/**************************************************************************** ** ** 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 #include #include #include #include #include #include #include class tst_QGraphicsLinearLayout : public QObject { Q_OBJECT public slots: void initTestCase(); void cleanupTestCase(); void init(); void cleanup(); private slots: void qgraphicslinearlayout_data(); void qgraphicslinearlayout(); void alignment_data(); void alignment(); void count_data(); void count(); void dump_data(); void dump(); void geometry_data(); void geometry(); void insertItem_data(); void insertItem(); void insertStretch_data(); void insertStretch(); void invalidate_data(); void invalidate(); void itemAt_data(); void itemAt(); void itemAt_visualOrder(); void orientation_data(); void orientation(); void removeAt_data(); void removeAt(); void removeItem_data(); void removeItem(); void setGeometry_data(); void setGeometry(); void setSpacing_data(); void setSpacing(); void setItemSpacing_data(); void setItemSpacing(); void itemSpacing(); void setStretchFactor_data(); void setStretchFactor(); void defaultStretchFactors_data(); void defaultStretchFactors(); void sizeHint_data(); void sizeHint(); void updateGeometry(); void layoutDirection(); void removeLayout(); void avoidRecursionInInsertItem(); void styleInfoLeak(); void testAlignmentInLargerLayout(); void testOffByOneInLargerLayout(); void testDefaultAlignment(); // Task specific tests void task218400_insertStretchCrash(); }; // Subclass that exposes the protected functions. class SubQGraphicsLinearLayout : public QGraphicsLinearLayout { public: SubQGraphicsLinearLayout(Qt::Orientation orientation = Qt::Horizontal) : QGraphicsLinearLayout(orientation), graphicsSceneResize(0), layoutRequest(0), layoutDirectionChange(0) { } void widgetEvent(QEvent *e) { switch (e->type()) { case QEvent::GraphicsSceneResize: graphicsSceneResize++; break; case QEvent::LayoutRequest: layoutRequest++; break; case QEvent::LayoutDirectionChange: layoutDirectionChange++; break; default: break; } QGraphicsLinearLayout::widgetEvent(e); } int graphicsSceneResize; int layoutRequest; int layoutDirectionChange; }; // This will be called before the first test function is executed. // It is only called once. void tst_QGraphicsLinearLayout::initTestCase() { // since the style will influence the results, we have to ensure // that the tests are run using the same style on all platforms #if defined( Q_WS_S60 )|| defined (Q_WS_WINCE) QApplication::setStyle(new QWindowsStyle); #else QApplication::setStyle(new QPlastiqueStyle); #endif } // This will be called after the last test function is executed. // It is only called once. void tst_QGraphicsLinearLayout::cleanupTestCase() { } // This will be called before each test function is executed. void tst_QGraphicsLinearLayout::init() { } // This will be called after every test function. void tst_QGraphicsLinearLayout::cleanup() { } class RectWidget : public QGraphicsWidget { public: RectWidget(QGraphicsItem *parent = 0, const QBrush &brush = QBrush()) : QGraphicsWidget(parent){ m_brush = brush;} void paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget) { Q_UNUSED(option); Q_UNUSED(widget); painter->setBrush(m_brush); painter->drawRoundRect(rect()); } void setSizeHint(Qt::SizeHint which, const QSizeF &size) { m_sizeHints[which] = size; updateGeometry(); } virtual QSizeF sizeHint(Qt::SizeHint which, const QSizeF &constraint = QSizeF()) const { if (m_sizeHints[which].isValid()) { return m_sizeHints[which]; } return QGraphicsWidget::sizeHint(which, constraint); } QSizeF m_sizeHints[Qt::NSizeHints]; QBrush m_brush; }; Q_DECLARE_METATYPE(Qt::Orientation) void tst_QGraphicsLinearLayout::qgraphicslinearlayout_data() { QTest::addColumn("orientation"); QTest::newRow("vertical") << Qt::Vertical; QTest::newRow("horizontal") << Qt::Horizontal; } void tst_QGraphicsLinearLayout::qgraphicslinearlayout() { QFETCH(Qt::Orientation, orientation); SubQGraphicsLinearLayout layout(orientation); QVERIFY(layout.isLayout()); qApp->processEvents(); QCOMPARE(layout.graphicsSceneResize, 0); QCOMPARE(layout.layoutRequest, 0); QCOMPARE(layout.layoutDirectionChange, 0); layout.setOrientation(Qt::Vertical); layout.orientation(); QTest::ignoreMessage(QtWarningMsg, "QGraphicsLinearLayout::insertItem: cannot insert null item"); QCOMPARE(layout.count(), 0); layout.addItem(0); QCOMPARE(layout.count(), 0); layout.addStretch(0); QCOMPARE(layout.count(), 0); QTest::ignoreMessage(QtWarningMsg, "QGraphicsLinearLayout::insertItem: cannot insert null item"); layout.insertItem(0, 0); layout.insertStretch(0, 0); layout.removeItem(0); QCOMPARE(layout.count(), 0); layout.setSpacing(0); layout.spacing(); QTest::ignoreMessage(QtWarningMsg, "QGraphicsLinearLayout::setStretchFactor: cannot assign a stretch factor to a null item"); layout.setStretchFactor(0, 0); QTest::ignoreMessage(QtWarningMsg, "QGraphicsLinearLayout::setStretchFactor: cannot return a stretch factor for a null item"); layout.stretchFactor(0); layout.setAlignment(0, Qt::AlignHCenter); QCOMPARE(layout.alignment(0), 0); layout.setGeometry(QRectF()); layout.geometry(); QCOMPARE(layout.count(), 0); layout.invalidate(); layout.sizeHint(Qt::MinimumSize, QSizeF()); } Q_DECLARE_METATYPE(Qt::AlignmentFlag) void tst_QGraphicsLinearLayout::alignment_data() { QTest::addColumn("orientation"); QTest::addColumn("newSize"); QTest::newRow("h-defaultsize") << Qt::Horizontal << QSize(); QTest::newRow("v-defaultsize") << Qt::Vertical << QSize(); QTest::newRow("h-300") << Qt::Horizontal << QSize(300,100); QTest::newRow("v-300") << Qt::Vertical << QSize(100, 300); } void tst_QGraphicsLinearLayout::alignment() { QFETCH(Qt::Orientation, orientation); QFETCH(QSize, newSize); //if (alignment == Qt::AlignAbsolute) // QApplication::setLayoutDirection(Qt::RightToLeft); QGraphicsScene scene; QGraphicsView view(&scene); view.setSceneRect(0, 0, 320, 240); QGraphicsWidget *widget = new QGraphicsWidget(0, Qt::Window); SubQGraphicsLinearLayout &layout = *(new SubQGraphicsLinearLayout(orientation)); scene.addItem(widget); widget->setLayout(&layout); static const Qt::Alignment alignmentsToTest[] = { (Qt::Alignment)0, Qt::AlignLeft, Qt::AlignRight, Qt::AlignHCenter, Qt::AlignTop, Qt::AlignBottom, Qt::AlignVCenter, Qt::AlignCenter, (Qt::Alignment)0, Qt::AlignLeft, Qt::AlignRight, Qt::AlignHCenter, Qt::AlignTop, Qt::AlignBottom, Qt::AlignVCenter, Qt::AlignCenter }; int i; bool addWidget = true; for (i = 0; i < sizeof(alignmentsToTest)/sizeof(Qt::Alignment); ++i) { QGraphicsLayoutItem *loutItem; Qt::Alignment align = alignmentsToTest[i]; if (!align && i > 0) addWidget = false; if (addWidget) loutItem = new RectWidget(widget, QBrush(Qt::blue)); else { SubQGraphicsLinearLayout *lay = new SubQGraphicsLinearLayout(Qt::Vertical); lay->setSizePolicy(QSizePolicy::Preferred, QSizePolicy::Preferred, QSizePolicy::DefaultType); lay->setContentsMargins(0,0,0,0); QGraphicsWidget *w = new RectWidget(widget, QBrush(Qt::red)); if (align) { w->setMinimumSize(QSizeF(10,10)); w->setMaximumSize(QSizeF(10,10)); } else { w->setMinimumSize(QSizeF(50,50)); w->setMaximumSize(QSizeF(50,50)); } lay->addItem(w); loutItem = lay; } if (align) { loutItem->setMinimumSize(QSizeF(10,10)); loutItem->setMaximumSize(QSizeF(10,10)); } else { loutItem->setMinimumSize(QSizeF(50,50)); loutItem->setMaximumSize(QSizeF(50,50)); } layout.addItem(loutItem); layout.setAlignment(loutItem, align); } layout.setContentsMargins(0,0,0,0); int spacing = 1; layout.setSpacing(spacing); if (newSize.isValid()) widget->resize(newSize); view.show(); widget->show(); QTest::qWaitForWindowShown(&view); QApplication::processEvents(); int x = 0; int y = 0; for (i = 0; i < layout.count(); ++i) { QGraphicsLayoutItem *item = layout.itemAt(i); Qt::Alignment align = layout.alignment(item); int w = 10; int h = 10; switch(align) { case Qt::AlignLeft: break; case Qt::AlignRight: if (orientation == Qt::Vertical) x += 40; break; case Qt::AlignHCenter: if (orientation == Qt::Vertical) x += 20; break; case Qt::AlignTop: break; case Qt::AlignBottom: if (orientation == Qt::Horizontal) y += 40; break; case Qt::AlignVCenter: if (orientation == Qt::Horizontal) y += 20; break; case Qt::AlignCenter: if (orientation == Qt::Horizontal) y += 20; else x += 20; break; case 0: w = 50; h = 50; break; default: break; } QRectF expectedGeometry(x, y, w, h); QCOMPARE(item->geometry(), expectedGeometry); if (orientation == Qt::Horizontal) { x += w; y = 0; x += spacing; } else { x = 0; y += h; y += spacing; } } } void tst_QGraphicsLinearLayout::count_data() { QTest::addColumn("itemCount"); QTest::addColumn("layoutCount"); QTest::newRow("0, 0") << 0 << 0; QTest::newRow("0, 5") << 0 << 5; QTest::newRow("5, 0") << 5 << 0; QTest::newRow("5, 5") << 5 << 5; } // int count() const public void tst_QGraphicsLinearLayout::count() { QFETCH(int, itemCount); QFETCH(int, layoutCount); SubQGraphicsLinearLayout layout; QCOMPARE(layout.count(), 0); for (int i = 0; i < itemCount; ++i) layout.addItem(new QGraphicsWidget); QCOMPARE(layout.count(), itemCount); for (int i = 0; i < layoutCount; ++i) layout.addItem(new SubQGraphicsLinearLayout); QCOMPARE(layout.count(), itemCount + layoutCount); // see also removeAt() } void tst_QGraphicsLinearLayout::dump_data() { QTest::addColumn("itemCount"); QTest::addColumn("layoutCount"); for (int i = -1; i < 3; ++i) { QTest::newRow(QString("%1, 0, 0").arg(i).toLatin1()) << 0 << 0; QTest::newRow(QString("%1, 0, 5").arg(i).toLatin1()) << 5 << 5; QTest::newRow(QString("%1, 5, 0").arg(i).toLatin1()) << 5 << 5; QTest::newRow(QString("%1, 5, 5").arg(i).toLatin1()) << 5 << 5; } } // void dump(int indent = 0) const public void tst_QGraphicsLinearLayout::dump() { QFETCH(int, itemCount); QFETCH(int, layoutCount); SubQGraphicsLinearLayout layout; for (int i = 0; i < itemCount; ++i) layout.addItem(new QGraphicsWidget); for (int i = 0; i < layoutCount; ++i) layout.addItem(new SubQGraphicsLinearLayout); } void tst_QGraphicsLinearLayout::geometry_data() { QTest::addColumn("itemCount"); QTest::addColumn("layoutCount"); QTest::addColumn("itemSpacing"); QTest::addColumn("spacing"); QTest::addColumn("orientation"); QTest::addColumn("rect"); QTest::newRow("null") << 0 << 0 << 0 << 0 << Qt::Horizontal << QRectF(); QTest::newRow("one item") << 1 << 0 << 0 << 0 << Qt::Horizontal << QRectF(0, 0, 10, 10); QTest::newRow("one layout") << 0 << 1 << 0 << 0 << Qt::Horizontal << QRectF(0, 0, 10, 10); QTest::newRow("two h") << 1 << 1 << 0 << 0 << Qt::Horizontal << QRectF(0, 0, 20, 10); QTest::newRow("two v") << 1 << 1 << 0 << 0 << Qt::Vertical << QRectF(0, 0, 10, 20); QTest::newRow("two w/itemspacing") << 1 << 1 << 5 << 0 << Qt::Horizontal << QRectF(0, 0, 25, 10); QTest::newRow("two w/spacing") << 1 << 1 << 8 << 0 << Qt::Horizontal << QRectF(0, 0, 28, 10); QTest::newRow("two w/itemspacing v") << 1 << 1 << 5 << 0 << Qt::Vertical << QRectF(0, 0, 10, 25); QTest::newRow("two w/spacing v") << 1 << 1 << 8 << 0 << Qt::Vertical << QRectF(0, 0, 10, 28); } // QRectF geometry() const public void