ) << QString( "#0a0a0a" );
}
void tst_QGuiVariant::toString()
{
QFETCH( QVariant, value );
QFETCH( QString, result );
QVERIFY( value.isValid() );
QVERIFY( value.canConvert( QVariant::String ) );
QString str = value.toString();
QCOMPARE( str, result );
}
void tst_QGuiVariant::matrix()
{
QVariant variant;
QMatrix matrix = qvariant_cast<QMatrix>(variant);
QVERIFY(matrix.isIdentity());
variant.setValue(QMatrix().rotate(90));
QCOMPARE(QMatrix().rotate(90), qvariant_cast<QMatrix>(variant));
void *mmatrix = QMetaType::create(QVariant::Matrix, 0);
QVERIFY(mmatrix);
QMetaType::destroy(QVariant::Matrix, mmatrix);
}
void tst_QGuiVariant::matrix4x4()
{
QVariant variant;
QMatrix4x4 matrix = qvariant_cast<QMatrix4x4>(variant);
QVERIFY(matrix.isIdentity());
QMatrix4x4 m;
m.scale(2.0f);
variant.setValue(m);
QCOMPARE(m, qvariant_cast<QMatrix4x4>(variant));
void *mmatrix = QMetaType::create(QVariant::Matrix4x4, 0);
QVERIFY(mmatrix);
QMetaType::destroy(QVariant::Matrix4x4, mmatrix);
}
void tst_QGuiVariant::transform()
{
QVariant variant;
QTransform matrix = qvariant_cast<QTransform>(variant);
QVERIFY(matrix.isIdentity());
variant.setValue(QTransform().rotate(90));
QCOMPARE(QTransform().rotate(90), qvariant_cast<QTransform>(variant));
void *mmatrix = QMetaType::create(QVariant::Transform, 0);
QVERIFY(mmatrix);
QMetaType::destroy(QVariant::Transform, mmatrix);
}
void tst_QGuiVariant::vector2D()
{
QVariant variant;
QVector2D vector = qvariant_cast<QVector2D>(variant);
QVERIFY(vector.isNull());
variant.setValue(QVector2D(0.1f, 0.2f));
QCOMPARE(QVector2D(0.1f, 0.2f), qvariant_cast<QVector2D>(variant));
void *pvector = QMetaType::create(QVariant::Vector2D, 0);
QVERIFY(pvector);
QMetaType::destroy(QVariant::Vector2D, pvector);
}
void tst_QGuiVariant::vector3D()
{
QVariant variant;
QVector3D vector = qvariant_cast<QVector3D>(variant);
QVERIFY(vector.isNull());
variant.setValue(QVector3D(0.1, 0.2, 0.3));
QCOMPARE(QVector3D(0.1, 0.2, 0.3), qvariant_cast<QVector3D>(variant));
void *pvector = QMetaType::create(QVariant::Vector3D, 0);
QVERIFY(pvector);
QMetaType::destroy(QVariant::Vector3D, pvector);
}
void tst_QGuiVariant::vector4D()
{
QVariant variant;
QVector4D vector = qvariant_cast<QVector4D>(variant);
QVERIFY(vector.isNull());
variant.setValue(QVector4D(0.1, 0.2, 0.3, 0.4));
QCOMPARE(QVector4D(0.1, 0.2, 0.3, 0.4), qvariant_cast<QVector4D>(variant));
void *pvector = QMetaType::create(QVariant::Vector4D, 0);
QVERIFY(pvector);
QMetaType::destroy(QVariant::Vector4D, pvector);
}
void tst_QGuiVariant::quaternion()
{
QVariant variant;
QQuaternion quaternion = qvariant_cast<QQuaternion>(variant);
QVERIFY(quaternion.isIdentity());
variant.setValue(QQuaternion(0.1, 0.2, 0.3, 0.4));
QCOMPARE(QQuaternion(0.1, 0.2, 0.3, 0.4), qvariant_cast<QQuaternion>(variant));