tst_QGraphicsLinearLayout::geometry() { QFETCH(int, itemCount); QFETCH(int, layoutCount); QFETCH(int, itemSpacing); QFETCH(int, spacing); QFETCH(Qt::Orientation, orientation); QFETCH(QRectF, rect); QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *widget = new QGraphicsWidget(0, Qt::Window); SubQGraphicsLinearLayout &layout = *(new SubQGraphicsLinearLayout(orientation)); scene.addItem(widget); widget->setLayout(&layout); widget->setContentsMargins(0, 0, 0, 0); for (int i = 0; i < itemCount; ++i) layout.addItem(new QGraphicsWidget); for (int i = 0; i < layoutCount; ++i) layout.addItem(new SubQGraphicsLinearLayout); for (int i = 0; i < layout.count(); ++i) { QGraphicsLayoutItem *item = layout.itemAt(i); item->setMaximumSize(10, 10); item->setMinimumSize(10, 10); } layout.setItemSpacing(0, itemSpacing); layout.setSpacing(spacing); layout.setContentsMargins(0, 0, 0, 0); widget->show(); view.show(); QApplication::processEvents(); QCOMPARE(layout.geometry(), rect); delete widget; } void tst_QGraphicsLinearLayout::insertItem_data() { QTest::addColumn("itemCount"); QTest::addColumn("layoutCount"); QTest::addColumn("insertItemAt"); QTest::addColumn("isWidget"); for (int i = -1; i < 4; ++i) { for (int j = 0; j < 2; ++j) { QTest::newRow(QString("0, 0, %1 %2").arg(i).arg(j).toLatin1()) << 0 << 0 << i << (bool)j; QTest::newRow(QString("1, 0, %1 %2").arg(i).arg(j).toLatin1()) << 1 << 0 << i << (bool)j; QTest::newRow(QString("0, 1, %1 %2").arg(i).arg(j).toLatin1()) << 0 << 1 << i << (bool)j; QTest::newRow(QString("2, 2, %1 %2").arg(i).arg(j).toLatin1()) << 2 << 2 << i << (bool)j; } } } // void insertItem(int index, QGraphicsLayoutItem* item) public void tst_QGraphicsLinearLayout::insertItem() { QFETCH(int, itemCount); QFETCH(int, layoutCount); QFETCH(int, insertItemAt); QFETCH(bool, isWidget); if (insertItemAt > layoutCount + itemCount) return; SubQGraphicsLinearLayout layout; for (int i = 0; i < itemCount; ++i) layout.addItem(new QGraphicsWidget); for (int i = 0; i < layoutCount; ++i) layout.addItem(new SubQGraphicsLinearLayout); QGraphicsLayoutItem *item = 0; if (isWidget) item = new QGraphicsWidget; else item = new SubQGraphicsLinearLayout; QSizeF oldSizeHint = layout.sizeHint(Qt::PreferredSize, QSizeF()); layout.insertItem(insertItemAt, item); QCOMPARE(layout.count(), itemCount + layoutCount + 1); if (insertItemAt >= 0 && (itemCount + layoutCount >= 0)) { QCOMPARE(layout.itemAt(insertItemAt), item); } layout.activate(); QSizeF newSizeHint = layout.sizeHint(Qt::PreferredSize, QSizeF()); if (!isWidget && layout.count() == 1) QCOMPARE(oldSizeHint.width(), newSizeHint.width()); else if (itemCount + layoutCount > 0) QVERIFY(oldSizeHint.width() < newSizeHint.width()); } void tst_QGraphicsLinearLayout::insertStretch_data() { QTest::addColumn("itemCount"); QTest::addColumn("layoutCount"); QTest::addColumn("insertItemAt"); QTest::addColumn("stretch"); for (int i = -1; i < 4; ++i) { for (int j = 0; j < 2; ++j) { QTest::newRow(QString("0, 0, %1 %2").arg(i).arg(j).toLatin1()) << 0 << 0 << i << j; QTest::newRow(QString("1, 0, %1 %2").arg(i).arg(j).toLatin1()) << 1 << 0 << i << j; QTest::newRow(QString("0, 1, %1 %2").arg(i).arg(j).toLatin1()) << 0 << 1 << i << j; QTest::newRow(QString("2, 2, %1 %2").arg(i).arg(j).toLatin1()) << 2 << 2 << i << j; } } } // void insertStretch(int index, int stretch = 1) public void tst_QGraphicsLinearLayout::insertStretch() { QFETCH(int, itemCount); QFETCH(int, layoutCount); QFETCH(int, insertItemAt); QFETCH(int, stretch); if (insertItemAt > layoutCount + itemCount) return; QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *widget = new QGraphicsWidget(0, Qt::Window); SubQGraphicsLinearLayout *layout = new SubQGraphicsLinearLayout; scene.addItem(widget); QListitems; QGraphicsWidget *item = 0; for (int i = 0; i < itemCount; ++i) { item = new RectWidget; item->setMinimumSize(10, 10); item->setPreferredSize(25, 25); item->setMaximumSize(50, 50); layout->addItem(item); } for (int i = 0; i < layoutCount; ++i) { item = new RectWidget; item->setMinimumSize(10, 10); item->setPreferredSize(25, 25); item->setMaximumSize(50, 50); SubQGraphicsLinearLayout *sublayout = new SubQGraphicsLinearLayout; sublayout->addItem(item); layout->addItem(sublayout); } widget->setLayout(layout); layout->insertStretch(insertItemAt, stretch); QCOMPARE(layout->count(), itemCount + layoutCount); layout->activate(); view.show(); widget->show(); int prevStretch = -2; int prevWidth = -2; widget->resize((layoutCount + itemCount) * 25 + 25, 25); for (int i = 0; i < layout->count(); ++i) { if (QGraphicsLayoutItem *item = layout->itemAt(i)) { if (prevStretch != -2) { if (layout->stretchFactor(item) >= prevStretch) { QVERIFY(item->geometry().width() >= prevWidth); } else { QVERIFY(item->geometry().width() < prevWidth); } } prevStretch = layout->stretchFactor(item); prevWidth = (int)(item->geometry().width()); } } //QTest::qWait(1000); delete widget; } void tst_QGraphicsLinearLayout::invalidate_data() { QTest::addColumn("count"); QTest::newRow("0") << 0; QTest::newRow("1") << 1; QTest::newRow("2") << 2; QTest::newRow("3") << 3; } // void invalidate() public void tst_QGraphicsLinearLayout::invalidate() { QFETCH(int, count); QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *widget = new QGraphicsWidget(0, Qt::Window); SubQGraphicsLinearLayout &layout = *(new SubQGraphicsLinearLayout); scene.addItem(widget); widget->setLayout(&layout); widget->setContentsMargins(0, 0, 0, 0); layout.setContentsMargins(0, 0, 0, 0); view.show(); widget->show(); layout.setContentsMargins(1, 2, 3, 4); QApplication::sendPostedEvents(0, 0); QCOMPARE(layout.layoutRequest, 1); layout.setOrientation(Qt::Vertical); QApplication::sendPostedEvents(0, 0); QCOMPARE(layout.layoutRequest, 2); for (int i = 0; i < count; ++i) layout.invalidate(); // Event is compressed, should only get one layoutrequest QApplication::sendPostedEvents(0, 0); QCOMPARE(layout.layoutRequest, count ? 3 : 2); delete widget; } void tst_QGraphicsLinearLayout::itemAt_data() { QTest::addColumn("index"); QTest::newRow("0") << 0; QTest::newRow("1") << 1; QTest::newRow("2") << 2; } // QGraphicsLayoutItem* itemAt(int index) const public void tst_QGraphicsLinearLayout::itemAt() { // see also the insertItem() etc tests QFETCH(int, index); SubQGraphicsLinearLayout layout; for (int i = 0; i < 3; ++i) layout.addItem(new QGraphicsWidget); QVERIFY(layout.itemAt(index) != 0); } void tst_QGraphicsLinearLayout::itemAt_visualOrder() { QGraphicsLinearLayout *l = new QGraphicsLinearLayout; QGraphicsWidget *w1 = new QGraphicsWidget; l->addItem(w1); QGraphicsWidget *w3 = new QGraphicsWidget; l->addItem(w3); QGraphicsWidget *w0 = new QGraphicsWidget; l->insertItem(0, w0); QGraphicsWidget *w2 = new QGraphicsWidget; l->insertItem(2, w2); QCOMPARE(l->itemAt(0), static_cast(w0)); QCOMPARE(l->itemAt(1), static_cast(w1)); QCOMPARE(l->itemAt(2), static_cast(w2)); QCOMPARE(l->itemAt(3), static_cast(w3)); } void tst_QGraphicsLinearLayout::orientation_data() { QTest::addColumn("orientation"); QTest::newRow("vertical") << Qt::Vertical; QTest::newRow("horizontal") << Qt::Horizontal; } // Qt::Orientation orientation() const public void tst_QGraphicsLinearLayout::orientation() { QFETCH(Qt::Orientation, orientation); QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *widget = new QGraphicsWidget(0, Qt::Window); Qt::Orientation initialOrientation = (orientation == Qt::Vertical ? Qt::Horizontal : Qt::Vertical); SubQGraphicsLinearLayout &layout = *(new SubQGraphicsLinearLayout(initialOrientation)); scene.addItem(widget); widget->setLayout(&layout); widget->setContentsMargins(0, 0, 0, 0); layout.setContentsMargins(0, 0, 0, 0); int i; int itemCount = 3; for (i = 0; i < itemCount; ++i) layout.addItem(new RectWidget); QCOMPARE(layout.orientation(), initialOrientation); QList positions; view.show(); widget->show(); qApp->processEvents(); for (i = 0; i < itemCount; ++i) { QGraphicsWidget *item = static_cast(layout.itemAt(i)); qreal pos; if (initialOrientation == Qt::Horizontal) pos = item->pos().x(); else pos = item->pos().y(); positions.append(pos); } layout.setOrientation(orientation); QCOMPARE(layout.orientation(), orientation); // important to resize to preferredsize when orientation is switched widget->resize(widget->effectiveSizeHint(Qt::PreferredSize)); qApp->processEvents(); for (i = 0; i < positions.count(); ++i) { QGraphicsWidget *item = static_cast(layout.itemAt(i)); if (initialOrientation == Qt::Horizontal) QCOMPARE(item->pos().y(), positions.at(i)); else QCOMPARE(item->pos().x(), positions.at(i)); } //QSKIP("LayoutdirectionChange should only posted when QGraphicsWidget::setLayoutDirection() is called, right?", SkipAll); //QCOMPARE(layout.layoutDirectionChange, 1); } void tst_QGraphicsLinearLayout::removeAt_data() { QTest::addColumn("itemCount"); QTest::addColumn("layoutCount"); QTest::addColumn("removeItemAt"); QTest::addColumn("orientation"); for (int i = -1; i < 4; ++i) { for (int k = 0; k < 2; ++k) { Qt::Orientation orientation = (k == 0) ? Qt::Vertical : Qt::Horizontal; QTest::newRow(QString("0, 0, %1").arg(i).toLatin1()) << 0 << 0 << i << orientation; QTest::newRow(QString("1, 0, %1").arg(i).toLatin1()) << 1 << 0 << i << orientation; QTest::newRow(QString("0, 1, %1").arg(i).toLatin1()) << 0 << 1 << i << orientation; QTest::newRow(QString("2, 2, %1").arg(i).toLatin1()) << 2 << 2 << i << orientation; } } } // void removeAt(int index) public void tst_QGraphicsLinearLayout::removeAt() { QFETCH(int, itemCount); QFETCH(int, layoutCount); QFETCH(int, removeItemAt); QFETCH(Qt::Orientation, orientation); if (removeItemAt >= layoutCount + itemCount) return; SubQGraphicsLinearLayout layout(orientation); for (int i = 0; i < itemCount; ++i) layout.addItem(new QGraphicsWidget); for (int i = 0; i < layoutCount; ++i) layout.addItem(new SubQGraphicsLinearLayout); QSizeF oldSizeHint = layout.sizeHint(Qt::PreferredSize, QSizeF()); QGraphicsLayoutItem *w = 0; if (removeItemAt >= 0 && removeItemAt < layout.count()) w = layout.itemAt(removeItemAt); if (w) { QGraphicsLayoutItem *wParent = w->parentLayoutItem(); QCOMPARE(wParent, static_cast(&layout)); layout.removeAt(removeItemAt); wParent = w->parentLayoutItem(); QCOMPARE(wParent, static_cast(0)); delete w; } QCOMPARE(layout.count(), itemCount + layoutCount - (w ? 1 : 0)); layout.activate(); QSizeF newSizeHint = layout.sizeHint(Qt::PreferredSize, QSizeF()); if (orientation == Qt::Horizontal) QVERIFY(oldSizeHint.width() >= newSizeHint.width()); else QVERIFY(oldSizeHint.height() >= newSizeHint.height()); } void tst_QGraphicsLinearLayout::removeItem_data() { QTest::addColumn("itemCount"); QTest::addColumn("layoutCount"); QTest::addColumn("removeItemAt"); for (int i = -1; i < 4; ++i) { QTest::newRow(QString("0, 0, %1").arg(i).toLatin1()) << 0 << 0 << i; QTest::newRow(QString("1, 0, %1").arg(i).toLatin1()) << 1 << 0 << i; QTest::newRow(QString("0, 1, %1").arg(i).toLatin1()) << 0 << 1 << i; QTest::newRow(QString("2, 2, %1").arg(i).toLatin1()) << 2 << 2 << i; } } // void removeItem(QGraphicsLayoutItem* item) public void tst_QGraphicsLinearLayout::removeItem() { QFETCH(int, itemCount); QFETCH(int, layoutCount); QFETCH(int, removeItemAt); if (removeItemAt >= layoutCount + itemCount) return; SubQGraphicsLinearLayout layout; for (int i = 0; i < itemCount; ++i) layout.addItem(new QGraphicsWidget); for (int i = 0; i < layoutCount; ++i) layout.addItem(new SubQGraphicsLinearLayout); QGraphicsLayoutItem *w = 0; if (removeItemAt >= 0 && removeItemAt < layout.count()) w = layout.itemAt(removeItemAt); QSizeF oldSizeHint = layout.sizeHint(Qt::PreferredSize, QSizeF()); if (w) { layout.removeItem(w); delete w; } QCOMPARE(layout.count(), itemCount + layoutCount - (w ? 