void *pquaternion = QMetaType::create(QVariant::Quaternion, 0);
QVERIFY(pquaternion);
QMetaType::destroy(QVariant::Quaternion, pquaternion);
}
void tst_QGuiVariant::writeToReadFromDataStream_data()
{
QTest::addColumn<QVariant>("writeVariant");
QTest::addColumn<bool>("isNull");
QTest::newRow( "bitmap_invalid" ) << QVariant::fromValue( QBitmap() ) << true;
QBitmap bitmap( 10, 10 );
bitmap.fill( Qt::red );
QTest::newRow( "bitmap_valid" ) << QVariant::fromValue( bitmap ) << false;
QTest::newRow( "brush_valid" ) << QVariant::fromValue( QBrush( Qt::red ) ) << false;
QTest::newRow( "color_valid" ) << QVariant::fromValue( QColor( Qt::red ) ) << false;
#ifndef QTEST_NO_CURSOR
QTest::newRow( "cursor_valid" ) << QVariant::fromValue( QCursor( Qt::PointingHandCursor ) ) << false;
#endif
QTest::newRow( "font_valid" ) << QVariant::fromValue( QFont( "times", 12 ) ) << false;
QTest::newRow( "pixmap_invalid" ) << QVariant::fromValue( QPixmap() ) << true;
QPixmap pixmap( 10, 10 );
pixmap.fill( Qt::red );
QTest::newRow( "pixmap_valid" ) << QVariant::fromValue( pixmap ) << false;
QTest::newRow( "image_invalid" ) << QVariant::fromValue( QImage() ) << true;
QTest::newRow( "keysequence_valid" ) << QVariant::fromValue( QKeySequence( Qt::CTRL + Qt::Key_A ) ) << false;
QTest::newRow( "palette_valid" ) << QVariant::fromValue(QPalette(QColor("turquoise"))) << false;
QTest::newRow( "pen_valid" ) << QVariant::fromValue( QPen( Qt::red ) ) << false;
QTest::newRow( "pointarray_invalid" ) << QVariant::fromValue( QPolygon() ) << true;
QTest::newRow( "pointarray_valid" ) << QVariant::fromValue( QPolygon( QRect( 10, 10, 20, 20 ) ) ) << false;
QTest::newRow( "region_invalid" ) << QVariant::fromValue( QRegion() ) << true;
QTest::newRow( "region_valid" ) << QVariant::fromValue( QRegion( 10, 10, 20, 20 ) ) << false;
}
void tst_QGuiVariant::invalidQColor()
{
QVariant va("An invalid QColor::name() value.");
QVERIFY(va.canConvert(QVariant::Color));
QVERIFY(!va.convert(QVariant::Color));
QVERIFY(!qvariant_cast<QColor>(va).isValid());
}
void tst_QGuiVariant::colorInteger()
{
QVariant v = QColor(Qt::red);
QCOMPARE(v.type(), QVariant::Color);
QCOMPARE(v.value<QColor>(), QColor(Qt::red));
v.setValue(1000);
QCOMPARE(v.type(), QVariant::Int);
QCOMPARE(v.toInt(), 1000);
v.setValue(QColor(Qt::yellow));
QCOMPARE(v.type(), QVariant::Color);
QCOMPARE(v.value<QColor>(), QColor(Qt::yellow));
}
void tst_QGuiVariant::writeToReadFromDataStream()
{
QFETCH( QVariant, writeVariant );
QFETCH( bool, isNull );
QByteArray data;
QDataStream writeStream( &data, QIODevice::WriteOnly );
writeStream << writeVariant;
QVariant readVariant;
QDataStream readStream( &data, QIODevice::ReadOnly );
readStream >> readVariant;
QVERIFY( readVariant.isNull() == isNull );
// Best way to confirm the readVariant contains the same data?