1 : 0)); layout.activate(); QSizeF newSizeHint = layout.sizeHint(Qt::PreferredSize, QSizeF()); QVERIFY(oldSizeHint.width() >= newSizeHint.width()); } void tst_QGraphicsLinearLayout::setGeometry_data() { QTest::addColumn("rect"); QTest::newRow("null") << QRectF(); QTest::newRow("small") << QRectF(0, 0, 10, 10); } // void setGeometry(QRectF const& rect) public void tst_QGraphicsLinearLayout::setGeometry() { QFETCH(QRectF, rect); QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *widget = new QGraphicsWidget(0, Qt::Window); SubQGraphicsLinearLayout &layout = *(new SubQGraphicsLinearLayout); scene.addItem(widget); widget->setLayout(&layout); widget->setContentsMargins(0, 0, 0, 0); layout.setContentsMargins(0, 0, 0, 0); layout.setMaximumSize(100, 100); view.show(); widget->show(); QApplication::processEvents(); widget->setGeometry(rect); QCOMPARE(layout.geometry(), rect); // see also geometry() delete widget; } void tst_QGraphicsLinearLayout::setSpacing_data() { QTest::addColumn("spacing"); QTest::newRow("0") << (qreal)0; QTest::newRow("5") << (qreal)5; QTest::newRow("3.3") << (qreal)3.3; QTest::newRow("-4.3") << (qreal)4.3; } // void setSpacing(qreal spacing) public void tst_QGraphicsLinearLayout::setSpacing() { QFETCH(qreal, spacing); QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *widget = new QGraphicsWidget(0, Qt::Window); SubQGraphicsLinearLayout &layout = *(new SubQGraphicsLinearLayout); scene.addItem(widget); widget->setLayout(&layout); layout.setContentsMargins(0, 0, 0, 0); qreal oldSpacing = layout.spacing(); if (oldSpacing != -1) { for (int i = 0; i < 3; ++i) layout.addItem(new QGraphicsWidget); QSizeF oldSizeHint = layout.sizeHint(Qt::PreferredSize); layout.setSpacing(spacing); QCOMPARE(layout.spacing(), spacing); view.show(); widget->show(); QApplication::processEvents(); QSizeF newSizeHint = layout.sizeHint(Qt::PreferredSize); QCOMPARE(oldSizeHint.width() - oldSpacing * 2, newSizeHint.width() - spacing * 2); } else { QSKIP("This style uses non-uniform spacings (layoutSpacingImplementation() is reimplemented)", SkipAll); } delete widget; } void tst_QGraphicsLinearLayout::setItemSpacing_data() { QTest::addColumn("index"); QTest::addColumn("spacing"); QTest::newRow("0 at 0") << 0 << 0; QTest::newRow("10 at 0") << 0 << 10; QTest::newRow("10 at 1") << 1 << 10; QTest::newRow("10 at the end") << 4 << 10; } void tst_QGraphicsLinearLayout::setItemSpacing() { QFETCH(int, index); QFETCH(int, spacing); QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *widget = new QGraphicsWidget(0, Qt::Window); SubQGraphicsLinearLayout *layout = new SubQGraphicsLinearLayout; scene.addItem(widget); widget->setLayout(layout); layout->setContentsMargins(0, 0, 0, 0); for (int i = 0; i < 5; ++i) { QGraphicsWidget *w = new QGraphicsWidget; layout->addItem(w); } QSizeF oldSizeHint = layout->sizeHint(Qt::PreferredSize); qreal oldSpacing = 0; if (index < layout->count() - 1) oldSpacing = layout->spacing(); else spacing = 0; layout->setItemSpacing(index, spacing); view.show(); QApplication::processEvents(); QSizeF newSizeHint = layout->sizeHint(Qt::PreferredSize); if (oldSpacing >= 0) { QCOMPARE(newSizeHint.width() - spacing, oldSizeHint.width() - oldSpacing); } else { QSKIP("This style uses non-uniform spacings (layoutSpacingImplementation() is reimplemented)", SkipAll); } delete widget; } void tst_QGraphicsLinearLayout::itemSpacing() { QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *widget = new QGraphicsWidget(0, Qt::Window); SubQGraphicsLinearLayout *layout = new SubQGraphicsLinearLayout; scene.addItem(widget); widget->setLayout(layout); layout->setContentsMargins(0, 0, 0, 0); for (int i = 0; i < 5; ++i) { QGraphicsWidget *w = new QGraphicsWidget; layout->addItem(w); } // Check defaults qreal defaultSpacing = layout->spacing(); if (defaultSpacing >= 0) { QCOMPARE(layout->itemSpacing(0), defaultSpacing); } else { // all widgets are the same, so the spacing should be uniform QCOMPARE(layout->itemSpacing(0), layout->itemSpacing(1)); } layout->setItemSpacing(1, 42); QCOMPARE(layout->itemSpacing(1), qreal(42)); // try to unset layout->setItemSpacing(1, -1); QCOMPARE(layout->itemSpacing(1), defaultSpacing); delete widget; } /** * The stretch factors are not applied linearly, but they are used together with both the preferred size, maximum size to form the * internal effective stretch factor. * There is only need to apply stretch factors if the size of the layout is different than the layouts preferred size. * (If the size of the layout is the preferred size, then all items should get their preferred sizes. * However, imagine this use case: * Layout * +----------+----------+----------+ * name | A | B | C | * stretch | 1 | 2 | 3 | * sizehints|[5,10,50] |[5,10,50] |[5,10,50] | * +----------+----------+----------+ * * layout->resize(120, h) * * In QLayout, C would become 50, B would become 50 and A would get 20. When scaling a layout this would give