// Since only a few won't match since the serial numbers are different
// I won't bother adding another bool in the data test.
const int writeType = writeVariant.userType();
if ( writeType != QVariant::Invalid && writeType != QVariant::Bitmap && writeType != QVariant::Pixmap
&& writeType != QVariant::Image) {
switch (writeType) {
default:
QCOMPARE( readVariant, writeVariant );
break;
// compare types know by QMetaType but not QVariant (QVariant::operator==() knows nothing about them)
case QMetaType::Long:
QCOMPARE(qvariant_cast<long>(readVariant), qvariant_cast<long>(writeVariant));
break;
case QMetaType::ULong:
QCOMPARE(qvariant_cast<ulong>(readVariant), qvariant_cast<ulong>(writeVariant));
break;
case QMetaType::Short:
QCOMPARE(qvariant_cast<short>(readVariant), qvariant_cast<short>(writeVariant));
break;
case QMetaType::UShort:
QCOMPARE(qvariant_cast<ushort>(readVariant), qvariant_cast<ushort>(writeVariant));
break;
case QMetaType::Char:
QCOMPARE(qvariant_cast<char>(readVariant), qvariant_cast<char>(writeVariant));
break;
case QMetaType::UChar:
QCOMPARE(qvariant_cast<uchar>(readVariant), qvariant_cast<uchar>(writeVariant));
break;
case QMetaType::Float:
{
// the uninitialized float can be NaN (observed on Windows Mobile 5 ARMv4i)
float readFloat = qvariant_cast<float>(readVariant);
float writtenFloat = qvariant_cast<float>(writeVariant);
QVERIFY(qIsNaN(readFloat) == qIsNaN(writtenFloat));
if (!qIsNaN(readFloat))
QVERIFY(readFloat == writtenFloat);
}
break;
}
}
}
void tst_QGuiVariant::debugStream_data()
{
QTest::addColumn<QVariant>("variant");
QTest::addColumn<int>("typeId");
for (int id = QMetaType::FirstGuiType; id <= QMetaType::LastGuiType; ++id) {
const char *tagName = QMetaType::typeName(id);
if (!tagName)
continue;
QTest::newRow(tagName) << QVariant(static_cast<QVariant::Type>(id)) << id;
}
}
void tst_QGuiVariant::debugStream()
{
QFETCH(QVariant, variant);
QFETCH(int, typeId);
MessageHandler msgHandler(typeId);
qDebug() << variant;
QVERIFY(msgHandler.testPassed());
}
void tst_QGuiVariant::implicitConstruction()
{
// This is a compile-time test
QVariant v;
#define FOR_EACH_GUI_CLASS(F) \
F(Font) \
F(Pixmap) \
F(Brush) \
F(Color) \
F(Palette) \
F(Icon) \
F(Image) \
F(Polygon) \
F(Region) \
F(Bitmap) \
F(Cursor) \
F(KeySequence) \
F(Pen) \
F(TextLength) \
F(TextFormat) \
F(Matrix) \
F(Transform) \
F(Matrix4x4) \
F(Vector2D) \
F(Vector3D) \
F(Vector4D) \
F(Quaternion) \
F(PolygonF) \
#define CONSTRUCT(TYPE) \
{ \
Q##TYPE t; \
v = t; \
QVERIFY(true); \
}
FOR_EACH_GUI_CLASS(CONSTRUCT)
#undef CONSTRUCT
#undef FOR_EACH_GUI_CLASS
}
void tst_QGuiVariant::guiVariantAtExit()
{
// crash test, it should not crash at QGuiApplication exit
#ifndef QTEST_NO_CURSOR
static QVariant cursor = QCursor();
#endif
static QVariant point = QPoint();
static QVariant icon = QIcon();
static QVariant image = QImage();
static QVariant palette = QPalette();
#ifndef QTEST_NO_CURSOR
Q_UNUSED(cursor);
#endif
Q_UNUSED(point);
Q_UNUSED(icon);
Q_UNUSED(image);
Q_UNUSED(palette);
QVERIFY(true);
}
QTEST_MAIN(tst_QGuiVariant)
#include "tst_qguivariant.moc"