a jerky feeling, since * the item with the highest stretch factor will first resize. When that has reached its maximum the next candidate for stretch will * resize, and finally, item with the lowest stretch factor will resize. * In QGraphicsLinearLayout we try to scale all items so that they all reach their maximum at the same time. This means that * their relative sizes are not proportional to their stretch factors. */ typedef QList IntList; Q_DECLARE_METATYPE(IntList) Q_DECLARE_METATYPE(qreal) void tst_QGraphicsLinearLayout::setStretchFactor_data() { QTest::addColumn("totalSize"); QTest::addColumn("stretches"); QTest::newRow(QString("60 [1,2]").toLatin1()) << qreal(60.0) << (IntList() << 1 << 2); QTest::newRow(QString("60 [1,2,3]").toLatin1()) << qreal(60.0) << (IntList() << 1 << 2 << 3); QTest::newRow(QString("120 [1,2,3,6]").toLatin1()) << qreal(120.0) << (IntList() << 1 << 2 << 3 << 6); } // void setStretchFactor(QGraphicsLayoutItem* item, int stretch) public void tst_QGraphicsLinearLayout::setStretchFactor() { QFETCH(qreal, totalSize); QFETCH(IntList, stretches); //QSKIP("Seems to be some problems with stretch factors. Talk with Jasmin", SkipAll); QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *widget = new QGraphicsWidget(0, Qt::Window); SubQGraphicsLinearLayout &layout = *(new SubQGraphicsLinearLayout); scene.addItem(widget); widget->setLayout(&layout); layout.setContentsMargins(0, 0, 0, 0); layout.setSpacing(0.0); widget->setContentsMargins(0, 0, 0, 0); int i; for (i = 0; i < stretches.count(); ++i) { QGraphicsWidget *item = new RectWidget(widget); item->setMinimumSize(5,5); item->setPreferredSize(10,5); item->setMaximumSize(50,5); layout.addItem(item); layout.setStretchFactor(item, stretches.at(i)); } widget->resize(totalSize, 10); QApplication::processEvents(); view.show(); widget->show(); qreal firstStretch = -1; qreal firstExtent = -1.; qreal sumExtent = 0; for (i = 0; i < stretches.count(); ++i) { QGraphicsWidget *item = static_cast(layout.itemAt(i)); qreal extent = item->size().width(); qreal stretch = (qreal)stretches.at(i); if (firstStretch != -1 && firstExtent != -1) { // The resulting widths does not correspond linearly to the stretch factors. if (stretch == firstStretch) QCOMPARE(extent, firstExtent); else if (stretch > firstStretch) QVERIFY(extent > firstExtent); else QVERIFY(extent < firstExtent); } else { firstStretch = (qreal)stretch; firstExtent = extent; } sumExtent+= extent; } QCOMPARE(sumExtent, totalSize); delete widget; } void tst_QGraphicsLinearLayout::defaultStretchFactors_data() { QTest::addColumn("orientation"); QTest::addColumn("count"); QTest::addColumn("preferredSizeHints"); QTest::addColumn("stretches"); QTest::addColumn("ignoreFlag"); QTest::addColumn("newSize"); QTest::addColumn("expectedSizes"); QTest::newRow("hor") << Qt::Horizontal << 3 << (IntList() << 20 << 40 << 60) << (IntList()) << (IntList()) << QSizeF() << (IntList() << 20 << 40 << 60); QTest::newRow("ver") << Qt::Vertical << 3 << (IntList() << 20 << 40 << 60) << (IntList()) << (IntList()) << QSizeF() << (IntList() << 20 << 40 << 60); QTest::newRow("hor,ignore123") << Qt::Horizontal << 3 << (IntList() << 20 << 40 << 60) << (IntList()) << (IntList() << 1 << 1 << 1) << QSizeF() << (IntList() << 0 << 0 << 0); QTest::newRow("hor,ignore23") << Qt::Horizontal << 3 << (IntList() << 10 << 10 << 10) << (IntList()) << (IntList() << 0 << 1 << 1) << QSizeF(200, 50) << (IntList()); //### stretches are not linear. QTest::newRow("hor,ignore2") << Qt::Horizontal << 3 << (IntList() << 10 << 10 << 10) << (IntList()) << (IntList() << 0 << 1 << 0) << QSizeF() << (IntList() << 10 << 0 << 10); } void tst_QGraphicsLinearLayout::defaultStretchFactors() { QFETCH(Qt::Orientation, orientation); QFETCH(int, count); QFETCH(IntList, preferredSizeHints); QFETCH(IntList, stretches); QFETCH(IntList, ignoreFlag); QFETCH(QSizeF, newSize); QFETCH(IntList, expectedSizes); QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *widget = new QGraphicsWidget(0, Qt::Window); SubQGraphicsLinearLayout *layout = new SubQGraphicsLinearLayout(orientation); scene.addItem(widget); widget->setLayout(layout); layout->setContentsMargins(0, 0, 0, 0); layout->setSpacing(0.0); widget->setContentsMargins(0, 0, 0, 0); int i; for (i = 0; i < count; ++i) { RectWidget *item = new RectWidget(widget); layout->addItem(item); if (preferredSizeHints.value(i, -1) >= 0) { item->setSizeHint(Qt::PreferredSize, QSizeF(preferredSizeHints.at(i), preferredSizeHints.at(i))); } if (stretches.value(i, -1) >= 0) { layout->setStretchFactor(item, stretches.at(i)); } if (ignoreFlag.value(i, 0) != 0) { QSizePolicy sp = item->sizePolicy(); if (orientation == Qt::Horizontal) sp.setHorizontalPolicy(QSizePolicy::Policy(sp.horizontalPolicy() | QSizePolicy::IgnoreFlag)); else sp.setVerticalPolicy(QSizePolicy::Policy(sp.verticalPolicy() | QSizePolicy::IgnoreFlag)); item->setSizePolicy(sp); } } QApplication::processEvents(); widget->show(); view.show(); view.resize(400,300); if (newSize.isValid()) widget->resize(newSize); QApplication::processEvents(); for (i = 0; i < count; ++i) { QSizeF itemSize = layout->itemAt(i)->geometry().size(); if (orientation == Qt::Vertical) itemSize.transpose(); if (i < expectedSizes.count()) QCOMPARE(itemSize.width(), qreal(expectedSizes.at(i))); } delete widget; } Q_DECLARE_METATYPE(Qt::SizeHint) void tst_QGraphicsLinearLayout::sizeHint_data() { QTest::addColumn("which"); QTest::addColumn("constraint"); QTest::addColumn("spacing"); QTest::addColumn("layoutMargin"); QTest::addColumn("sizeHint"); QTest::newRow("minimumSize") << Qt::MinimumSize << QSizeF() << qreal(0.0) << qreal(0.0) << QSizeF(30, 10); QTest::newRow("preferredSize") << Qt::PreferredSize << QSizeF() << qreal(0.0) << qreal(0.0) << QSizeF(75, 25); QTest::newRow("maximumSize") << Qt::MaximumSize << QSizeF() << qreal(0.0) << qreal(0.0) << QSizeF(150, 50); QTest::newRow("minimumSize, spacing=3") << Qt::MinimumSize << QSizeF() << qreal(3.0) << qreal(0.0) << QSizeF(30 + 2*3, 10); QTest::newRow("minimumSize, spacing=3, layoutMargin=10") << Qt::MinimumSize << QSizeF() << qreal(3.0) << qreal(10.0) << QSizeF(30 + 2*3 + 2*10, 10 + 2*10); QTest::newRow("minimumSize, spacing=0, layoutMargin=7") << Qt::MinimumSize << QSizeF() << qreal(0.0) << qreal(7.0) << QSizeF(30 + 0 + 2*7, 10 + 2*7); } // QSizeF sizeHint(Qt::SizeHint which, QSizeF const& constraint) const public void tst_QGraphicsLinearLayout::sizeHint() { QFETCH(Qt::SizeHint, which); QFETCH(QSizeF, constraint); QFETCH(qreal, spacing); QFETCH(qreal, layoutMargin); QFETCH(QSizeF, sizeHint); QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *widget = new QGraphicsWidget(0, Qt::Window); SubQGraphicsLinearLayout &layout = *(new SubQGraphicsLinearLayout); scene.addItem(widget); widget->setLayout(&layout); layout.setContentsMargins(layoutMargin, layoutMargin, layoutMargin, layoutMargin); layout.setSpacing(spacing); for (int i = 0; i < 3; ++i) { QGraphicsWidget *item = new QGraphicsWidget(widget); item->setMinimumSize(10, 10); item->setPreferredSize(25, 25); item->setMaximumSize(50, 50); layout.addItem(item); } QApplication::processEvents(); QCOMPARE(layout.sizeHint(which, constraint), sizeHint); delete widget; } void tst_QGraphicsLinearLayout::updateGeometry() { QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *window = new QGraphicsWidget(0, Qt::Window); QGraphicsWidget *w1 = new QGraphicsWidget(window); w1->setMinimumSize(100, 40); SubQGraphicsLinearLayout *layout = new SubQGraphicsLinearLayout; layout->addItem(w1); scene.addItem(window); window->setLayout(layout); layout->setContentsMargins(0, 0, 0, 0); QCOMPARE(w1->parentLayoutItem(), static_cast(layout)); QCOMPARE(layout->parentLayoutItem(), static_cast(window)); view.show(); QApplication::processEvents(); QCOMPARE(window->size().toSize(), QSize(100, 50)); w1->setMinimumSize(110, 60); QApplication::processEvents(); QCOMPARE(window->size().toSize(), QSize(110, 60)); QApplication::processEvents(); { delete window; window = new QGraphicsWidget(0, Qt::Window); SubQGraphicsLinearLayout *layout2a = new SubQGraphicsLinearLayout; QGraphicsWidget *w1 = new QGraphicsWidget(window); w1->setMinimumSize(110, 50); layout2a->addItem(w1); SubQGraphicsLinearLayout *layout2 = new SubQGraphicsLinearLayout; layout2->addItem(layout2a); layout2->setContentsMargins(1, 1, 1, 1); layout2a->setContentsMargins(1, 1, 1, 1); window->setLayout(layout2); QApplication::processEvents(); QCOMPARE(w1->parentLayoutItem(), static_cast(layout2a)); QCOMPARE(layout2a->parentLayoutItem(), static_cast(layout2)); QCOMPARE(layout2->parentLayoutItem(), static_cast(window)); QCOMPARE(window->size().toSize(), QSize(114, 54)); QApplication::processEvents(); w1->setMinimumSize(120, 60); QApplication::processEvents(); QCOMPARE(window->size().toSize(), QSize(124, 64)); } { delete window; window = new QGraphicsWidget(0, Qt::Window); scene.addItem(window); window->show(); QGraphicsWidget *w1 = new QGraphicsWidget(window); w1->setMinimumSize(100, 50); SubQGraphicsLinearLayout *layout2a = new SubQGraphicsLinearLayout; layout2a->addItem(w1); SubQGraphicsLinearLayout *layout2 = new SubQGraphicsLinearLayout; layout2->addItem(layout2a); layout2a->setContentsMargins(1, 1, 1, 1); window->setLayout(layout2); QApplication::processEvents(); qreal left, top, right, bottom; layout2->getContentsMargins(&left, &top, &right, &bottom); QCOMPARE(window->size().toSize(), QSize(102 +left + right, 52 + top + bottom)); } { delete window; window = new QGraphicsWidget(0, Qt::Window); scene.addItem(window); QGraphicsWidget *w1 = new QGraphicsWidget(window); w1->setMinimumSize(100, 50); window->setLayout(0); SubQGraphicsLinearLayout *layout2a = new SubQGraphicsLinearLayout; layout2a->addItem(w1); SubQGraphicsLinearLayout *layout2 = new SubQGraphicsLinearLayout; layout2->addItem(layout2a); window->resize(200, 80); window->setLayout(layout2); window->show(); QApplication::processEvents(); QCOMPARE(window->size().toSize(), QSize(200, 80)); } } void tst_QGraphicsLinearLayout::layoutDirection() { QGraphicsScene scene; QGraphicsView view(&scene); QGraphicsWidget *window = new QGraphicsWidget(0, Qt::Window); QGraphicsLinearLayout *layout = new QGraphicsLinearLayout; layout->setContentsMargins(1, 2, 3, 4); layout->setSpacing(6); RectWidget *w1 = new RectWidget; w1->setPreferredSize(20, 20); w1->setSizePolicy(QSizePolicy::Fixed, QSizePolicy::Fixed); layout->addItem(w1); RectWidget *w2 = new RectWidget; w2->setPreferredSize(20, 20); w2->setSizePolicy(QSizePolicy::Fixed, QSizePolicy::Fixed); layout->addItem(w2); scene.addItem(window); window->setLayout(layout); view.show(); window->resize(50, 20); window->setLayoutDirection(Qt::LeftToRight); QApplication::processEvents(); QCOMPARE(w1->geometry().left(), 1.0); QCOMPARE(w1->geometry().right(), 21.0); QCOMPARE(w2->geometry().left(), 27.0); QCOMPARE(w2->geometry().right(), 47.0); window->setLayoutDirection(Qt::RightToLeft); QApplication::processEvents(); QCOMPARE(w1->geometry().right(), 49.0); QCOMPARE(w1->geometry().left(), 29.0); QCOMPARE(w2->geometry().right(), 23.0); QCOMPARE(w2->geometry().left(), 3.0); delete window; } void tst_QGraphicsLinearLayout::removeLayout() { QGraphicsScene scene; RectWidget *textEdit = new RectWidget; RectWidget *pushButton = new RectWidget; scene.addItem(textEdit); scene.addItem(pushButton); QGraphicsLinearLayout *layout = new QGraphicsLinearLayout; layout->addItem(textEdit); layout->addItem(pushButton); QGraphicsWidget *form = new QGraphicsWidget; form->setLayout(layout); scene.addItem(form); QGraphicsView view(&scene); view.show(); QTest::qWait(20); QRectF r1 = textEdit->geometry(); QRectF r2 = pushButton->geometry(); form->setLayout(0); //documentation of QGraphicsWidget::setLayout: //If layout is 0, the widget is left without a layout. Existing subwidgets' geometries will remain unaffected. QCOMPARE(textEdit->geometry(), r1); QCOMPARE(pushButton->geometry(), r2); } void tst_QGraphicsLinearLayout::avoidRecursionInInsertItem() { QGraphicsWidget window(0, Qt::Window); QGraphicsLinearLayout *layout = new QGraphicsLinearLayout(&window); QCOMPARE(layout->count(), 0); QTest::ignoreMessage(QtWarningMsg, "QGraphicsLinearLayout::insertItem: cannot insert itself"); layout->insertItem(0, layout); QCOMPARE(layout->count(), 0); } void tst_QGraphicsLinearLayout::styleInfoLeak() { QGraphicsLinearLayout layout; layout.spacing(); } void tst_QGraphicsLinearLayout::task218400_insertStretchCrash() { QGraphicsScene *scene = new QGraphicsScene; QGraphicsWidget *a = scene->addWidget(new QWidget); QGraphicsWidget *b = scene->addWidget(new QWidget); QGraphicsLinearLayout *layout = new QGraphicsLinearLayout; layout->addItem(a); layout->addItem(b); layout->insertStretch(0); // inserts gap in item grid in the layout engine QGraphicsWidget *form = new QGraphicsWidget; form->setLayout(layout); // crash } void tst_QGraphicsLinearLayout::testAlignmentInLargerLayout() { QGraphicsScene *scene = new QGraphicsScene; QGraphicsWidget *form = new QGraphicsWidget; scene->addItem(form); QGraphicsLinearLayout *layout = new QGraphicsLinearLayout(Qt::Vertical, form); layout->setSpacing(0); layout->setContentsMargins(0,0,0,0); QGraphicsWidget *a = new QGraphicsWidget; a->setMaximumSize(100,100); layout->addItem(a); QCOMPARE(form->maximumSize(), QSizeF(100,100)); QCOMPARE(layout->maximumSize(), QSizeF(100,100)); layout->setMinimumSize(QSizeF(200,200)); layout->setMaximumSize(QSizeF(200,200)); layout->setAlignment(a, Qt::AlignCenter); layout->activate(); QCOMPARE(a->geometry(), QRectF(50,50,100,100)); layout->setAlignment(a, Qt::AlignRight | Qt::AlignBottom); layout->activate(); QCOMPARE(a->geometry(), QRectF(100,100,100,100)); layout->setAlignment(a, Qt::AlignHCenter | Qt::AlignTop); layout->activate(); QCOMPARE(a->geometry(), QRectF(50,0,100,100)); QGraphicsWidget *b = new QGraphicsWidget; b->setMaximumSize(100,100); layout->addItem(b); layout->setAlignment(a, Qt::AlignCenter); layout->setAlignment(b, Qt::AlignCenter); layout->activate(); QCOMPARE(a->geometry(), QRectF(50,0,100,100)); QCOMPARE(b->geometry(), QRectF(50,100,100,100)); layout->setAlignment(a, Qt::AlignRight | Qt::AlignBottom); layout->setAlignment(b, Qt::AlignLeft | Qt::AlignTop); layout->activate(); QCOMPARE(a->geometry(), QRectF(100,0,100,100)); QCOMPARE(b->geometry(), QRectF(0,100,100,100)); } void tst_QGraphicsLinearLayout::testOffByOneInLargerLayout() { QGraphicsScene *scene = new QGraphicsScene; QGraphicsWidget *form = new QGraphicsWidget; scene->addItem(form); QGraphicsLinearLayout *layout = new QGraphicsLinearLayout(Qt::Vertical, form); layout->setSpacing(0); layout->setContentsMargins(0,0,0,0); QGraphicsWidget *a = new QGraphicsWidget; QGraphicsWidget *b = new QGraphicsWidget; a->setMaximumSize(100,100); b->setMaximumSize(100,100); layout->addItem(a); layout->addItem(b); layout->setAlignment(a, Qt::AlignRight | Qt::AlignBottom); layout->setAlignment(b, Qt::AlignLeft | Qt::AlignTop); layout->setMinimumSize(QSizeF(101,201)); layout->setMaximumSize(QSizeF(101,201)); layout->activate(); QCOMPARE(a->geometry(), QRectF(1,0.5,100,100)); QCOMPARE(b->geometry(), QRectF(0,100.5,100,100)); layout->setMinimumSize(QSizeF(100,200)); layout->setMaximumSize(QSizeF(100,200)); layout->activate(); QCOMPARE(a->geometry(), QRectF(0,0,100,100)); QCOMPARE(b->geometry(), QRectF(0,100,100,100)); layout->setMinimumSize(QSizeF(99,199)); layout->setMaximumSize(QSizeF(99,199)); layout->activate(); QCOMPARE(a->geometry(), QRectF(0,0,99,99.5)); QCOMPARE(b->geometry(), QRectF(0,99.5,99,99.5)); } void tst_QGraphicsLinearLayout::testDefaultAlignment() { QGraphicsWidget *widget = new QGraphicsWidget; QGraphicsLinearLayout *layout = new QGraphicsLinearLayout(Qt::Vertical, widget); layout->setContentsMargins(0, 0, 0, 0); layout->setSpacing(0); QGraphicsWidget *w = new QGraphicsWidget; w->setMinimumSize(50,50); w->setMaximumSize(50,50); layout->addItem(w); //Default alignment should be to the top-left QCOMPARE(layout->alignment(w), 0); //First, check by forcing the layout to be bigger layout->setMinimumSize(100,100); layout->activate(); QCOMPARE(layout->geometry(), QRectF(0,0,100,100)); QCOMPARE(w->geometry(), QRectF(0,0,50,50)); layout->setMinimumSize(-1,-1); //Second, check by adding a larger item in the column QGraphicsWidget *w2 = new QGraphicsWidget; w2->setMinimumSize(100,100); w2->setMaximumSize(100,100); layout->addItem(w2); layout->activate(); QCOMPARE(layout->geometry(), QRectF(0,0,100,150)); QCOMPARE(w->geometry(), QRectF(0,0,50,50)); QCOMPARE(w2->geometry(), QRectF(0,50,100,100)); } QTEST_MAIN(tst_QGraphicsLinearLayout) #include "tst_qgraphicslinearlayout.moc"